This is an approximate transcript (i.e. from notes, not a tape) of an interview between Novazyme and the International Pompe Association (IPA). The participants were, from Novazyme: John Crowley (CEO), Julie Anne Smith (Senior Director, Patient Advocacy), William Canfield, M.D., Ph.D. (Chief Scientist), Pedro Huertas, M.D., Ph.D. (Chief Medical Officer), Anthony McKinney (Vice President, Drug Development) and from the IPA: Randall House (AMDA) and Kevin O’Donnell (AGSD-UK). The contributions are designated as IPA or Novazyme, rather than to individuals, for the simple reason that everyone contributed to the discussion and it was difficult to keep track of who exactly said what!
What makes Novazyme different?
The people, culture and philosophy. We are a science-driven, patient-focused organization. The patient is at the center of everything we do.
We’re a glycobiology company. We manipulate carbohydrate structures – for example the sugar chains on enzymes, which can be 50% of the volume of the active enzymeA protein that helps the body carry out chemical reactions. More. In order to treat lysosomal storage diseasesA group of diseases in which substances build up inside lysosomes because the body cannot break them... More (LSDsA group of diseases in which substances build up inside lysosomes because the body cannot break them... More), we need to be able to mimic the carbohydrate structure of the natural enzymeA protein that helps the body carry out chemical reactions. More.
Novazyme’s expertise in this area stems from over 8 years of research by Dr. William Canfield at the University of Oklahoma.
The carbohydrate chains on lysosomal enzymes target the enzymes to the cells that need it most (heart and muscle). Phosphorylating those carbohydrates is the signal that tells the cell to transport the enzymeA protein that helps the body carry out chemical reactions. More inside the lysosomesA small part of the cell that acts like a recycling center, helping break down waste materials. More.
CHO (Chinese hamster ovary) cells, commonly used in cell cultureA laboratory method used to grow cells outside the body so researchers can study disease and test tr... More, have a tendency to modify carbohydrate chains in a way that significantly reduces the efficacy of the finished enzymeA protein that helps the body carry out chemical reactions. More. They tend to add complex carbohydrate chains rather than the mannose-6-phosphate residues needed as markers for the lysosomesA small part of the cell that acts like a recycling center, helping break down waste materials. More.
Novazyme is modifies the CHO product to make it more natural.
How important is this tendency of CHO cells to add complex carbohydrates? Hasn’t the CHO product used in the Duke trial worked well?
The standard in-vitro assay used to measure enzymeA protein that helps the body carry out chemical reactions. More uptake may give an exaggerated figure – because it doesn’t account for the way the liver can soak up that enzymeA protein that helps the body carry out chemical reactions. More when it is introduced to the body. Based on a comparable enzymeA protein that helps the body carry out chemical reactions. More we have produced, we estimate that less than 1% of the enzymeA protein that helps the body carry out chemical reactions. More used in the Duke trial is phosphoryated.
What’s the evidence for the efficacy of the Novazyme product?
Animal studies carried out at Oklahoma and by Dr. Barry Byrne at the University of Florida indicate that normal enzymeA protein that helps the body carry out chemical reactions. More activity could be restored to one year-old Pompe’s mice with just one injection of our enzymeA protein that helps the body carry out chemical reactions. More. It also clears massive amounts of glycogenA stored form of sugar used for energy. More from the muscle cells after just 6 hours. This is a finding that we have repeated several times.
The high activity of the enzymeA protein that helps the body carry out chemical reactions. More means that we may be able to achieve the above result with a lower dose of enzymeA protein that helps the body carry out chemical reactions. More than with either the CHO or transgenic products. Our dosage in mice was 0.3mg/kg. The equivalent for the Duke CHO enzymeA protein that helps the body carry out chemical reactions. More is 10 mg/kg and for the transgenic enzymeA protein that helps the body carry out chemical reactions. More 40 mg/kg.
Once enzymeA protein that helps the body carry out chemical reactions. More activity is replaced, glycogenA stored form of sugar used for energy. More is cleared from the muscles and muscle strength is restored. We have measured muscle strength by an electrical method that allows us to compare the strength of treated and untreated muscle in mice.
This last finding is very important because it suggests that muscles may recover after the glycogenA stored form of sugar used for energy. More is cleared. The big question now is, can this be replicated in humans?
What are your plans for clinical trialsA research study that tests new treatments or approaches in people. More?
We intend to start a clinical trialA research study that tests new treatments or approaches in people. More towards the end of 2001. It will involve affected children and take place at three different centers in the USA Florida, NIH Bethesda, Philadelphia). The trial will be designed so that we can rapidly expand to international centers and to pivotal Phase III as soon as possible.
How many children will you be including and what will be the criteria for inclusion?
The trial will include 12-18 children. Our approach to inclusion will be different to that taken in other trials. We will take profoundly ill children and attempt to make them better.
Just to be clear, by ‘profoundly ill’ do you mean children who are already showing symptoms of Pompe’s and who may be, for example, ventilatorA method of assisting or replacing breathing using a machine that moves air in and out of the lungs.... More dependent?
The two things we want our trials to do are to contribute to science and to help patients. We will therefore be looking at patients with symptoms and will not be excluding children on ventilators. We will be looking for children who have the cardinal manifestations of the disease – cardiac dysfunction (which we believe is in all types, not just the infantile, though not in the form of cardiomyopathy), pulmonary involvement and musculo-skeletal disorder. It doesn’t matter which age the children are, as long as they meet the criteria. However, we don’t know what the exact criteria will be until we meet with the FDA.
Will the trial be restricted to children in the USA?
The trial will be open to all children who meet the trial criteria, anywhere in the world. We believe that costs should not be something that families should have to worry about, so we will meet all traveling and accommodation expenses, and also compensate for loss of earnings.
Will any of the children on the trial be given a placebo?
No. We are looking for a striking improvement that will demonstrate the efficacy of the treatment. We are looking to reverse the disorder, not just halt decline. We believe that we understand enough about the disease to be able to show change without comparison to a placebo. We also think that it would be unethical to bring children into the trial – perhaps involving a great deal of domestic upheaval – and give them a placebo.
So what are the next steps after that initial trial – will you be extending to other sub-types?
We don’t believe that there are sub-classes of Pompe’s – what we have is a continuum. However patients can be grouped into distinct populations and we will hold pivotal phase III trials aimed at those populations. We are currently in discussion with the regulatory agencies to that effect.
The big distinction is between CRIM (cross-reactive immunological material) -ve individuals and CRIM +ves. All those with the classical infantile form are CRIM -ve, meaning that they may produce antibodiesProteins made by the immune system that may recognize enzyme replacement therapy as foreign and redu... More against alpha-glucosidase. It is possible that the lower dosages needed with our enzymeA protein that helps the body carry out chemical reactions. More may help reduce this problem.
The target for the start of wider trials is mid 2002. Our intention is to run different trials in parallel. We are looking worldwide for trial sites, including Australia and Europe.
What is the bottleneck for progress?
We need commercial grade material for phase III and we are looking at options for this. We may decide to manufacture in-house. All of these things are progressing in parallel – we are not waiting for the results of Phase I/II before making progress with Phase III.
When do you think you will be able to complete the registration process?
The best case for approval is mid-2003. This is a challenging target. However building a company from scratch in a year was equally challenging – and we did it!
What about pricing? The high cost of ERT is a concern for many people.
Our philosophy on pricing is that the patient is at the center. The cost will reflect the burden of the disease. We recognize that this is a life-saving technology and our intention is that it will be fairly priced relative to other products in this area. This will be partly due to the low dosages required.
Our philosophy is that no patient should be deprived of this drug because they can’t afford it.
What about the developing world?
We will look at ways of tackling the problem of provision in the developing world. To be honest, we would love to have that problem. Our core philosophy of providing the best drug to as many patients as quickly as possible applies with equal vigor to all patients, regardless of geography.
We are determined to retain our patient focus, despite the competing pressures of Wall Street, the regulatory authorities etc. That is why we have appointed Julie Anne Smith as Senior Director with responsibility for Patient Advocacy.
What is your attitude to the patient groups?
Our philosophy is to be open and honest and to build a partnership. We have already spoken directly to over 100 patients. If there is any change in the timetable we’ve outlined in this interview, you’ll hear it first from us.
Our focus is that it will be great to treat 12-18 kids – but what we need to do is to treat 12-18 hundred kids.
How independent is Novazyme? Is there any chance that you will ‘do a Synpac’?
We will do whatever gets our treatment to as many patients as possible, as fast as possible. At the moment, we’ve considered whether that could best be done as part of a collaboration and have come to the view that, in fact, the best way is to be independent. However, that decision is constantly being re-evaluated against our patient-centered philosophy.
Although 95% of our efforts are currently directed at Pompe’s, we have plans for other products. We are also developing treatments for other LSDsA group of diseases in which substances build up inside lysosomes because the body cannot break them... More – MSP I, Gaucher, and Fabry disease.
Gaucher disease? You’re really planning to compete with Genzyme’s big product?
The decision isn’t driven by a desire to go head to head with Genzyme. We believe that we have a product which will be an improvement on Cerezyme (the Genzyme ERT for Gaucher) and which may help patients with difficulties that product does not help.
What’s your biggest problem at present?
Our biggest challenge is putting all the parallel strands together and holding them together. Four months ago we didn’t have a manufacturing plant. Now we have a state of the art plant, operators, a GMP (good manufacturing practice) team etc.
We believe that we may well have the “Holy Grail” necessary to effectively treat this horrid disease. We believe that we can beat Nature. But now we have to deliver it to patients. We are a 80-person company going at 100 miles per hour, trying to satisfy our Directors, Wall Street, the regulators – while all the time keeping our patient focus.
What effect does John Crowley’s background have on the company?
John Crowley’s background undoubtedly helps in retaining and strengthening focus. We want to help not just Megan and Patrick but the thousands of children like them.
We have a regular ‘Lunch and Learn’ feature where we bring in patients to talk to the staff here about their experience of Pompe’s and that also helps to retain the patient focus.
For the record though, Megan and Patrick Crowley will not necessarily take part in the first clinical trialA research study that tests new treatments or approaches in people. More. John Crowley is standing aside from that process.
That means that we are not letting up from our drive to make the enzymeA protein that helps the body carry out chemical reactions. More as widely available as possible, as quickly as possible. We will be looking to set up an expanded access program [AKA compassionate use – KO’D] as early as possible in the trials. Participants would need to follow the established treatment protocol and their data could therefore contribute to the approval process.
Thank you for the open way you have approached these discussions and for the time you have devoted to them. We look forward to working with you in the future.
And AMDA wants to thank Kevin O’Donnell for giving his time and energy once again to promote the Pompe cause. Thank you Kevin!