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Good morning, ladies and gentlemen, and welcome to the Amicus Therapeutics Third Quarter 2020 Financial Results Conference Call and Webcast. At this time, all participants are in a listen-only mode. Later, we will conduct a question-and-answer session and instructions will follow at that time. [Operator Instructions] As a reminder, this conference call is being recorded.
I would now like to turn the conference over to your host, Mr. Andrew Faughnan, Director of Investor Relations. You may begin.
Thank you Rens. Good morning. Thank you for joining our conference call to discuss Amicus Therapeutics’ third quarter 2020 financial results and corporate highlights.
Speaking on today’s call, we have John Crowley, Chairman and Chief Executive Officer; Bradley Campbell, President and Chief Operating Officer; Daphne Quimi, Chief Financial Officer; Dr. Jeff Castelli, Chief Development Officer; and Dr. Mitch Goldman, Senior Vice President of Clinical Research.
As referenced on Slide 2, we may make forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995 relating to our business, as well as our plans and prospects. Our forward-looking statements should not be regarded as representation by us that any of our plans will be achieved. Any or all of the forward-looking statements made on this call may turn out to be wrong and can be affected by inaccurate assumptions we might make or by known or unknown risks and uncertainties. You are cautioned not to place undue reliance on any forward-looking statements, which speak only to the date hereof.
All forward-looking statements are qualified in their entirety by this cautionary statement and we undertake no obligation to revise or update this presentation and conference call to reflect events or circumstances after the date hereof.
For a full discussion of such forward-looking statements and the risks and uncertainties that may impact them, we refer you to the Forward-Looking Statements and Risk Factors section of our Annual Report on Form 10-K for the year ended December 31, 2019, and the quarterly report on Form 10-Q for the quarter ended September 30, 2020 to be filed later today with the Securities and Exchange Commission.
At this time, it is my pleasure to turn the call over to John Crowley, Chairman and Chief Executive Officer. John?
Great. Thank you, Andrew, and welcome everyone to our third quarter 2020 results conference call. As we did last quarter, we hope you and your families continue to remain safe and healthy. Our leadership team in Amicus continues to emphasize a range of programs and initiatives to protect and support our global workforce during the ongoing pandemic.
While adapting to all of the changes brought about by the global pandemic, for Amicus, 2020 has been a period of excellent growth and execution across all aspects of our business, including science, clinical, regulatory, and as you see our commercial effort, as we continue to build one of the next great biotechnology companies, positioned and poised to impact people around the world living with rare diseases.
As we did in this morning's press release, I'd like to highlight several key accomplishments. First, Galafold continues its strong launch performance and remains the cornerstone of our success with $67.4 million in third quarter revenue, the Galafold launch continues to exceed expectations. The third quarter revenue represents the performance across all the global business, including new patient starts from both switch and naive patients throughout the quarter.
Second, our key R&D timelines remain on track. We now expect the Phase 3 PROPEL study for AT-GAA in late onset Pompe disease to read out in the first quarter of 2021. Additionally, the rolling BLA submission remains on schedule, and we expect the first submission before the end of this year. Today, also we'll be sharing results from the Amicus-sponsored natural history study in Pompe disease.
Within our gene therapy pipeline, we continue to move forward our lead Batten disease programs for both CLN6 and CLN3, as well as our most advanced preclinical gene therapy programs. Through our major research collaboration with Dr. Jim Wilson, and the University of Pennsylvania, we are pleased to announce this morning that a Fabry disease gene therapy clinical candidate has now been selected to move into IND enabling studies.
Based on the data that we have seen to-date, this program has moved much faster than originally planned for, and highlights the capabilities and potential that this collaboration can bring to people living with rare diseases.
And third, following our strategic financing in the third quarter, the Amicus cash position is sufficient to achieve self-sustainability without the need for any future diluted financings. Our continued revenue growth, our prudent expense management, and the growth potential for Amicus has allowed us to reach this important milestone, as we continue to realize our vision of delivering groundbreaking, and we believe potentially curative new medicines for people living with rare diseases around the world.
Turning to Slide 4, we are well on track to achieve our five key strategic priorities for 2020. These include Galafold, our precision medicine for Fabry, we will continue to drive Galafold to more people living with Fabry disease with a minimal variance in existing and to new geographies. We look to achieve global product revenue of $250 million to $260 million this year.
Two, we are increasing the clinical regulatory manufacturing and launch planning activities surrounding the Pompe program, as we move this therapy toward approval. Three, we are advancing our industry leading rare disease gene therapy portfolio. Stemming from our new global research and Gene Therapy Center of Excellence in Philadelphia, we will continue to advance the clinical development, manufacturing and regulatory discussions for both our CLN6 and CLN3 Batten programs.
In addition, we are progressing our Pompe gene therapy towards IND, and for the first time announced that an IND candidate has been declared for our Fabry gene therapy program. A lot of work is underway in our manufacturing partners for the manufacture and scale up of the gene therapy, potential IND candidates.
And again, we will continue to maintain the strong financial position as we carefully manage our expenses and our investments. And we remain fully funded through all major milestones.
So with that introduction let me now go ahead and hand the call over to Bradley Campbell, our President and Chief Operating Officer to further highlight the Galafold performance. Bradley?
Thanks, John. Good morning, everyone. As John mentioned, I'll walk you through in more detail our Galafold performance for the quarter. And I’ll start on Slide 6, where we go through the continued growth of Galafold revenue in the third quarter of 2020. We gave here our global snapshot of the Galafold commercial progress. And for the third quarter, our total product revenue was $67.4 million, driven by strong patient demand, favorable reimbursement dynamics, and business continuity.
Importantly the global compliance adherence rate continues to exceed 90%. The geographic breakdown of revenue during the quarter was $47.2 million or 70% of the revenue generated outside of United States and the remaining $20.3 million or 30% coming from within the United States. And I'm pleased to announce today the addition of Poland, Iceland, Luxembourg and Argentina to the growing list of countries around the world with regulatory approvals and now access to reimburse product.
As a reminder, before these newest additions we had approvals in 40 countries and commercial sales in over 30 of those today. This expanding global footprint is important not just to support the continued expansion of access to Galafold for Fabry patients, but of course, it also laid a very strong foundation which is highly leverageable to support the potential launch of AT-GAA and future product as well.
Turning now to Slide 7, as John mentioned, third quarter was another strong quarter for us. The business continues to be incredibly resilient and the quarter comes in above the internal expectations for Galafold, with patients added in all of our major markets. In select geographies outside the United States, we did see the COVID pandemic impacting the rate of new patient starts, largely due to disruptions in the interactions between patients and physicians and some bottlenecks in the provision of patient care.
Importantly though, our supply chain remains fully intact. Our customers have confidence that they can access Galafold, and our field team has been able to achieve a substantial majority of their pre-COVID touch points, through a combination of in-person, digital, telephonic and other means of interacting with their physicians.
Of course, as we close out the year, we will continue to monitor the pandemic's impact and duration, but the good news is today, we’re ten months under our belt, more confident we will deliver on our guidance and see continued growth into next year.
From another perspective, you can see the third quarter sales increased 38% from third quarter 2019, which does include 3% benefit from foreign exchange. From a true operational performance perspective, sales increased by 35% compared to the same time last year, so great growth from quarter 2019 to quarter 2020.
And on the left hand side, we show our quarterly performance over the past several quarters. And as we mentioned in previous calls, while we do continue to expect strong quarter-to-quarter growth, due to a variety of factors that growth is typically non-linear.
And again, despite the recent COVID-related headwinds in certain ex-U.S. geographies, we continue to be very confident in our guidance of $250 million to $260 million in full year global sales. And in fact, we can say at this time that we expect to come in the top half of that range.
Turning to Slide 8, with several years now performance behind us, we can confidently say we're on a path with that $500 million sales opportunity in 2023. As I've outlined previously, to get to $500 million in global sales, we expect a five year compound annual growth rate of about 40% from 2018 to 2023, and we expect to generate $1 billion accumulative revenue between 2020 and 2022 alone, which of course, goes a long way towards funding our R&D and operating expenses over that period.
We've also gained further confidence in the $1 billion revenue opportunity at peak, as we continue to see a significant growth in the Fabry market globally, driven by continued diagnosis from high risk screening, newborn screening and other diagnostic initiatives, which we're also investing in. And we have working exclusivity in the U.S. and Europe, in addition to our multiple orange book listed patents that give us IP coverage into the late 2030s. So a lot of opportunity to continue to provide access to Galafold globally for a long period to come.
So with that review of the revenue performance for the year, let me now hand the call over to Dr. Mitch Goldman, who's our Senior Vice President of Clinical Research to highlight our AT-GAA program. Mitch?
Thank you, Brad. Good morning, everyone. Moving on to our R&D updates on Slide 10, I would like to remind everyone of our highly differentiated Pompe therapy AT-GAA and its mechanism of action. AT-GAA is our novel next generation therapy consisting of ATB200 or cipaglucosidase alfa, an investigational human recombinant GAA enzyme, administered into the body through intravenous infusion, designed to target muscle cells throughout the body, combined with AT2221 or Migalastat, an orally administered enzyme stabilizer.
The AT2221 is administered shortly before the infusion as the enzyme replacement therapy begins and is intended to bind and stabilize the ATB200 in circulation, allowing more active enzyme to be taken up into cells and delivered to lysosomes.
The combination of enzyme replacement therapy and enzyme stabilizer is one major distinction from the standard of care, and from any treatment currently in development Pompe. The other distinction, and we believe more impactful advancement is the unique carbohydrate profile of enzyme itself. Dr. Hung Do, our Chief Science Officer and his team have been working over the past decade, to develop this Pompe enzyme replacement therapy that has both improved binding target receptors for efficient uptake into cells, as well as the ability to be processed by those cells in mature form of GAA.
With that in mind, let's turn to the next slide, Slide 11. Today, here we're showing the Natural History data from Amicus POM-002 study in people living with late onset Pompe disease, treated long-term with the current standard of care alglucosidase alfa.
The POM-002 study data shown on the left hand of the slides compared to the medical literature on the right hand side. These POM-002 data are consistent with the medical literature. We are producing it where patients on average generally see a benefit on six minute walk test over [Indiscernible] if you’re on treatment, which then stabilizes, but over time declines. These data support the need for new therapies and underpin the design assumptions for PROPEL.
Next slide, please. Importantly, here shown on this slide is that our timelines remain on track with data expected from PROPEL in the first quarter of 2021. To-date more than 97% of the 3,100 planned infusions and assessments for the ongoing PROPEL studies have been completed on schedule. In addition, we continue to enroll patients in the pediatric studies and advanced our manufacturing platform to support a 2021 BLA and MAA filing.
We want to express my thanks to all the Pompe clinical study participants, their families, to our investigators and site staff, and to our cross functional Amicus Pompe team for collective unwavering commitment and supportive efforts during this unprecedented time.
With that, we hand the call over to Dr. Jeff Castelli, the Chief Development Officer, to review our portfolio of gene therapies. Jeff?
Thank you, Mitch, and good morning, everyone. Moving now to Slide 14. I'll briefly highlight here our industry leading portfolio of gene therapies for rare diseases. During this time of COVID, we've been able to maintain our critical science and lead programs across the gene therapy portfolio, including CLN6 and CLN3 Batten disease, as well as Pompe and Fabry gene therapy programs at PENN.
Starting with our Batten disease franchise on Slide 15, last month at the Virtual Child Neurology Society Annual Meeting, we've reported positive interim data in our ongoing Phase 1/2 clinical study in CLN6 Batten disease. The data demonstrated a meaningful effect in slowing disease progression after 24 months, compared to Natural History.
The data continue to suggest that our gene therapy has a potential to be a treatment option for children living with CLN6 Batten, an ultra-rare debilitating condition that leads to progressive declines in cognitive and motor function, and often results in death in early childhood.
We continue to advance regulatory discussions to finalize the clinical and regulatory path and expect to provide an update in 2021 for CLN6. We believe the initial CLN6 results also provide important read through for our clinical study in CLN3 Batten disease, the most common form of childhood neurodegeneration. We plan to report initial data from the ongoing Phase 1/2 study in CLN3 early next year at a medical conference.
Additionally, we continue to make great progress on our commercial manufacturing process for both CLN6 and CLN3 programs, and remain on track to initiate studies for these programs next year using this commercial material.
Moving on to Slide 16, I would like to remind you of the research collaboration between Amicus and the University of Pennsylvania, which will be an important driver of growth in the future. This collaboration with the Wilson Lab at PENN combines Amicus' protein engineering and glycobiology expertise, with PENN's gene transfer technologies and expertise to develop novel gene therapies designed for optimal cellular uptake, targeting, stability, dosing, safety, and manufacturability. As part of this collaboration, Amicus has rights to 50 plus diseases, including five currently in active preclinical programs.
Moving on to Slide 17, as part of that collaboration, we are very pleased to announce that a gene therapy clinical IND candidate has been selected for Fabry disease. Initial data from our proprietary AAV gene therapy, which includes a ubiquitous promoter, and an Amicus engineered GLA transgene demonstrated significantly better GL-3 reduction and knockout mice, then one containing the wild type GLA transgene.
We're very excited to now show that in addition to engineering transgenes for improved protein uptake into target cells, as we did for our Pompe IND AAV gene therapy candidate, we're also able now to engineer transgenes for improved stability and activity. We will have the full set of preclinical data for this Fabry gene therapy presented at the medical conference in early 2021. We're very excited for this initial data in Fabry and continue to make progress across our preclinical gene therapy programs, as highlighted by the takeaways here on Slide 18.
With that, I would like to now turn the call over to Daphne Quimi, to review our financial results, guidance and outlook. Daphne?
Thank you, Jeff, and good morning, everyone. Our financial overview begins on Slide 20, with our income statement for the quarter ending September 30, 2020. For the third quarter, we achieved Galafold revenue of $67.4 million, which is a 38% increase over the third quarter of 2019. This includes year-over-year operational revenue growth measured at constant currency exchange rates of 35%, further benefited by a positive growth of currency impact of 3%.
Cost of goods sold as a percentage of net sales was 12.5% in the third quarter as compared to 11.5% for the prior year period. The increase in cost of goods sold as a percent of revenue was due to sales in select countries achieving the highest royalty rate in this quarter.
Total operating expenses were $111.8 million in the third quarter of 2020, reflecting an increase as compared to $100.5 million in the third quarter of 2019. On a non-GAAP basis, total operating expenses were $92.4 million in the third quarter of 2020, as compared to $89.7 million in the third quarter of 2019.
The increase in research and development costs reflected our continued investment to support the gene therapy program pipeline and the PROPEL study, as well as realignment with our strategic priorities. Our investment in research and development includes the impact of the implementation of cost reduction measures, as does the decrease in selling, general and administrative expenses.
We define non-GAAP gap operating expense as research and development and SG&A expenses, excluding share based compensation changes in fair value of contingent consideration and depreciation.
Net loss of the third quarter was $64 million or $0.25 per share, as compared to net loss of $61.8 million or $0.24 per share for the prior year period. As of September 30, 2020, we had approximately $260 million shares outstanding.
Turning now to Slide 21, following our $400 million senior secured term loan facility, we are now on a clear path to self-sustainability without the need for any future diluted financing. We have achieved this milestone by our continued revenue growth with Galafold, as well as driving efficiencies, cost savings and careful expense management. Securing the financing with market setting terms, gives us a strong financial platform to advance both patient and Amicus shareholder interest.
Going forward, again to emphasize, we expect total non-GAAP operating expenses in 2020 to remain relatively flat from 2019, as we leverage the global commercial infrastructure that is already in place for the AT-GAA launch, and other products in our pipeline. We transitioned the costs associated with the development of a AT-GAA to multiple gene therapy programs in our pipeline. And we maintained financial discipline while meeting our objectives.
To reiterate, all our high priority research programs in gene therapy are moving ahead on schedule, especially CLN3, CLN6, Pompe and Fabry. And we continue to fully support the work with the Wilson Lab at PENN.
A few comments about our cash position and 2020 financial guidance. Cash, cash equivalents and marketable securities were $509.1 million at September 30, 2020, compared to $452.7 million at December 31, 2019. We are reaffirming our full year Galafold revenue guidance of $250 million to $260 million, in addition to our non-GAAP operating expense guidance of $410 million to $420 million.
And with that, let me turn the call back over to John for our closing remarks.
Great. Thanks, Daphne. So, as everybody can see we have continued to be relentlessly focused on performance across the business. I'm incredibly proud of our team and the resiliency that they've shown, despite this great global pandemic, and all the challenges brought about by it. We have a great global team of passionate entrepreneurs, who have led and will continue to lead us through this. And I am confident that as the world emerges from this crisis, Amicus will emerge even stronger.
So with that operator, we're happy to take questions.
Thank you. [Operator Instructions] Your first question comes from the line of Anupam Rama from JP Morgan. Your line is open.
Hey, guys. Thanks so much for taking the question.
Sure, Anupam. Good morning.
Hey, how are you John?
I'm great. Thank you.
So, just a quick one for me. Thinking about Slide 7 in particular, on Galafold, when you look deeper into the operational growth that you're seeing, how do we think about sort of deeper penetration into the core regions versus say, new patient ads in some of the newer emerging market regions? Thanks so much.
Yes, sure. Bradley, do you want to provide some more color there to Anupam's question?
Yes. Thanks, Anupam. So, it's still mix. I mean, we have Japan and the U.S., who are still pretty early in their sort of launch cycle. And so you're getting really strong switching in those markets, although we are starting to see some naive patients come on there as well.
In Europe, those are a little bit further along in their launch curve, so there you're seeing both switch and naive patients coming out on an almost an equal rate, which is what would we expect over the course of the evolution of the launch there.
And then maybe a third of the growth is kind of new patients from different geographies. I highlighted a few on the call today. None of those in and of themselves are large, particularly with large markets, but when taken together, they're an important part of the growth story as well. So it is still a mix. And I think for the next two to three years, we're going to be very much in that kind of continue to penetrate in the mature markets, continue to push the launch in the big new ones, Japan and U.S., but also, bringing out as many of the small and midsized countries as we can.
Great. Thanks for taking our question.
Thanks, Anupam.
Thank you. Your next question comes from the line of Ritu Baral from Cowen. Your line is now open.
Good morning guys. Thanks for taking the question. Glad to hear you guys well. I want to focus on…
You too.
Hi. [indiscernible] so the new -- sorry that Pompe, POM-002 natural history data. I was wondering to know how much the 002 data contributed to the powering of the PROPEL study, first of all? And second how do your potential assumptions around powering for PROPEL change or not change, if you think about the placebo arm of the Phase 3 new GAA study that we saw? Just one housekeeping staying on PROPEL. If you could talk about like the number of primary endpoint visits you've managed to retain and timing of that?
Good. PROPEL, okay. So, Ritu, we have furiously been taking notes. I think that's only three questions, but that's actually quite good.
One question.
But in multiple parts. So, yes, we are happy to answer. So let me, before I ask Jeff and Mitch to weigh in again, I'll just emphasize the POM-002 study was originally done as the potential for a competitor, had there been a window for an early filing. Here, once we completed it, I think it adds to our body of knowledge, adds to the field, but it looks to be entirely consistent with everything that's been known about any benefit for Lumizyme and then the decline over time.
So, with that, Jeff, and maybe you want to begin and then we can ask Mitch to add any comments or colors to it. Did you capture those questions from Ritu, Jeff?
Jeff, you are on mute. No, we still can't hear you, Jeff.
Give us one second, Ritu.
Sure.
I have him up on video, muted with our video system, so I can see him trying to talk but. Then we'll go ahead and Mitch and I'll be happy to take the questions. So, Mitch, do you want to talk about the first part in terms of powering and what we assumed. I think takeaway is entirely consistent with all the assumptions we had made prior to seeing any of this data. But it did partly inform building the plan. So Mitch, I'll let you talk about the powering.
Sure. I think it's really largely right, John. I mean, it helped us to have the in house data sets with the variability that we would see. We use that along with our Phase 2 data to really understand moving against the six minute walk time point, the variability in the variable and outside of the study. So that's how we landed on 100 or so patients with PROPEL study and looking to deliver a 15 to 20 meter improvement in six minute walk at the end of the study versus the competitor alglucosidase.
No, thank you, Mitch. I think you know what this does and looking at all to once we saw this, this just gave us further confirmation there. This study PROPEL was extremely well powered. And again, based on what we know, we think we need somewhere around 15 or so, 15 to 20 meter delta to show statistical significance on superiority.
It’s interesting Ritu, your second part of the question, you referenced the neo data. And while I won’t speak to the neo arm, just their control arm, we did see that they had I believe it was a 3 meter improvement that one year, so essentially flat to where those patients began. That is worse than we assumed for Lumizyme, again, that is in a naive patient population. Again, our study is about 70% switch, about 30% naïve. But with respect to the naive patient in our studies, we expected that they would look more like 25 or so meters was our assumption.
So if, for whatever reason the patients randomized to Lumizyme and the control arm of our study in the PROPEL study, were to be closer to what we saw in neo, it would just further add to the powering of our study as well.
The third part of your question were, of course, and then the third part of your question were around the assessments lately. We did see some disruptions in the March, April timeframe. By mid to late May, all of the sites we’re receiving patients, patients were getting not only their infusions, but their assessments.
And again, even in the height of the pandemic back in early spring, the vast majority of patients we were seeing, we’re still getting their infusions, and all of their assessments and we look at the aggregate of the 3,100 assessments and infusions we're still well more than 97% of those have gone off as planned. So the integrity of the study remains very high.
And again, in any study, of course, you plan for missed infusions, missed assessments. And actually even with the pandemic, we're in a better place than we assumed, we would be without a pandemic. And I think that's a real testament to the effort of the team here.
Great. And are you guys making any adjustments for an increase in pandemic-related logistics, as cases are rising right now and before?
We follow every patient every week. We've got a master tracker of every set of activities for every patient. And again, the vast majority of patients now have completed that PROPEL study. We of course remain blinded to all of that, but virtually all patients have completed. Last patient out is scheduled in December.
Perfect. Thank you so much. Thanks for taking all the questions.
Thank you, Ritu. Of course.
Thank you. Your next question comes from the line of Joseph Schwartz from SVB Leerink. Go ahead.
Hi, I'm Julie dialing in for Joe. Thanks for taking our question. My question is on AT-GAA. Could you just remind us if there are any key steps remaining to complete your rolling BLA submission once you have your Phase 3 data?
Sure. We will have completed and submitted by the end of this quarter, the first module, the preclinical module, all of those activities have been completed. So, that will begin the rolling BLA process, Julie. We are nearly complete with all of the PPQ activities. We've completed the manufacturing parts of it, both the upstream and the downstream. So, some final last work and time on the stability studies and of course, all the final reports necessary for that CMC module.
And we're already drafting the clinical module. And once we have the PROPEL data, we would expect to update the clinical module with all of that important data. So no, there are no barriers left for us other than receiving the PROPEL data.
Okay, great. Thank you. I'll hop back in the queue.
Great. Thank you, Julie.
Thank you. Next, we have Salveen Richter from Goldman Sachs.
Good morning, thanks for taking my question. So, really two around the gene therapy portfolio. One around your Fabry candidate that's moving forward and how you see it differentiated versus competitors out there? And we've had a few others kind of discuss their target or the protein as well as construct an approach here. And then on the Battens program, what do we need to understand regulatory wise in order to move forward or expand into a pivotal stage?
Great. Thanks, Salveen. Hung, maybe you can speak to the science work that went into our Fabry gene therapy and the differentiation, what was unique about the protein and the tech that you took, and then we can come to Salveen's Battens question in a moment. Let's go ahead Hung, please.
Sure. Thanks, John. Hi, Salveen. Yes, to your question about how we develop our approach for the Fabry gene therapy, it actually is quite differentiating between us and how everyone else is approaching that. First and foremost, I think I should stress the importance of that protein is expressed as a dimer of two identical subunits. And it's imperative that that dimer stays together and intact for it to be functional.
And so with that in mind, what we've been able to do is to engineer the transgene, so it produces a protein that maintains that dimer formation, and it maintains its activity to ground. And that's important, as we were showing you that middle panel of our slide, that it remains active while it's expressed a secreted into the blood prior to its targeting to the various tissues. And so that is a huge advantage that we have seen, where we've been able to increase the activity and potency, essentially, of that protein. So, that when it actually targets to the specific cells, actually is able to be much more potent and effective for clearing substrates.
So again, as far as we know, this is the only gene therapy approach that is maybe more potent enzyme, through the transgene.
And then Salveen, I'll just comment briefly to your questions around regulatory. Again, this year, we've spent an enormous amount of time and effort focused on the CMC and the technical operations parts of these programs. We've successfully completed the tech transfer from Nationwide Children's to Thermo Fisher Brammer. They are now producing at commercial, what we believe will be the commercial scale and commercial quality. A lot of work has gone into the analytical development, the tightening of the potency assay and all the related analytics.
So, in terms of regulatory interactions, a good part of our regulatory interactions are to make sure that the key regulatory bodies are comfortable with all of the technical operations and CMC components of both CLN6 and CLN3.
And then on the clinical side, as you know, we're going to dose additional patients in both of those diseases with the commercial scale and quality material from Thermo Fisher. And right now, we're going to work with the regulators to figure out what is the right amount of time for additional follow-up for these patients. For CLN6, in particular, what is the amount of time, and then the number of patients as well?
For CLN3, we've only dosed four patients with the nationwide material. And to Jeff's point earlier we'll be able to provide and first look at that clinical data in the early part of 2021. So we’re very much looking forward to that and then with the regulators. We know we need to move into a pivotal study there. And our guess is, that will be somewhere around two dozen or so patients in CLN3.
And again, CLN3 is the largest of the Batten diseases and among the largest of the genetic fatal brain diseases in children, so significant numbers of children suffering with that, just horrible disease. So we're moving as fast as we possibly can in those programs and in other programs, neurologic Batten programs that continue through our preclinical pipeline.
So, lots more ahead on those programs in the next couple of quarters.
Thank you. Your next question comes from the line of Mohit Bansal from Citi. Your line is now open.
Hey there, this is Keith on for Mohit. Thanks for taking our questions, and congratulations on the quarter. So, we're just looking at expectations for gene therapy in general, they seem to have moved away from the cure and more towards sort of a very long-term therapeutic. It’s obviously very early, but looking at the CLN6 data, the probability of no decline seems to be pushed out rather than avoid it entirely.
How are you thinking about the mid and long-term expectations for this therapy? And then what would be the bar there for efficacy over time? Thanks.
Yes, candidly we continue to have very high expectations. These patents for these programs as you know Keith, they're really just awful devastating diseases. And it seems that, the earlier that you treat children in their disease progression, the better the outcome will be.
Right now, it's unclear whether you can ever reverse neurodegeneration, it doesn't seem that you can based on today's tools and technologies. So it's really important to identify these children as soon as you can after birth and to administer gene therapy, but we remain optimistic that for children without significant brain damage, with the properly targeted and safe gene therapy, that you can have a profound difference in fundamentally changing their quality of life.
Will it be a cure for some of the younger children or something more in the lines of curative therapy? We still think potentially so, but still much to be seen over time. Mitch, Jeff, if you guys want to add color?
Hey John, this is Jeff. Can you hear me?
You’re back. Yes, you paid your phone bill. Good.
Yes. My apologies for getting disconnected at the wrong time before. One thing I will comment on, as John mentioned, we really think it's the baseline severity that can impact whether kids treated with these neurological gene therapies can remain largely normal, live a pretty normal life, so close to what you would call like cure versus if they're impacted already and there's other damage that's done, there still can be some progression that's not really due to the underlying genetic factor that you're addressing with the gene therapy.
So, we think that that's a big factor here. In terms of durability of gene therapies, we know that's an issue with some of the liver directed gene therapies and some of the blood disorders, for example. With the CNS delivery, we really do expect that these gene therapies should be durable. There's really not a lot of data suggesting that there's any sort of turning off of expressing cells or turn over, so we are really hopeful that durability at least for CNS directed gene therapies could be quite good.
Thank you. The next one would be from Mike Ulz from Baird. Your line is now open.
Hey guys thanks for taking the question.
Hi Mike, good morning.
Good morning. Just a quick follow-up on the PROPEL study. John, you mentioned kind of get the last patient through in December, so maybe you can talk a little bit about the timeframe to sort of turn that dataset around and provide the topline results?
And I'm just curious if you see any unique challenges created by like COVID and if that could potentially extend the timeline there? Thanks.
Thanks, Mike. Yes again, we've tightened the timeline. We've always said it would be first-half of 2021. Now that we're just on the cusp of last patient out, we're confident that we'll be able to report the data out in the first quarter. That patient will receive the last infusion assessment as part of the protocol in December. At that point, shortly thereafter into early 2021, we’ll lock the database and we'll go through all of our protocols that we have in place and standard operating procedures for our clinical operations, clinical research teams to go through all of the data once we're confident that the integrity of the data and the database is scrubbing all of that.
We don't foresee anything with respect to COVID that would delay that, but we'll have to see as we get into. And that's why I think we gave ourselves some cushion by narrowing it to Q1. But we're also very confident that in the12 weeks or so if Q1 that that should be ample time, even if there are some challenges at some sites in the final data assembly.
So, I think we'll be in a really good place to report that out in Q1. And again, by Q2, we expect to file the BLA in the United States complete that submission.
Thank you. The next will be from Evan Wang from Guggenheim Securities. Your line is now open.
Hi. Thanks for taking the question. I had a question on gene therapy CMC broadly. And we've seen some difficulty with its communication or respect to the guidelines with FDA, with comparability, especially between clinical grade to commercial grade. Has there been any change with respect to regulatory agency requirements with respect to CMC? Or is it some sort of growing pain for gene therapy industry? And if this impact work towards building out in house capabilities compared to utilizing the CMO? Thanks.
Yes. Evan, I'll just state broadly, I think if Amicus is going to become one of the world's leading gene therapy companies, we've also got to be one of the world's leading gene therapy companies in process science. In many respects in gene therapy, the process is the product.
So we have been just hyper focused on it. And again, I think, actually Amicus is uniquely suited to succeed here, based on all the experience we have with a AT-GAA. That is among the most complicated glycosylated biologics ever produced.
And for that Pompe enzyme therapy program, we have successfully scaled it, produced it at commercial scale. With our partners at WuXi Biologics, we have a really sophisticated and experienced team in technical operations, in quality, in regulatory CMC, and we're applying all of that excellence together with our partners at Thermo Fisher Brammer in these lead Batten programs. But then also with other CMOs, with Jim Wilson and his UPenn team. So a lot of work on the CMC, the analytics and manufacturing side.
I actually think it'll be a great strategic advantage for Amicus. To the part of your question about the regulatory environment without question, in the last 12 to 18 months the regulatory framework at the FDA has continued to evolve. There have been much strengthened and much tightened standards around the analytical components, CMC requirements, manufacturing requirements for gene therapy. And I actually think that's a good thing. I think it was necessary, I think it's important for patient safety, but also important so that we understand exactly what we're providing the patients so we can assess efficacy as well.
Again, gene therapy is fundamentally different, with AAVs in particular, most patients are going to at least based on today's technologies have one shot. And we've got one shot as innovators and drug developers to get it right for patients. So that's why we are just hyper focused and a lot of focus attention a lot of our resources into the CMC side.
We are busy at work designing a world class state of the art clinical manufacturing gene therapy facility. And we're also in the early stages of thinking through a larger commercial scale facility as well. We would expect in very early 2021, that we'll be able to describe a lot of that more fully. So a lot of work behind the scenes on CMC for all of our programs, really, including investigating next generation technologies and working to develop and invent, I think some of the key technologies in gene therapy manufacturing ahead. So we really, really want to be we need to be at the forefront of gene therapy manufacturing.
Thank you. Your next question comes from the line of Kristin Gorski [ph] from Cantor Fitzgerald. Please go ahead.
Hi, everyone. Thanks for taking my questions and congrats on the great progress you've made over the last quarter. So, I wanted to ask on Fabry disease, how are you looking at the trends of identifying more amenable mutations on the label in the U.S. and Europe?
And then for your gene therapy program, could you remind us what you would view as the key differentiators and advantages to Amicus versus some of your peers, including your understanding of the market, of course, through Galafold?
And I know in the past that you've discussed in detail the importance of a really safe approach here, as well as targeting higher transduction to the heart and other key organs.
Great. Thanks, Kristin. Nice to hear from you. Bradley, do you want to take the first part about identifying more patients in who may be suitable for Galafold?
Sure, yes. So, I think there's really two pieces of that. One of them, Kristin, as I'm sure you saw last quarter, we did announce that we expanded the European label to include all of the potential mutations in the GLA gene. So, we went from sort of 350 or so mutations of the European label to 1,384 mutations in the European label. And we were able to do that for the great internal science team that we have. And with the really creative approach that the Europeans took with the ability to update that label, again, just with the preclinical essay determining imitability.
In the United States, that process is a little bit different. There, we actually have to have a patient who has been diagnosed with a new mutation in order to update the label. So, you see that the number is growing in United States, but it's growing in kind of ones and twos as we find patients with those mutations. So, that's one piece of the puzzle.
I think the other piece is, is identifying new Fabry patients. There, we're doing a ton of work. We've talked before about some of the interesting data, looking at an under diagnosed Fabry disease in MS clinics. And we're going through some investigator initiated studies to look more closely at that. We've also looked at PENN and GI clinics. And we're doing some really exciting things around both artificial intelligence, looking at improving the diagnostics. And we hope maybe in the first part of next year, we can talk a little bit more about some of the exciting findings there. And then, of course, all the newborn screening initiatives going on in the United States and around the world.
And then finally, we've talked about the work we've done with a company called NBK [ph], which of course, helps promote the use of diagnostic genetic testing. And there we've partnered with them to include Fabry in the panel, and in particular amenable Fabry with the minimal mutations in the panel that they use.
And then the last piece of the puzzle, I guess is that for every Fabry patient you find because it's an excellent disease, you typically find four to five family members with undiagnosed Fabry as well. So, a ton of work going on there. I think everybody in the field is really focused on that. And I think that's why you continue to see significant increases in diagnosis for Fabry, and also identifying more patients with a medical mutations.
Thanks, Bradley. I guess maybe few and Hung want to go ahead and tackle the gene therapy question. I think just very high level, again, a reminder of what we're doing, how it complements what Jim Wilson is doing. Hung you provided an excellent explanation for Salveen's questions specific around Fabry, but I think Kristin question is a bit more thinking holistically about the overall approach in gene therapy. And again, why this is going to continue to be such an important part of the Amicus business ahead?
Sure, John. Maybe I'll start along, and then you can add in there. And I do think that, obviously our experience with Galafold and Fabry development and interaction with that community over the years has helped us a lot in our gene therapy and that profile that we're looking for. We've learned about the importance of stabilized proteins, not just for our Chaperone and Galafold but also we know that you can combine Chaperone with the ERTs for stability to help improve those proteins.
So, really, when you look at the market, we do think Galafold patients there's a pretty high burden to switch to a gene therapy. We do think obviously in patients that are on ERT that don't have an option of an oral molecule, clearly there's an opportunity for a convenient one time therapy. But safety is definitely very important in terms of the gene therapy, because there are existing treatments that do address a lot of the issues in Fabry disease today.
So, when we looked at our gene therapy, the main approaches out there are either targeting a specific organ like the liver directed approaches or the cardio tropic approaches, but no matter what, what's clear is, given the Fabry is multisystemic and you need to address, kidney, heart, skin, vasculature. You need to have some main element of cross correction where you get some transduction in some cells. But those cells are going to need to also secrete the protein into the blood. And that is going to need to then travel to other cells and tissues and treat them.
And we've really focused on optimizing that cross correction through the stabilized transgene, so when that enzyme gets put out into the blood, it's now very stable at the Neutral pH. As it gets into cells and tissues it stays very active. And in essence, we've made a more potent gene therapy we believe. So with whatever small amounts of that enzyme that does get put out into the blood, that it will have optimal efficacy. So you don't need to go to doses that start to have safety concerns. So we think we have learned a lot about the approach here and really are excited about this stabilized construct for improving cross correction.
Hung, anything to add?
Yes, just one last thing I would add on this, from Jeff's explanation there. I think just from a practical point of view too, is that we are very cognizant of the transduction efficiency between preclinical studies and then ultimately in people. We know that in primates, particularly in humans, the transduction efficiency goes way down.
And so with that in mind, what we are trying to develop, it's a very potent protein, so that, when the efficiency drops in dose in humans, we are certain that we were actually able to achieve the level of enzyme produced, and that's going to be effective. So again, all these factors kind of weigh in terms of how we are developing this approach, which we believe is quite differentiated, and we hope to be quite improved over the current methodologies right now.
Great. Thank you, guys.
Thank you. You have your next question from Ritu Baral from Cowen. Please go ahead.
Hi, guys. Thanks for taking the follow-up. And Jeff no running away this time. My question is, back on Slide 17, when you're talking about the Fabry gene therapy, could you guys give a little more clarity on that second bullet, the proprietary AAV capsid? Can you talk about how you're thinking about these proprietary capsid both for Fabry and for Pompe given what we've seen with safety in the MD studies, [Indiscernible] activation, the potential liver issues seen with the excellent TM programs? And when we might get a little more clarity on what makes these truly proprietary?
Sure. Hung, you want to speak to me or Jeff. Yes.
I'll start I guess, John, and then Hung please chime in. So Ritu, I hope you can hear me this time. I'm not avoiding you. So the proprietary capsids are coming from our collaborators at UPenn. We're well aware of the various safety concerns that have risen up in the gene therapy AAV field broadly on the high systemic dosing, some of the challenges on liver damage, or DRG toxicity. These capsids, we think would still likely have those concerns.
Generally, it seems like these are a broad AAV effect and not necessarily specific to one specific type of AAV. I know some people try to point to well, it might be this specific AAV9, this specific AAV8, or this approach that's causing this toxicity. We think it's a little more broad. It could be impacted by manufacturing processes. And maybe the capsids and transgene have slight differences.
But overall, we're trying to address some of those concerns by having very potent transgenes and proteins. So we don't need to push on the dose, we can keep in a safe level. There's also technologies that our collaborators at PENN are working on to help reduce things like DRG toxicity, and we have early access to those types of technologies through the collaboration as well.
So in terms of the capsid itself, though, we're not yet disclosing what it is. It is -- and one of the common cleaves of AAVs, but we'll provide those specifics when we can. But we're really addressing the main concerns through having a potent transgene. Hung, anything to add on that front?
And just one last point here is that, I think, Jeff, you kind of touched on this earlier. The capsid that we're using actually has pretty broad transduction efficiency, and so that we're not reliant on any one specific organ or tissue. And so we think that having a broad transduction allows for the expression and secretion of this protein so that we can get much more effective cross correction.
So, again, I think, we have a lot more to say in terms of what this particular AAV capsid is in the future, but for now, I think that we are very confident, it's going to deliver a very effective gene therapy.
Very helpful. Thanks, guys.
Great. Thank you, Ritu.
Thank you. At this time I would like to turn the conference back to Mr. John Crowley, Chairman and CEO, for closing remarks.
Great. Thank you, operator. Thank you, everybody, for listening. Have a great day.
Ladies and gentlemen, this concludes today’s conference call. Thank you and have a great day.