Month of CIRM: Making sure stem cell therapies don’t get lost in Translation

All this month we are using our blog and social media to highlight a new chapter in CIRM’s life, thanks to the voters approving Proposition 14. We are looking back at what we have done since we were created in 2004, and also looking forward to the future. Today we feature a blog written by two of our fabulous Discovery and Translation team Science Officers, Dr. Kent Fitzgerald and Dr. Ross Okamura.

Dr. Ross Okamura

If you believe that you can know a person by their deeds, the partnership opportunities offered by CIRM illustrate what we, as an agency, believe is the most effective way to deliver on our mission statement, accelerating regenerative medicine treatments to patients with unmet medical needs.

Dr. Kent Fitzgerald

 In our past, we have offered awards covering basic biology projects which in turn provided the foundation to produce promising therapies  to ease human suffering.  But those are only the first steps in an elaborate process.

In order to bring these potential therapies to the clinic, selected drug candidates must next go through a set of activities designed to prepare them for review by the Food and Drug Administration (FDA). For cell therapies, the first formal review is often the Pre- Investigational New Drug Application Consultation or pre-IND.  This stage of drug development is commonly referred to as Translational, bridging the gap between our Discovery or early stage research and Clinical Trial programs.

One of our goals at CIRM is to prepare Translational projects we fund for that  pre-IND meeting with the FDA, to help them gather data that support the hope this approach will be both safe and effective in patients.  Holding this meeting with the FDA is the first step in the often lengthy process of conducting FDA regulated clinical trials and hopefully bringing an approved therapy to patients.

What type of work is required for a promising candidate to move from the Discovery stage into FDA regulated development?  To address the needs of Translational science, CIRM offers the Translational Research Project funding opportunity.  Activities that CIRM supports at the Translational stage include:

  • Process Development to allow manufacturing of the candidate therapy under Good Manufacturing Practices (GMP). This is to show that they can manufacture  at a large enough scale to treat patients.
  • Assay development and qualification of measurements to determine whether the drug is being manufactured safely while retaining its curative properties.
  • Studies to determine the optimal dose and the best way to deliver that dose.
  • Pilot safety studies looking how the patient might respond after treatment with the drug.
  • The development of a clinical plan indicating under what rules and conditions the drug might be prescribed to a patient. 

These, and other activities supported under our Translational funding program, all help to inform the FDA when they consider what pivotal studies they will require prior to approving an Investigational New Drug (IND) application, the next step in the regulatory approval process.

Since CIRM first offered programs specifically aimed at addressing the Translational stage of therapeutic candidates we have made 41 awards totaling approximately $150 million in funding.  To date, 13 have successfully completed and achieved their program goals, while 19 others are still actively working towards meeting their objective.  Additionally, three (treating Spina Bifida, Osteonecrosis, and Sickle Cell Disease) of the 13 programs have gone on to receive further CIRM support through our Clinical Stage programs.

During our time administering these awards, CIRM has actively partnered with our grantees to navigate what is required to bring a therapy from the bench to the bedside.  CIRM operationalizes this by setting milestones that provide clear definitions of success, specific goals the researchers have to meet to advance the project and also by providing resources for a dedicated project manager to help ensure the project can keep the big picture in mind while executing on their scientific progress. 

Throughout all this we partner with the researchers to support them in every possible way. For example, CIRM provides the project teams with Translational Advisory Panels (TAPs, modeled after the CIRM’s Clinical Advisory Panels) which bring in outside subject matter experts as well as patient advocates to help provide additional scientific, regulatory and clinical expertise to guide the development of the program at no additional cost to the grantees.  One of the enduring benefits that we hope to provide to researchers and organizations is a practical mastery of translational drug development so that they may continue to advance new and exciting therapies to all patients.

Through CIRM’s strong and continued support of this difficult stage of development, CIRM has developed an internal practical expertise in advancing projects through Translation.  We employ our experience to guide our awardees so they can avoid common pitfalls in the development of cell and gene therapies. The end goal is simple, helping to accelerate their path to the clinic and fulfilling the mission of CIRM that has been twice given to us by the voters of California, bringing treatments to patients suffering from unmet medical needs.

CIRM invests in stem cell clinical trial targeting lung cancer and promising research into osteoporosis and incontinence

Lung cancer

Lung cancer: Photo courtesy Verywell

The five-year survival rate for people diagnosed with the most advanced stage of non-small cell lung cancer (NSCLC) is pretty grim, only between one and 10 percent. To address this devastating condition, the Board of the California Institute for Regenerative Medicine (CIRM) today voted to invest almost $12 million in a team from UCLA that is pioneering a combination therapy for NSCLC.

The team is using the patient’s own immune system where their dendritic cells – key cells in our immune system – are genetically modified to boost their ability to stimulate their native T cells – a type of white blood cell – to destroy cancer cells.  The investigators will combine this cell therapy with the FDA-approved therapy pembrolizumab (better known as Keytruda) a therapeutic that renders cancer cells more susceptible to clearance by the immune system.

“Lung cancer is a leading cause of cancer death for men and women, leading to 150,000 deaths each year and there is clearly a need for new and more effective treatments,” says Maria T. Millan, M.D., the President and CEO of CIRM. “We are pleased to support this program that is exploring a combination immunotherapy with gene modified cell and antibody for one of the most extreme forms of lung cancer.”

Translation Awards

The CIRM Board also approved investing $14.15 million in four projects under its Translation Research Program. The goal of these awards is to support promising stem cell research and help it move out of the laboratory and into clinical trials in people.

Researchers at Stanford were awarded almost $6 million to help develop a treatment for urinary incontinence (UI). Despite being one of the most common indications for surgery in women, one third of elderly women continue to suffer from debilitating urinary incontinence because they are not candidates for surgery or because surgery fails to address their condition.

The Stanford team is developing an approach using the patient’s own cells to create smooth muscle cells that can replace those lost in UI. If this approach is successful, it provides a proof of concept for replacement of smooth muscle cells that could potentially address other conditions in the urinary tract and in the digestive tract.

Max BioPharma Inc. was awarded almost $1.7 million to test a therapy that targets stem cells in the skeleton, creating new bone forming cells and blocking the destruction of bone cells caused by osteoporosis.

In its application the company stressed the benefit this could have for California’s diverse population stating: “Our program has the potential to have a significant positive impact on the lives of patients with osteoporosis, especially in California where its unique demographics make it particularly vulnerable. Latinos are 31% more likely to have osteoporosis than Caucasians, and California has the largest Latino population in the US, accounting for 39% of its population.”

Application Title Institution CIRM funding
TRAN1-10958 Autologous iPSC-derived smooth muscle cell therapy for treatment of urinary incontinence

 

 

Stanford University

 

$5,977,155

 

TRAN2-10990 Development of a noninvasive prenatal test for beta-hemoglobinopathies for earlier stem cell therapeutic interventions

 

 

Children’s Hospital Oakland Research Institute

 

$1,721,606

 

TRAN1-10937 Therapeutic development of an oxysterol with bone anabolic and anti-resorptive properties for intervention in osteoporosis  

MAX BioPharma Inc.

 

$1,689,855

 

TRAN1-10995 Morphological and functional integration of stem cell derived retina organoid sheets into degenerating retina models

 

 

UC Irvine

 

$4,769,039