Newest member of CIRM Board is a fan of horses, Star Trek and Harry Potter – oh, and she just happens to be a brilliant cancer researcher too.

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An addition to the family is always a cause for celebration, whether it be a new baby, a puppy, or, in our case, a new Board member. That’s why we are delighted to welcome City of Hope’s Linda Malkas, Ph.D., as the newest member of the CIRM Board.

Dr. Malkas has a number of titles including Professor of Molecular and Cellular Biology at Beckman Research Institute; Deputy Director of Basic Research, Comprehensive Cancer Center, City of Hope; and joint head of the Molecular Oncology Program at the Cancer Center.

Her research focus is cancer and she has a pretty impressive track record in the areas of human cell DNA replication/repair, cancer cell biomarker and therapeutic target discovery. As evidence of that, she discovered a molecule that can inhibit certain activities in cancerous cells and hopes to move that into clinical trials in the near future.

California Treasure John Chiang made the appointment saying Dr. Malkas is “extraordinarily well qualified” for the role. It’s hard to disagree. She has a pretty impressive resume:

  • She served for five years on a National Cancer Institute (NCI) subcommittee reviewing cancer center designations.
  • She has served as chair on several NCI study panels and recently took on an advisory role on drug approval policy with the Food and Drug Administration.
  • She has published more than 75 peer-reviewed articles
  • She sits on the editorial boards of several high profile medical journals.

In a news release Dr. Malkas says she’s honored to be chosen to be on the Board:

“The research and technologies developed through this agency has benefited the health of not only Californians but the nation and world itself. I am excited to see what the future holds for the work of this agency.”

With all this in her work life it’s hard to imagine she has time for a life outside of the lab, and yet she does. She has four horses that she loves to ride – not all at the same time we hope – a family, friends, dogs and cats she likes spending time with. And as if that wasn’t enough to make you want to get to know her, she’s a huge fan of Star Trek, vintage sci-fi movies and Harry Potter.

Now that’s what I call a well-rounded individual. We are delighted to have her join the CIRM Team and look forward to getting her views on who are the greater villains, Klingons or Death Eaters.

 

Don’t Be Afraid: High school stem cell researcher on inspiring girls to pursue STEM careers

As part of our CIRM scholar blog series, we’re featuring the research and career accomplishments of CIRM funded students.

Shannon Larsuel

Shannon Larsuel is a high school senior at Mayfield Senior School in Pasadena California. Last summer, she participated in Stanford’s CIRM SPARK high school internship program and did stem cell research in a lab that studies leukemia, a type of blood cancer. Shannon is passionate about helping people through research and medicine and wants to become a pediatric oncologist. She is also dedicated to inspiring young girls to pursue STEM (Science, Technology, Engineering, and Mathematics) careers through a group called the Stem Sisterhood.

I spoke with Shannon to learn more about her involvement in the Stem Sisterhood and her experience in the CIRM SPARK program. Her interview is below.


Q: What is the Stem Sisterhood and how did you get involved?

SL: The Stem Sisterhood is a blog. But for me, it’s more than a blog. It’s a collective of women and scientists that are working to inspire other young scientists who are girls to get involved in the STEM field. I think it’s a wonderful idea because girls are underrepresented in STEM fields, and I think that this needs to change.

I got involved in the Stem Sisterhood because my friend Bridget Garrity is the founder. This past summer when I was at Stanford, I saw that she was doing research at Caltech. I reconnected with her and we started talking about our summer experiences working in labs. Then she asked me if I wanted to be involved in the Stem Sisterhood and be one of the faces on her website. She took an archival photo of Albert Einstein with a group of other scientists that’s on display at Caltech and recreated it with a bunch of young women who were involved in the STEM field. So I said yes to being in the photo, and I’m also in the midst of writing a blog post about my experience at Stanford in the SPARK program.

Members of The Stem Sisterhood

Q: What does the Stem Sisterhood do?

SL: Members of the team go to elementary schools and girl scout troop events and speak about science and STEM to the young girls. The goal is to inspire them to become interested in science and to teach them about different aspects of science that maybe are not that well known.

The Stem Sisterhood is based in Los Angeles. The founder Bridget wants to expand the group, but so far, she has only done local events because she is a senior in high school. The Stem Sisterhood has an Instagram account in addition to their blog. The blog is really interesting and features interviews with women who are in science and STEM careers.

Q: How has the Stem Sisterhood impacted your life?

SL: It has inspired me to reach out to younger girls more about science. It’s something that I am passionate about, and I’d like to pursue a career in the medical field. This group has given me an outlet to share that passion with others and to hopefully change the face of the STEM world.

Q: How did you find out about the CIRM SPARK program?

SL: I knew I wanted to do a science program over the summer, but I wasn’t sure what type. I didn’t know if I wanted to do research or be in a hospital. I googled science programs for high school seniors, and I saw the one at Stanford University. It looked interesting and Stanford is obviously a great institution. Coming from LA, I was nervous that I wouldn’t be able to get in because the program had said it was mostly directed towards students living in the Bay Area. But I got in and I was thrilled. So that’s basically how I heard about it, because I googled and found it.

Q: What was your SPARK experience like?

SL: My program was incredible. I was a little bit nervous and scared going into it because I was the only high school student in my lab. As a high school junior going into senior year, I was worried about being the youngest, and I knew the least about the material that everyone in the lab was researching. But my fears were quickly put aside when I got to the lab. Everyone was kind and helpful, and they were always willing to answer my questions. Overall it was really amazing to have my first lab experience be at Stanford doing research that’s going to potentially change the world.

Shannon working in the lab at Stanford.

I was in a lab that was using stem cells to characterize a type of leukemia. The lab is hoping to study leukemia in vitro and in vivo and potentially create different treatments and cures from this research. It was so cool knowing that I was doing research that was potentially helping to save lives. I also learned how to work with stem cells which was really exciting. Stem cells are a new advancement in the science world, so being able to work with them was incredible to me. So many students will never have that opportunity, and being only 17 at the time, it was amazing that I was working with actual stem cells.

I also liked that the Stanford SPARK program allowed me to see other aspects of the medical world. We did outreach programs in the Stanford community and helped out at the blood drive where we recruited people for the bone marrow registry. I never really knew anything about the registry, but after learning about it, it really interested me. I actually signed up for it when I turned 18. We also met with patients and their families and heard their stories about how stem cell transplants changed their lives. That was so inspiring to me.

Going into the program, I was pretty sure I wanted to be a pediatric oncologist, but after the program, I knew for sure that’s what I wanted to do. I never thought about the research side of pediatric oncology, I only thought about the treatment of patients. So the SPARK program showed me what laboratory research is like, and now that’s something I want to incorporate into my career as a pediatric oncologist.

I learned so much in such a short time period. Through SPARK, I was also able to connect with so many incredible, inspired young people. The students in my program and I still have a group chat, and we text each other about college and what’s new with our lives. It’s nice knowing that there are so many great people out there who share my interests and who are going to change the world.

Stanford SPARK students.

Q: What was your favorite part of the SPARK program?

SL: Being in the lab every day was really incredible to me. It was my first research experience and I was in charge of a semi-independent project where I would do bacterial transformations on my own and run the gels. It was cool that I could do these experiments on my own. I also really loved the end of the summer poster session where all the students from the different SPARK programs came together to present their research. Being in the Stanford program, I only knew the Stanford students, but there were so many other awesome projects that the other SPARK students were doing. I really enjoyed being able to connect with those students as well and learn about their projects.

Q: Why do you want to pursue pediatric oncology?

SL: I’ve always been interested in the medical field but I’ve had a couple of experiences that really inspired me to become a doctor. My friend has a charity that raises money for Children’s Hospital Los Angeles. Every year, we deliver toys to the hospital. The first year I participated, we went to the hospital’s oncology unit and something about it stuck with me. There was one little boy who was getting his chemotherapy treatment. He was probably two years old and he really inspired to create more effective treatments for him and other children.

I also participated in the STEAM Inquiry program at my high school, where I spent two years reading tons of peer reviewed research on immunotherapy for pediatric cancer. Immunotherapy is something that really interests me. It makes sense that since cancer is usually caused by your body’s own mutations, we should be able to use the body’s immune system that normally regulates this to try and cure cancer. This program really inspired me to go into this field to learn more about how we can really tailor the immune system to fight cancer.

Q: What advice do you have for young girls interested in STEM.

SL: My advice is don’t be afraid. I think that sometimes girls are expected to be interested in less intellectual careers. This perception can strike fear into girls and make them think “I won’t be good enough. I’m not smart enough for this.” This kind of thinking is not good at all. So I would say don’t be afraid and be willing to put yourself out there. I know for me, sometimes it’s scary to try something and know you could fail. But that’s the best way to learn. Girls need to know that they are capable of doing anything and if they just try, they will be surprised with what they can do.

Rare diseases are not so rare

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Brenden Whittaker – cured in a CIRM-funded clinical trial focusing on his rare disease

It seems like a contradiction in terms to say that there are nearly 7,000 diseases, affecting 30 million people, that are considered rare in the US. But the definition of a rare disease is one that affects fewer than 200,000 people and the National Institutes of Health’s (NIH) Genetic and Rare Diseases Information Center (GARD) has a database that lists every one of them.

Those range from relatively well known conditions such as sickle cell disease and cerebral palsy, to lesser known ones such as attenuated familial adenomatous polyposis (AFAP) – an inherited condition that increases your risk of colon cancer.

Because disease like these are so rare, in the past many individuals with them felt isolated and alone. Thanks to the internet, people are now able to find online support groups where they can get advice on coping strategies, ideas on potential therapies and, just as important, can create a sense of community.

One of the biggest problems facing the rare disease community is a lack of funding for research to develop treatments or cures. Because these diseases affect fewer than 200,000 people most pharmaceutical companies don’t invest large sums of money developing treatments; they simply wouldn’t be able to get a big enough return on their investment. This is not a value judgement. It’s just a business reality.

And that’s where CIRM comes in. We were created, in part, to help those who can’t get help from other sources. This week alone, for example, our governing Board is meeting to vote on funding clinical trials for two rare and deadly diseases – ALS or Lou Gehrig’s disease, and Severe Combined Immunodeficiency or SCID. This kind of funding can mean the difference between life and death.

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For proof, you need look no further than Evie Vaccaro, the young girl we feature on the front of our 2016 Annual Report. Evie was born with SCID and faced a bleak future. But UCLA researcher Don Kohn, with some help from CIRM, developed a therapy that cured Evie. This latest clinical trial could help make a similar therapy available to other children with SCID.

But with almost 7,000 rare diseases it’s clear we can’t help everyone. In fact, there are only around 450 FDA-approved therapies for all these conditions. That’s why the National Organization for Rare Disorders (NORD) and groups like them are organizing events around the US on February 28th, which has been designated as Rare Disease Day. The goal is to raise awareness about rare diseases, and to advocate for action to help this community. Here’s a link to Advocacy Events in different states around the US.

Alone, each of these groups is small and easily overlooked. Combined they have a powerful voice, 30 million strong, that demands to be heard.

 

 

Life after SPARK: CIRM high school intern gets prestigious scholarship to Stanford

As part of our CIRM scholar blog series, we’re featuring the research and career accomplishments of CIRM funded students.

Ranya Odeh

Ranya Odeh

Meet Ranya Odeh. She is a senior at Sheldon high school in Elk Grove, California, and a 2016 CIRM SPARK intern. The SPARK program provides stem cell research internships to underprivileged high school students at leading research institutes in California.

This past summer, Ranya worked in Dr. Jan Nolta’s lab at UC Davis improving methods that turn mesenchymal stem cells into bone and fat cells. During her internship, Ranya did an excellent job of documenting her journey in the lab on Instagram and received a social media prize for her efforts.

Ranya is now a senior in high school and was recently accepted into Stanford University through the prestigious QuestBridge scholarship program. She credits the CIRM SPARK internship as one of the main reasons why she was awarded this scholarship, which will pay for all four years of her college.

I reached out to Ranya after I heard about her exciting news and asked her to share her story so that other high school students could learn from her experience and be inspired by her efforts.


How did you learn about the CIRM SPARK program?

At my high school, one of our assignments is to build a website for the Teen Biotech Challenge (TBC) program at UC Davis. I was a sophomore my first year in the program, and I didn’t feel passionate about my project and website. The year after, I saw that some of my friends had done the CIRM SPARK internship after they participated in the TBC program. They posted pictures about their internship on Instagram, and it looked like a really fun and interesting thing to do. So I decided to build another website (one that I was more excited about) in my junior year on synthetic biology. Then I entered my website in the TBC and got first prize in the Nanobiotechnology field. Because I was one of the winners, I got the SPARK internship.

What did you enjoy most about your SPARK experience?

For me, it was seeing that researchers aren’t just scientists in white lab coats. The Nolta lab (where I did my SPARK internship) had a lot of personality that I wasn’t really expecting. Working with stem cells was so cool but it was also nice to see at the same time that people in the lab would joke around and pull pranks on each other. It made me feel that if I wanted to have a future in research, which I do, it wouldn’t be doing all work all the time.

What was it like to do research for the first time?

Ranya taking care of her stem cells!

Ranya taking care of her stem cells!

The SPARK internship was my first introduction to research. During my first experiment, I remember I was changing media and I thought that I was throwing my cells away by mistake. So I freaked out, but then my mentor told me that I hadn’t and everything was ok. That was still a big deal and I learned a lesson to ask more questions and pay more attention to what I was doing.

Did the SPARK program help you when you applied to college?

Yes, I definitely feel like it did. I came into the internship wanting to be a pharmacist. But my research experience working with stem cells made me want to change my career path. Now I’m looking into a bioengineering degree, which has a research aspect to it and I’m excited for that. Having the SPARK internship on my college application definitely helped me out. I also got to have a letter of recommendation from Dr. Nolta, which I think played a big part as well.

Tell us about the scholarship you received!

I got the QuestBridge scholarship, which is a college match scholarship for low income, high achieving students. I found out about this program because my career counselor gave me a brochure. It’s actually a two-part scholarship. The first part was during my junior year of high school and that one didn’t involve a college acceptance. It was an award that included essay coaching and a conference that told you about the next step of the scholarship.

The second part during my senior year was called the national college match scholarship. It’s an application on its own that is basically like a college application. I submitted it and got selected as a finalist. After I was selected, they have partner colleges that offer full scholarships. You rank your choice of colleges and apply to them separately with a common application. If any of those colleges want to match you and agree to pay for all four years of your college, then you will get matched to your top choice. There’s a possibility that more than one college would want to match you, but you will only get matched with the one that you rank the highest. That was Stanford for me, and I am very happy about that.

Why did you pick Stanford as your top choice?

It’s the closest university to where I grew up that is very prestigious. It was also one of the only colleges I’ve visited. When I was walking around on campus, I felt I could see myself there as a student and with the Stanford community. Also, it will be really nice to be close to my family.

What do you do in your free time?

I don’t have a lot of free time because I’m in Academic Decathalon and I spend most of my time doing that. When I do have free time, I like to watch Netflix, blogs on YouTube, and I try to go to the gym [laughs].

Did you enjoy posting about your SPARK internship on Instagram?

I had a lot of fun posting pictures of me in the lab on Instagram. It was also nice during the summer to see other SPARK students in different programs talk about the same things. We shared jokes about micropipettes and culturing stem cells. It was really cool to see that you’re not the only one posting nerdy science pictures. I also felt a part of a larger community outside of the SPARK program. Even people at my school were seeing and commenting on what I was doing.

UC Davis CIRM SPARK program 2016

UC Davis CIRM SPARK program 2016

I also liked that I got feedback about what I was doing in the lab from other SPARK students. When I posted pictures during my internship, I talked about working with mesenchymal stem cells. Because we all post to the same #CIRMSPARKlab hashtag, I saw students from CalTech commenting that they worked with those stem cells too. That motivated me to work harder and accomplish more in my project. Instagram also helped me with my college application process. I saw that there were other students in the same position as me that were feeling stressed out. We also gave each other feedback on college essays and having advice about what I was doing really helped me out.

Do you think it’s important for students to be on social media?

Yes, I think it’s important with boundaries of course. There are probably some people who are on social media too often, and you should have a balance. But it’s nice to see what other students are doing to prepare for college and to let loose and catch up with your friends.

What advice would you give to younger high school students about pursuing science?

I feel like students can’t expect things to be brought to them. If they are interested in science, they need to take the initiative to find something that they are going to want to do. The CIRM internship was brought to my attention. But I have friends that were interested in medicine and they found their own internships and ways to learn more about what they wanted to do. So my advice is to take initiative and not be scared of rejection, because if you’re scared of rejection you’re not going to do anything.

To hear more about Ranya’s SPARK internship experience, read her blog “Here’s what you missed this summer on the show coats.” You can also follow her on Instagram and Twitter. For more information about the CIRM SPARK internship program, please visit the CIRM website.


Related Links:

Stories that caught our eye: $20.5 million in new CIRM discovery awards, sickle cell disease cell bank, iPSC insights

CIRM Board launches a new voyage of Discovery (Kevin McCormack).
Basic or early stage research is the Rodney Dangerfield of science; it rarely gets the respect it deserves. Yesterday, the CIRM governing Board showed that it not only respects this research, but also values its role in laying the foundation for everything that follows.

The CIRM Board approved 11 projects, investing more than $20.5 million in our Discovery Quest, early stage research program. Those include programs using gene editing techniques to develop a cure for a rare but fatal childhood disease, finding a new approach to slowing down the progress of Parkinson’s disease, and developing a treatment for the Zika virus.

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Electron micrograph of Zika virus (red circles). Image: CDC/Cynthia Goldsmith

The goal of the Discovery Quest program is to identify and explore promising new stem cell therapies or technologies to improve patient care.

In a news release Randy Mills, CIRM’s President & CEO, said we hope this program will create a pipeline of projects that will ultimately lead to clinical trials:

“At CIRM we never underestimate the importance of early stage scientific research; it is the birth place of groundbreaking discoveries. We hope these Quest awards will not only help these incredibly creative researchers deepen our understanding of several different diseases, but also lead to new approaches on how best to use stem cells to develop treatments.”

Creating the world’s largest stem cell bank for sickle cell disease (Karen Ring).
People typically visit the bank to deposit or take out cash, but with advancements in scientific research, people could soon be visiting banks to receive life-saving stem cell treatments. One of these banks is already in the works. Scientists at the Center for Regenerative Medicine (CReM) at Boston Medical Center are attempting to generate the world’s largest stem cell bank focused specifically on sickle cell disease (SCD), a rare genetic blood disorder that causes red blood cells to take on an abnormal shape and can cause intense pain and severe organ damage in patients.

To set up their bank, the team is collecting blood samples from SCD patients with diverse ethnic backgrounds and making induced pluripotent stem cells (iPSCs) from these samples. These patient stem cell lines will be used to unravel new clues into why this disease occurs and to develop new potential treatments for SCD. More details about this new SCD iPSC bank can be found in the latest edition of the journal Stem Cell Reports.

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Gustavo Mostoslavsky, M.D., PH.D., Martin Steinberg, M.D., George Murphy PH.D.
Photo: Boston Medical Center

In a news release, CReM co-founder and Professor, Gustavo Mostoslavsky, touched on the future importance of their new stem cell bank:

“In addition to the library, we’ve designed and are using gene editing tools to correct the sickle hemoglobin mutation using the stem cell lines. When coupled with corrected sickle cell disease specific iPSCs, these tools could one day provide a functional cure for the disorder.”

For researchers interested in using these new stem cell lines, CReM is making them available to researchers around the world as part of the NIH’s NextGen Consortium study.

DNA deep dive reveals ways to increase iPSC efficiency (Todd Dubnicoff)
Though the induced pluripotent stem (iPS) cell technique was first described ten years ago, many researchers continue to poke, prod and tinker with the method which reprograms an adult cell, often from skin, into an embryonic stem cell-like state which can specialize into any cell type in the body. Though this breakthrough in stem cell research is helping scientists better understand human disease and develop patient-specific therapies, the technique is hampered by its low efficiency and consistency.

This week, a CIRM-funded study from UCLA reports new insights into the molecular changes that occur during reprogramming that may help pave the way toward better iPS cell methods. The study, published in Cell, examined the changes in DNA during the reprogramming process.

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Senior authors Kathrin Plath and Jason Ernst and first authors Petko Fiziev and Constantinos Chronis.
Photo: UCLA

In a skin cell, the genes necessary for embryonic stem cell-like, or pluripotent, characteristics are all turned off. One way this shut down in gene activity occurs is through tight coiling of the DNA where the pluripotent genes are located. This physically blocks proteins called transcriptions factors from binding the DNA and activating those pluripotent genes within skin cells. On the other hand, regions of DNA carrying skin-related genes are loosely coiled, so that transcription factors can access the DNA and turn on those genes.

The iPS cell technique works by artificially adding four pluripotent transcriptions factors into skin cells which leads to changes in DNA coiling such that skin-specific genes are turned off and pluripotent genes are turned on. The UCLA team carefully mapped the areas where the transcription factors are binding to DNA during the reprogramming process. They found that the shut down of the skin genes and activation of the pluripotent genes occurs at the same time. The team also found that three of the four iPS cell factors must physically interact with each other to locate and activate the areas of DNA that are responsible for reprogramming.

Using the findings from those experiments, the team was able to identify a fifth transcription factor that helps shut down the skin-specific gene more effectively and, in turn, saw a hundred-fold increase in reprogramming efficiency. These results promise to help the researchers fine-tune the iPS cell technique and make its clinical use more practical.

Your Guide to Awesome Stem Cell Conferences in 2017

Welcome to 2017, a year that will likely be full of change and new surprises. I’m hoping that some of these surprises will be in regenerative medicine with new stem cell therapies showing promise or effectiveness in clinical trials.

A great way to stay on top of new advances in stem cell research is to attend scientific conferences and meetings. Some of them are well known and highly attended like the International Society for Stem Cell Research (ISSCR) conference, which this year will be in Boston in June. There are also a few smaller, more intimate conferences focusing on specific topics from discovery research to clinical therapies.

There are loads of stem cell meetings this year, but a few that I would like to highlight. Here’s my abbreviated stem cell research conference and meeting guide for 2017. Some are heavy duty research-focused events and probably not suitable for someone without a science background; they’re also expensive to sign up for. I’ve marked those with an * asterix.


January 8-12th, Keystone Symposium (Fee to register)*

Keystone will be hosting two concurrent stem cell meetings in Tahoe next week, which are geared for researchers in the field. One will be on neurogenesis during development and in the adult brain and the other will be on transcriptional and epigenetic control in stem cells. CIRM is one of the co-funders of this meeting and will be hosting a panel focused on translating basic research into clinical trials. Keystone symposiums are small, intimate meetings rich with scientific content and great for networking. Be on the look out for blog coverage about this meeting in the coming weeks.


February 3rd, Stanford Center for Definitive and Curative Medicine Symposium (Free to the public)

This free symposium at Stanford University in Palo Alto, CA will present first-in-human cell and gene therapies for a number of disorders including bone marrow, skin, cardiac, neural, uterine, pancreatic and neoplastic disorders. Speakers include scientists, translational biologists and clinicians. Irv Weissman, a Stanford professor and CIRM grantee focused on translational cancer research, will be the keynote speaker. Space is limited so sign up ASAP!


March 23rd, CIRM Alpha Stem Cell Clinics Symposium (Free to the public)

This free one-day meeting will bring together scientists, clinicians, patient advocates, and other partners to describe how the CIRM Alpha Stem Cell Clinics Network is making stem cell therapies a reality for patients. The City of Hope Alpha Clinic is part of a statewide effort funded by CIRM to develop a network of “Alpha Clinics” that has one unifying goal: to accelerate the development and delivery of stem cell treatments to patients.

City of Hope Medical Center and Alpha Stem Cell Clinic

City of Hope Medical Center and Alpha Stem Cell Clinic


June 14-17th, International Society for Stem Cell Research (Fee to register)*

The Annual ISSCR stem cell research conference will be hosted in Boston this year. This is an international conference focusing on new developments in stem cell science and technology. CIRM was one of the funders of the conference last year when ISSCR was in San Francisco. It’s one of my favorite research events to attend full of interesting scientific presentations and great for meeting future collaborators.


For a more comprehensive 2017 stem cell conference and meeting guide, check out Paul Knoepfler’s Niche blog.

Stem cell heroes: patients who had life-saving, life-changing treatments inspire CIRM Board

 

It’s not an easy thing to bring an entire Board of Directors to tears, but four extraordinary people and their families managed to do just that at the last CIRM Board meeting of 2016.

The four are patients who have undergone life-saving or life-changing stem cell therapies that were funded by our agency. The patients and their families shared their stories with the Board as part of CIRM President & CEO Randy Mill’s preview of our Annual Report, a look back at our achievements over the last year.

The four included:

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Jake Javier, whose life changed in a heartbeat the day before he graduated high school, when he dove into a swimming pool and suffered a spinal cord injury that left him paralyzed from the chest down. A stem cell transplant is giving him hope he may regain the use of his arms and hands.

 

 

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Karl Trede who had just recovered from one life-threatening disease when he was diagnosed with lung cancer, and became the first person ever treated with a new anti-tumor therapy that helped hold the disease at bay.

 

brenden_stories_of_hopeBrenden Whittaker, born with a rare immune disorder that left his body unable to fight off bacterial or fungal infections. Repeated infections cost Brenden part of his lung and liver and almost killed him. A stem cell treatment that gave him a healthy immune system cured him.

 

 

evangelinaEvangelina Padilla Vaccaro was born with severe combined immunodeficiency (SCID), also known as “bubbly baby” disease, which left her unable to fight off infections. Her future looked grim until she got a stem cell transplant that gave her a new blood system and a healthy immune system. Today, she is cured.

 

 

Normally CIRM Board meetings are filled with important, albeit often dry, matters such as approving new intellectual property regulations or a new research concept plan. But it’s one thing to vote to approve a clinical trial, and a very different thing to see the people whose lives you have helped change by funding that trial.

You cannot help but be deeply moved when you hear a mother share her biggest fear that her daughter would never live long enough to go to kindergarten and is now delighted to see her lead a normal life; or hear a young man who wondered if he would make it to his 24th birthday now planning to go to college to be a doctor

When you know you played a role in making these dreams happen, it’s impossible not to be inspired, and doubly determined to do everything possible to ensure many others like them have a similar chance at life.

You can read more about these four patients in our new Stories of Hope: The CIRM Stem Cell Four feature on the CIRM website. Additionally, here is a video of those four extraordinary people and their families telling their stories:

We will have more extraordinary stories to share with you when we publish our Annual Report on January 1st. 2016 was a big year for CIRM. We are determined to make 2017 even bigger.

‘Right To Try’ laws called ‘Right To Beg’ by Stem Cell Advocates

In recent years, ‘Right to Try’ laws have spread rapidly across the US, getting approved in 32 states, with at least three more states trying to pass their own versions.

The organization behind the laws says they serve a simple purpose:

‘Right To Try’ allows terminally ill Americans to try medicines that have passed Phase 1 of the FDA approval process and remain in clinical trials but are not yet on pharmacy shelves. ‘Right To Try’ expands access to potentially life-saving treatments years before patients would normally be able to access them.”

That certainly sounds like a worthy goal; one most people could get behind. And that’s what is happening. Most ‘Right To Try’ laws are passed with almost unanimous bi-partisan support at the state level.

Beth Roxland

Beth Roxland

But that’s not the view of Beth Roxland, an attorney and health policy advisor with an extensive history in both regenerative medicine and bioethics. At the recent World Stem Cell Summit Roxland said ‘Right To Try’ laws are deceptive:

“These are not patient friendly but are actually patient unfriendly and could do harm to patients. The problem is that they are pretending to do something that isn’t being done. It gives patients a sense that they can get access to a treatment, but they don’t have the rights they think they do. This is a right to ask, not a right to get.”

Roxland says the bills in all 32 states are almost all identical, and use the same cookie-cutter language from the Goldwater Institute – the libertarian organization that is promoting these laws. And she says these laws have one major flaw:

“There is no actual right provided in the bill. The only right is the right to try and save your life, “by requesting” from a manufacturer a chance to try the therapy. The manufacturer doesn’t have to do anything; they aren’t obliged to comply. The bills don’t help; they give people false hopes.”

Roxland says there isn’t one substantiated case where a pharmaceutical company has provided access to a therapy solely because of a ‘Right To Try’ law.

However, Starlee Coleman, the Vice President for Communications at the Goldwater Institute, says that’s not true. She says Dr. Ebrahim Delpassand, a cancer specialist in Texas, has testified before Congress that he has treated dozens of patients under his state’s ‘Right To Try’ law. You can see a video of Dr. Delpassand here.

Coleman says ;

“We think the promise of ‘Right To Try’ is self-evident. If one doctor alone can treat 80 patients in one fell swoop, but the FDA can only manage to get 1200 people through its expanded access program each year, we think the potential to help patients is significant.”

Other speakers at the panel presentation at the World Stem Cell Summit said these laws can at the very least play an important role in at least raising the issue of the need for people battling terminal illnesses to have access to experimental therapies. Roxland agreed it was important to have that conversation but she pointed out that what often gets lost in the conversation is that these laws can have hidden costs.

  • 13 states may withdraw hospice eligibility to people who gain access to an early or experimental intervention
  • 4 states may withdraw home care
  • 6 states say patients taking part in these therapies may lose their insurance
  • Several states allow insurers to deny coverage for conditions that may arise from patients getting access to these therapies
  • 30 states say the companies can charge the patients for access to these therapies

Roxland says the motives behind the ‘Right To Try’ laws may be worthy but the effect is misleading, and diverts attention from efforts to create the kind of reforms that would have real benefits for patients.

Here is a blog we wrote on the same topic last year.

California’s stem cell agency rounds up the year with two more big hits

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CIRM Board meeting with  Jake Javier, CIRM Chair Jonathan Thomas, Vice Chair Sen. Art Torres (Ret.) and President/CEO Randy Mills

It’s traditional to end the year with a look back at what you hoped to accomplish and an assessment of what you did. By that standard 2016 has been a pretty good year for us at CIRM.

Yesterday our governing Board approved funding for two new clinical trials, one to help kidney transplant patients, the second to help people battling a disease that destroys vision. By itself that is a no small achievement. Anytime you can support potentially transformative research you are helping advance the field. But getting these two clinical trials over the start line means that CIRM has also met one of its big goals for the year; funding ten new clinical trials.

If you had asked us back in the summer, when we had funded only two clinical trials in 2016, we would have said that the chances of us reaching ten trials by the end of the year were about as good as a real estate developer winning the White House. And yet……..

Helping kidney transplant recipients

The Board awarded $6.65 million to researchers at Stanford University who are using a deceptively simple approach to help people who get a kidney transplant. Currently people who get a transplant have to take anti-rejection medications for the rest of their life to prevent their body rejecting the new organ. These powerful immunosuppressive medications are essential but also come with a cost; they increase the risk of cancer, infection and heart disease.

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CIRM President/CEO Randy Mills addresses the CIRM Board

The Stanford team will see if it can help transplant patients bypass the need for those drugs by injecting blood stem cells and T cells (which play an important role in the immune system) from the kidney donor into the kidney recipient. The hope is by using cells from the donor, you can help the recipient’s body more readily adjust to the new organ and reduce the likelihood the body’s immune system will attack it.

This would be no small feat. Every year around 17,000 kidney transplants take place in the US, and many people who get a donor kidney experience fevers, infections and other side effects as a result of taking the anti-rejection medications. This clinical trial is a potentially transformative approach that could help protect the integrity of the transplanted organ, and improve the quality of life for the kidney recipient.

Fighting blindness

The second trial approved for funding is one we are already very familiar with; Dr. Henry Klassen and jCyte’s work in treating retinitis pigmentosa (RP). This is a devastating disease that typically strikes before age 30 and slowly destroys a person’s vision. We’ve blogged about it here and here.

Dr. Klassen, a researcher at UC Irvine, has developed a method of injecting what are called retinal progenitor cells into the back of the eye. The hope is that these cells will repair and replace the cells damaged by RP. In a CIRM-funded Phase 1 clinical trial the method proved safe with no serious side effects, and some of the patients also reported improvements in their vision. This raised hopes that a Phase 2 clinical trial using a larger number of cells in a larger number of patients could really see if this therapy is as promising as we hope. The Board approved almost $8.3 million to support that work.

Seeing is believing

How promising? Well, I recently talked to Rosie Barrero, who took part in the first phase clinical trial. She told me that she was surprised how quickly she started to notice improvements in her vision:

“There’s more definition, more colors. I am seeing colors I haven’t seen in years. We have different cups in our house but I couldn’t really make out the different colors. One morning I woke up and realized ‘Oh my gosh, one of them is purple and one blue’. I was by myself, in tears, and it felt amazing, unbelievable.”

Amazing was a phrase that came up a lot yesterday when we introduced four people to our Board. Each of the four had taken part in a stem cell clinical trial that changed their lives, even saved their lives. It was a very emotional scene as they got a chance to thank the group that made those trials, those treatments possible.

We’ll have more on that in a future blog.

 

 

 

 

Why Goldilocks could provide the answer to changing the way FDA regulates stem cells

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Panel on FDA regulation at World Stem Cell Summit

One of the hottest topics of the past year in regenerative medicine has been the discussion about the need for regulatory reform at the Food and Drug Administration (FDA) so it’s no surprise that topic was the subject of the first main panel discussion at the 2016 World Stem Cell Summit in West Palm Beach, Florida.

The panel, titled ‘FDA Oversight in Regenerative Medicine: What are the Options to Accelerating Translation’, kicked off with Celia Witten, Deputy Director of the Center for Biologics Evaluation and Research at the FDA. She laid out all the new steps that the agency is implementing to try and be more responsive to the needs of researchers and patients.

Perils facing pioneers

Martin McGlynn, the former CEO of StemCells Inc. was up next and he wasted little time listing the companies that had once been considered pioneers in the field only to fail for a variety of reasons. He said one of the big problems is that translational efforts, moving from a good idea to a clinical trial, take too long, saying 15 – 20 years is not unusual and that Big Pharma and strategic investors won’t invest until they see strong Phase 2 study results.

“We need to do great science and design and conduct great clinical trials to advance this field but we also have to come up with a sustainable business model to make this happen.”

A good start

He called the 21st Century Cures Act, which the US Senate approved yesterday, a good start but says many of the challenges won’t be helped by some of the new provisions:

“Many sponsors and companies don’t make it out of open label early studies, so the existence of an accelerated pathway or some of the other enabling tools included in the act will come too late for these groups.”

McGlynn warned that if we don’t take further steps, we risk falling behind the rest of the world where companies are buying up struggling US ventures:

“Many non-USA companies in Japan and China and Australia are quicker to recognize the value of many of the products and approaches that struggle here in the US.”

Too much, too little, just right

Marc Scheineson was the final speaker. He heads the food and drug law practice at Washington, DC law firm Alston & Bird and is a former Associate Commissioner for Legislative Affairs at the FDA. He began his presentation with what he said are the scariest words in the English language: “I‘m a lawyer from Washington D.C. and I’m here to help you.”

Scheineson says part of the problem is that the FDA was created long before cell therapy was possible and so it is struggling to fit its more traditional drug approval framework around stem cell therapies. As a result, this has led to completely separate regulatory processes for the transplantation of human organs and blood vessels, or for the use of whole blood or blood components.

He says it’s like the fable of Goldilocks and the Three Bears. Some of the regulation is too hard- resulting in a lengthy regulatory process that takes years to complete and costs billions of dollars – and some of the regulation is too soft allowing clinics to open up around the US offering unproven therapies. He says we need a Goldilocks approach that blends the two into regulations that are just right.

Time to take a second step

Scheineson agreed with McGlynn that the 21st Century Cures Act is a good start but it’s not enough.  He says it still relies heavily on the use of traditional criteria to regulate stem cells, and also leaves much of the interpretation of the Act to the discretion of the FDA.

“It’s a first step, an experiment to see if we can break the logjam and see if we can move things to an affordable BLA (The Biologics License Application is needed to be able to market a product once it’s approved by the FDA). But make no mistake, a cell therapy revolution is underway and I believe the FDA should seize the opportunity to promote innovation and not defensively protect the “status quo”.