Happy Thanksgiving! And hail to the pharmaceutical and biotech industries – and the scientists!

Thanksgiving this year is going to be radically different for many Americans, including my family.

 

I will celebrate my favorite holiday just with my wife Regina, home in San Diego.

 

As it has for many Americans, the COVID-19 pandemic has prevented us from hosting our usual small group of friends.

 

After eating a healthy brunch, we plan to have a Zoom call with our HD-free “miracle” daughter Bianca, a junior history major at the University of Pennsylvania. We are ever thankful that Bianca did not have to face the devastating possibility of juvenile HD. We will miss her, but are reassured knowing that she will spend the day with her boyfriend and his immediate family in the East.

 

We also hope to Zoom with some of our local friends. 

 

However, despite the terrible pall cast by the pandemic over the 2020 holiday season, I feel extremely optimistic that researchers will find a highly effective vaccine for the coronavirus.

 

The announcements of preliminary data by Moderna and the team of Pfizer and BioNTech revealed that their vaccine candidates reduced COVID-19 infections by 95 percent in clinical trials.

 

Dr. Anthony Fauci, the director of the National Institutes of Allergies and Infectious Diseases (NIAID), described the Moderna data as “stunningly impressive,” noting that he would have settled for 70-75 percent efficacy in a vaccine.

 

“It is really a spectacular result that I don’t think anybody had anticipated would be this good,” Dr. Fauci said. He had similar praise for the Pfizer/BioNTech data.

 

Both of these trials use genetic approaches: they introduce the virus’s own genes into cells to provoke an immune response.

 

According to the New York Times’ Coronavirus Vaccine Tracker, several dozen other companies have embarked on clinical trial programs using some form of approach based on genetics or other cutting-edge strategies. Only ten projects are making vaccines using the traditional approach of injecting weakened or dead coronaviruses.

 

In all, scientists are testing 54 vaccines in clinical trials, and at least 87 more are under investigation in animals.

 

Genetics-based approaches are familiar to the HD community, where researchers have investigated the potential of gene silencing drugs for more than a decade. Researchers in the lead program, Roche’s historic GENERATION HD1 Phase 3 clinical trial, hope to analyze data in 2022. 

 

When I heard of the initial reports of Moderna’s genetics-based approach, I felt deeply confident that humanity would ultimately defeat the coronavirus. 

 

The potentially record speed in getting a vaccine to the world is testimony to the ingenuity, dedication, and focus of the biotech and pharmaceutical industries, which I have observed with deep interest in my nearly quarter century as an HD advocate and student of the science – and as a writer summarizing the science in simple terms.

 

In October, posting on Facebook an article on the bold Triplet Therapeutics clinical trial program – yet another genetics-based effort – I wrote the following: “Hail to the many imaginative and hard-working companies in America’s pharmaceutical industry!”

 

I also salute the scientists involved, and the many pharmaceutical and biotech firms of other nations engaged in the fight against COVID-19 and HD.

 

Also, we must not forget the millions of doctors, nurses, and other healthcare workers and first responders who have heroically attempted to hold the line against COVID-19, thus giving the researchers the time necessary to develop the vaccines.

 

Thanksgiving is our quintessential American holiday. This year, with the pandemic, it takes on a global significance. Across all cultures and nations, the virus has led us to realize once again our common humanity – and the collective efforts needed to safeguard life for all.

 

 

Photo by Bianca Serbin, taken in fall 2009 at the San Diego Botanic Garden (click here to read more).

Overflow audience at 13th annual Huntington's Disease Therapeutics Conference

With more than 350 Huntington’s disease researchers and pharmaceutical executives in attendance, the 13th annual HD Therapeutics Conference got underway last night in anticipation of key presentations on progress towards treatments, including the successful Phase 1/2a Ionis Pharmaceuticals gene-silencing clinical trial completed late last year.

Sponsored by CHDI Foundation, Inc., the nonprofit virtual biotech focused on the search for HD treatments, the conference runs through March 1 at the Parker Palm Springs hotel (which is less than three hours’ drive from my San Diego home). In the last presentation, Ionis clinical trial administrators will present the results of the Phase 1/2a study of the company’s HD, drug IONIS-HTT_Rx.

“The first day we opened up the registration, we were almost full at the Parker immediately,” Robert Pacifici, Ph.D., CHDI’s chief scientific officer, said in his opening remarks in the main conference room, which holds 300 people. “We actually ended up allowing 365 participants to register. Not everybody can fit in this room.” So, for the first time at the Parker, CHDI arranged for an overflow room, with a screen projecting the proceedings.

After cancellations, a total of some 350 are expected to attend, one of the largest audiences in the history of the conference.

Dr. Pacifici also presented a check for $38,000 to Louise Vetter, the CEO of the Huntington’s Disease Society of America (HDSA).

As a research organization, CHDI provides no family services such as support groups and care centers. Demonstrating their commitment to HDSA’s mission in these areas – essential for developing treatments – Dr. Pacifici and five other riders (mainly from CHDI) raised the funds in a recent 100-mile biking competition in the Southern California desert.

You can watch Dr. Pacifici’s introduction in the video below.

CHDI Conference Opens with Overflow Crowd from Gene Veritas on Vimeo.

‘Huntingtin lowering’ and other main themes

Scientists and patient advocates eagerly await the March 1 presentation of the Ionis Phase 1/2a clinical trial, in which IONIS-HTT_Rx successfully lowered the amount of the mutant huntingtin protein in participants’ cerebrospinal fluid.

The trial aimed not to study efficacy but safety and tolerability. The next phases of the trial remain a major hurdle: to test whether the drug can actually alleviate or reverse symptoms.

The Ionis contingent at the conference includes Frank Bennett, Ph.D., Ionis senior vice president of research and the franchise leader for the company’s neurology programs, and Anne Smith, Ph.D., the Ionis director of clinical development and the individual responsible for the day-to-day management of the trial.

Dr. Smith will present the Ionis results along with Sarah Tabrizi, FRCP, Ph.D., of University College of London, the lead clinical trial site.

In addition to so-called “huntingtin lowering” strategies such as the Ionis drug, the main conference themes include potential therapies for fixing brain circuitry; the use of stem cells to better understand HD and develop treatments; the interplay of the huntingtin gene and DNA dynamics; and huntingtin protein structure and function.

The opening day also featured a resource fair, with research tools and databases available for HD research and developed by CHDI, partner organizations, and contract research organizations.

(Disclosure: I hold a symbolic amount of Ionis shares.)

Jen Ware, Ph.D., CHDI's director for experimental design (right), explains a new CHDI research resource, the Independent Statistical Standing Committee, intended to provide independent, unbiased evaluation and expert advice regarding experimental design and statistics (photo by Gene Veritas).

Can we afford the costs of orphan disease treatments?

Millions of people in America suffer from rare, or “orphan,” diseases, conditions defined by the government as affecting fewer than 200,000 people. With an estimated 30,000 affected individuals, Huntington’s disease is one of the more common of these disorders.

The pharmaceutical industry has largely ignored these diseases, which number several thousand, because each disease promises too few customers/patients to enable companies to recoup investments in drug research and development and therefore generate a profit. The market usually doesn’t work for people with these diseases.

News about a lawsuit by Arkansas cystic fibrosis (CF) patients against the state’s Medicaid program for its refusal to pay for a highly effective but extremely expensive drug – Vertex Pharmaceutical’s Kalydeco – shined light on this predicament.

In an article titled “The $300,000 Drug,” New York Times columnist Joe Nocera recognized Kalydeco as a “wonder drug” but questioned whether the country can afford the personalized medicine approach that enables scientists to design specialized treatments for very small and specific groups of patients.

With an annual wholesale cost of $311,000, Kalydeco was developed for a subgroup of about 1,100 CF patients with specific genetic mutations. The subgroup numbers about 2,150 patients worldwide in an overall CF population of 70,000 individuals.

“Because patients will likely be taking the drug for the rest of their lives, it could cost millions of dollars to keep just one patient on Kalydeco,” Nocera speculated. “That raises another important question about the coming of personalized medicine. How are we, as a society, going to pay for it?”

Same question for the HD community

The HD community could face this very same question. Because the U.S. has only 30,000 HD patients and 150,000 to 250,000 people at risk of carrying the gene, a potential treatment could cost a lot.

Boston-headquartered Vertex has sought to develop HD treatments since mid-2008. Though the company has made a substantial effort, it doesn’t yet have plans for a clinical trial. (Click here to read more.) Isis Pharmaceuticals, Inc., of Carlsbad, CA, has also worked about as long and is planning to launch a clinical trial in the next year or two.

It’s still too early to project the costs of treatments that have yet to be tested or even fully designed. Other potential remedies are in trials but at best likely remain years from reaching the market.

Furthermore, an HD treatment regimen will likely involve a cocktail of remedies, meaning that patients – via their insurers – will probably have to pay for more than one drug.

Vertex vice president of research Paul Negulescu (left), Gene Veritas (aka Kenneth P. Serbin), and Vertex vice president of biology Beth Hoffman at the company's San Diego facility, September 2010 (photo by Heather Farr, Vertex)

Patient assistance programs

The HD community must remain vigilant regarding the cost of potential treatments. However, failing to consider a number of factors, the coverage of the Kalydeco costs was perhaps too pessimistic about the future.

First, as I commented regarding the impatience with California’s stem cell institute after ten years of operation without a drug, biomedical research is slow by nature. And it’s expensive, with the average cost of developing a new drug in the U.S. at $1.2 billion. Only one in ten clinical trials results in a marketable drug, although the research from the unsuccessful projects provides highly valuable information on what does not work.

In the case of CF, Vertex is at work on another treatment that would reach thousands more patients with different kinds of mutations.

As Nocera himself noted, Vertex provides Kalydeco for free to patients without insurance.

Lundbeck, the pharmaceutical firm that markets Xenazine, which diminishes some of the involuntary movements caused by HD (chorea), provides financial assistance to patients who qualify. Depending on the dosage, the annual wholesale cost of this treatment can reach $50,000 or more, but, according to the Lundbeck website, “85 percent of U.S. patients taking Xenazine have a monthly co-pay of $50 or less before requesting co-pay assistance.”

It’s highly conceivable that the developers of future HD treatments will provide similar kinds of assistance – especially because these firms will have relied on the good will and extensive cooperation of HD families who participate in research studies and clinical trials. However, it’s not clear what the drug companies will charge insurers.

CHDI and pharma giants

After the founding in 2003 of the CHDI Foundation, Inc., a non-profit virtual biotech firm backed by wealthy donors who wish to remain anonymous, pharmaceutical firms small and large started to gain interest in developing Huntington’s treatments.

As a result, the network of firms working on HD now includes pharmaceutical giants such as Pfizer, Roche, and Medtronic.

As a non-profit with the sole purpose of finding HD treatments, CHDI promotes research on Huntington’s and the diffusion of scientific knowledge about the disease. With more researchers and firms involved, the chances for treatments have grown. Having more options could very well mean that treatments would cost less.

By pouring hundreds of millions of dollars into HD drug research, CHDI has created an incentive to produce cheaper drugs.

As it states on its website, CHDI seeks to connect academic research, drug discovery, and clinical development in order to avoid “costly delays to therapeutic development” and make potential treatments a “good investment” that will result in “full clinical development, including licensure and marketing to get drugs to HD patients.”

Similarly, the Hereditary Disease Foundation and the Huntington’s Disease Society of America (HDSA) have supported research that could yield yet additional drugs.

Patient-driven medicine

Thanks to this level of support for HD research, the HD community stands in perhaps a better position than those facing even more rare diseases.

Nevertheless, orphan disease communities in general have reason to feel optimistic about both the development of treatments and their cost, if the vision of one key medical leader becomes reality.

Lee Hood, M.D., Ph.D., one of the scientific giants behind the Genome Project and the recipient in 1987 of the Lasker Basic Medical Research Award (the American equivalent of the Nobel Prize), has developed a plan for more effective and affordable medicine. In 2000, Dr. Hood founded the Institute for Systems Biology (ISB). Located in Seattle, the non-profit ISB teams scientists and technologists from many disciplines to pioneer the future of research in biology, biotechnology, medicine, environmental science, and science education.

In a 2012 speech at the Seventh Annual HD Therapeutics Conference, sponsored by CHDI, Dr. Hood outlined the importance of systems biology – what I think of as the “big picture” of disease – for HD research. Dr. Hood also advocated for the adoption of P4 medicine: predictive, preventive, personalized, and participatory. (Click here to read more.)

“Patients and consumers will be a major driver in the realization of P4 medicine through their participation in medically oriented social networks directed at improving their own healthcare,” Dr. Hood and Mauricio Flores, J.D., wrote in the March 2012 issue of the journal New Biotechnology.

ISB and several collaborating organizations have run some pilot programs in P4. If it is implemented on a wide scale, Dr. Hood predicts that it will revolutionize our healthcare system. Everybody will carry a health-monitoring device, and diseases will be predicted and prevented long before onset as the result of tiny blood samples taken from a pin prick, the article states.

Predicting falling medical costs

Significantly, costs could plummet.

“P4 medicine will require that all healthcare companies rewrite their business plans in the next 10 years or so,” Dr. Hood and Flores wrote. “Many will not be able to do so and will become ‘industrial dinosaurs.’ There will be enormous economic opportunities for the emergence of new companies tailored to the needs and opportunities of P4 medicine.”

The authors projected that savings will result from a series of factors, including earlier and more effective diagnosis of disease; better matching of drugs with diseases and their subtypes; better identification of genetically based adverse reactions to drugs; the ability to “re-engineer” disease-affected biological networks within people in order to reduce the cost of drug development; an increasing ability to deal effectively with cancer; the use of stem cells for replacement therapy and diagnostics; the routine extension of effective mental and physical health into people’s 80s and 90s; an improved understanding of microbes in the body; a deeper understanding of neurodegeneration (the cause of HD, Alzheimer’s, Parkinson’s, and other disorders); and the digitalization of medical and genetic information.

“On another tact, our prediction is that there will be a ‘wellness industry’ that will emerge over the next 10-15 years that will in time far exceed the size of the healthcare industry,” Dr. Hood and Flores affirmed. “P4 medicine is an area replete with economic opportunities.”

Dr. Hood and Flores believe that P4 medicine will “democratize” healthcare.

“The patient (consumer), through social networks, will drive the emergence of P4 medicine,” they wrote. “Because of intrinsic conservatism and sclerotic bureaucratic systems, physicians, healthcare specialists and the healthcare industry will take a back seat to the power of patient-driven social networks in bringing change to the healthcare system. Indeed, patients may be the only driving force capable of truly changing our contemporary healthcare system to the proactive P4 mode.”

This scenario serves as a serious alternative to the dim view that orphan disease communities will remain relegated to high-cost solutions.

Guaranteeing proper care standards

Indeed, a “revolution” has occurred over the past two decades in how patients have related to their doctors and the pharmaceutical industry (click here to read more).

Nowadays, people enter the healthcare system as both patients and advocates for their well-being.

This outlook led the Arkansas patients to sue for the right to have their Kalydeco costs covered.

Their lawsuit offers a striking similarity with the HD community’s pressure on the Social Security Administration and Congress to update the decades-old, inaccurate government criteria for determining disability benefits for Huntington’s patients (click here to read more). The Arkansas plaintiffs in effect have demanded that the state recognize Kalydeco as the standard treatment for their type of CF.

Negotiating the price

The competition of the marketplace, greater efficiency in drug development, and the revolution in medicine outlined by Dr. Hood should put downward pressure on the cost of drugs.

Patient advocates must play a crucial role in this process.

As the late San Diego biotech leader Duane Roth had told me during a dinner with California stem cell leaders in 2008, patient advocates must find ways to appeal to pharmaceutical companies’ primary interest in profits. Advocates need to lobby and court these business leaders.

At the same time, disease organizations such as HDSA and its network of advocates can pressure pharmaceutical companies and government agencies to assure new drugs’ accessibility and affordability.

In some circumstances, government can join in the process of persuasion and even play hardball, as the Brazilian Ministry of Health did in the 1990s in order to convince multinational pharmaceutical firms to dramatically reduce the price of HIV/AIDS medications. The Brazilian government provides HIV/AIDS drugs for free.

“Local production of generics, the possibility of breaking patents, and the offer of technology transfer became instruments for price negotiations with other countries and the pharmaceutical industry, leading to a real reduction in prices on the Brazilian and international markets,” wrote the coordinator of the country’s National STD/AIDS Program.

The marketplace exists, but it is susceptible to politics.

The rhetoric about the $300,000 drug can scare a lot of people. But in the long run, such a cost is not a foregone conclusion.