Biologists discover solution to problem limiting development of human stem cell therapies

PUBLIC RELEASE DATE:

2-Jan-2014

Contact: Kim McDonald kmcdonald@ucsd.edu 858-534-7572 University of California - San Diego

Biologists at UC San Diego have discovered an effective strategy that could prevent the human immune system from rejecting the grafts derived from human embryonic stem cells, a major problem now limiting the development of human stem cell therapies. Their discovery may also provide scientists with a better understanding of how tumors evade the human immune system when they spread throughout the body.

The achievement, published in a paper in this week's early online edition of the journal Cell Stem Cell by a collaboration that included scientists from China, was enabled by the development of "humanized" laboratory mice that contained a functional human immune system capable of mounting a vigorous immune rejection of foreign cells derived from human embryonic stem cells.

Because human embryonic stem cells are different from our own body's cells, or "allogenic," a normally functioning human immune system will attack these foreign cells. One way to reduce the body's "allogenic immune response" is to suppress the immune system with immunosuppressant drugs.

"For organ transplantation to save patients with terminal diseases that has been quite successful," says Yang Xu, a professor of biology who headed the team of researchers that included Ananda Goldrath, an associate biology professor at UC San Diego. "But for stem cell therapies, the long term use of toxic immunosuppressant drugs for patients who are being treated for chronic diseases like Parkinson's disease or diabetes pose serious health problems."

Researchers had long been searching for a human immunity relevant model that would allow them to develop strategies to implant allogenic cells derived from embryonic stem cells safely. "The problem is that we only had data from mouse immune system and those are not usually translatable in humans, because human and mouse immune systems are quite different," explains Xu. "So what we decided to do was to optimize the humanized mouse that carries a functional human immune system."

To do that, the biologists took immune deficient laboratory mice and grafted into their bodies human fetal thymus tissues and hematopoietic stem cells derived from fetal liver of the same human donor. "That reconstituted in these mice a normally functioning human immune system that effectively rejects cells derived human embryonic stem cells," says Xu. With these "humanized" mouse models, the biologists then tested a variety of immune suppressing molecules alone or in combination and discovered one combination that worked perfectly to protect cells derived from human embryonic stem cells from immune rejection.

That combination was CTLA4-lg, an FDA-approved drug for treating rheumatoid arthritis that suppresses T-cells responsible for immune rejection, and a protein called PD-L1 known to be important for inducing immune tolerance in tumors. The researchers discovered that the combination of these two molecules allowed the allogeneic cells to survive in humanized mice without triggering an immune rejection.

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Biologists discover solution to problem limiting development of human stem cell therapies

Stem Cell Medicine Center

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Stem Cell Medicine Center

Stem Cells Converted into Lung Cells | Worldhealth.net Anti …

With a number of research teams reporting that human stem cells are converted into heart cells, pancreatic beta cells, intestinal cells, liver cells, nerve cells, Hans-Willem Snoeck, from the Columbia Center for Translational Immunology (New York, USA), and colleagues have discovered that new factors can complete the transformation of human stem cells into functional lung epithelial cells. The resultant cells were found to express markers of at least six types of long and airway epithelial cells, particularly markers of type 2 alveolar epithelial cells important because they produce a surfactant that maintains the lung alveoli, and participate in the lung repair after injury or damage. The findings have implications ultimately for the potential to produce an autologous lung graft generating lung tissue sufficient for transplantation from a patient's own stem cells.

Huang SX, Islam MN, O'Neill J, Hu Z, Yang YG, Snoeck HW, et al. Efficient generation of lung and airway epithelial cells from human pluripotent stem cells. Nat Biotechnol. 2013 Dec 1.

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Stem Cells Converted into Lung Cells | Worldhealth.net Anti ...

Knoepfler Lab Stem Cell Blog | Building stem cell bridges

Reading these one doesn't know whether to laugh or cry they are so stupid. "Top researcher: iPS cells probably already embryos".This article was so wrong about so many things that it gives dumb a bad name. "Adventurous woman sought to carry Neanderthal baby". Who needs the National Enquirer? "Dana White media scrum: Meniere's disease cured by stem cell treatment inGermany". Stem cells are like throwing disease against the cage? "Op-Ed: Stem cell derived anti-aging cream is on its way, and it works". Really? Wow, I can't believe it. "Bushs belated victory: Pro-life groups celebrate ethical shift in stem cell research." Uh, no. Bush does not deserve credit for iPS READ MORE [...] Every year I do predictions for the stem cell field for the coming year. You can see my full post on my predictions for this year here. Stay tuned soon for my predictions for 2014. How'd I do for 2013 with my predications? Each prediction for this year that I made last year is bolded and my assessment now of how I did for each is in green or red.I did reasonably well for 2013. Sometimes predictions get mixed in with what hopes or thinks would be the best thing to happen not necessarily the most likely. 10. At least two new lawsuits are filed against stem cell businesses, most likely by patients.I think the number is more likely to be 3-4, but lets see what develops. RIGHT. READ MORE [...] Take Our Poll

Id like to learn more about who reads this blog. Please take the above poll. Use your judgment to pick a single category that best describes you. I realize some folks may fit into more than one category.

Thanks

Paul

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Knoepfler Lab Stem Cell Blog | Building stem cell bridges

Research – Stem Cell Biology and Regenerative Medicine …

Every one of us completely regenerates our own skin every 7 days. A cut heals itself and disappears in a week or two. Every single cell in our skeleton is replaced every 7 years.

The future of medicine lies in understanding how the body creates itself out of a single cell and the mechanisms by which it renews itself throughout life.

When we achieve this goal, we will be able to replace damaged tissues and help the body regenerate itself, potentially curing or easing the suffering of those afflicted by disorders like heart disease, Alzheimers, Parkinsons, diabetes, spinal cord injury and cancer.

Research at the institute leverages Stanfords many strengths in a way that promotes that goal. The institute brings together experts from a wide range of scientific and medical fields to create a fertile, multidisciplinary research environment.

There are four major research areas of emphasis at the institute:

Theres no way to know, beforehand, which particular avenue of stem cell research will most expediently yield a successful treatment or cure. Therefore, we need to vigorously pursue a broad number of promising leads concurrently.

--Philip A. Pizzo, MD Carl and Elizabeth Naumann Professor Dean, Stanford University School of Medicine

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Research - Stem Cell Biology and Regenerative Medicine ...

Discovery of Lung Stem Cell Offers New Hope for COPD Treatment

Contrary to popular scientific belief, human lung stem cells do exist and their discovery may lead to improved treatments for COPD.

Dr. Piero Anversa, director of the Center for Regenerative Medicine at Brigham and Women's Hospital (BWH) in Boston, Massachusetts, and his colleagues believe that they have identified the first human lung stem cell. This discovery has the potential to repair and regenerate lung tissue in people suffering from COPD and other lung diseases. Dr. Anversa states: "The discovery of this stem cell has the potential to offer those who suffer from chronic lung diseases a totally novel treatment option by regenerating or repairing damaged areas of the lung."

How do lung stem cells operate? When placed in a culture medium, the newly discovered lung stem cells divide into new stem cells and also into cells that have the ability to form new lung structures such as alveoli, bronchioles and pulmonary blood vessels. This, my friends, is absolutely incredible!

Over the past several years, I have kept you up to date on stem cell research in the United States and other countries. As many of you may, or may not know, stem cell treatment with manipulation is currently not available here in the United States. It will be interesting to note how this new discovery will influence the decision on whether or not to legalize it, making it available to all who need it.

To read more about stem cell therapy, visit the following links:

Would you undergo stem cell therapy for COPD? If not, what would influence your decision? Please leave your comments and vote in the poll.

Source:

Piero Anversa, et. al. Evidence for Human Lung Stem Cells. New England Journal of Medicine, 2011; 364 (19): 1795-1806 DOI: 10.1056/NEJMoa1101324; published online 12 May 2011.

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Discovery of Lung Stem Cell Offers New Hope for COPD Treatment

Stem Cell Research Could Lead To A Cure For Baldness, And More

December 20, 2013

redOrbit Staff & Wire Reports Your Universe Online

Regenerative medicine research conducted throughout this year at the University of Southern California (USC) could lead to new ways to counter baldness and receding hairlines using stem cells.

USC Assistant Professor of Pathology Dr. Krzysztof Kobielak and his colleagues have published a trio of papers in the journals Stem Cells and the Proceedings of the National Academy of Sciences (PNAS) describing some of the biological factors responsible for when hair starts growing, when it stops, and when it falls out.

According to USC, the three studies focused on stem cells that are located in adult hair follicles. Those cells, known as hfSCs, can regenerate both hair follicles and skin, and are governed by bone morphogenetic proteins (BMPs) and the Wnt signaling pathways groups of molecules that work together in order to control the cycles of hair growth and other cellular functions.

The most recent paper, published in the journal Stem Cells in November 2013, focuses on how the gene Wnt7b activates hair growth. Without Wnt7b, hair is much shorter, the team said. Kobielaks team originally proposed Wnt7bs role in a study published this January in PNAS. That paper identified a complex network of genes, including the Wnt and BMP signaling pathways, which controls the cycles of hair growth.

Reduced BMP signaling and increased Wnt signaling activate hair growth, while increased BMP signaling and decreased Wnt signaling keeps the hfSCs in a resting state, the researchers explained. The third paper, published in Stem Cells in September, sheds new light on the BMP signaling pathway. It looked at the function of the proteins Smad1 and Smad 5, which send and receive signals that regulate hair-related stem cells during growth periods.

Collectively, these new discoveries advance basic science and, more importantly, might translate into novel therapeutics for various human diseases, Kobielak explained. Since BMP signaling has a key regulatory role in maintaining the stability of different types of adult stem cell populations, the implication for future therapies might be potentially much broader than baldness and could include skin regeneration for burn patients and skin cancer.

Other USC researchers involved in the studies include postdoctoral fellow Eve Kandyba, Yvonne Leung, Yi-Bu Chen, Randall Widelitz, Cheng-Ming Chuong, Virginia M. Hazen, Agnieszka Kobielak, and Samantha J. Butler. Funding for the research was provided by the Donald E. and Delia B. Baxter Foundation Award and National Institute of Arthritis and Musculoskeletal and Skin Diseases of the National Institutes of Health (NIH).

Source: redOrbit Staff & Wire Reports - Your Universe Online

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Stem Cell Research Could Lead To A Cure For Baldness, And More

UC San Diego Gets $4M Grant For Stem Cell Research

The state agency that funds stem cell research has given UC San Diego a new $4-million grant. The California Institute for Regenerative Medicine has given the school 62 grants.

The institute known as CIRM made its first grants in 2006. Since then, the agency has awarded UC San Diego $142 million for stem cell research.

That makes the school the fourth highest recipient of CIRM grants in the state.

Dr.Catriona Jamieson, UC San Diego Moores Cancer Center stem cell research program director, said CIRM has funded a lot of cutting-edge science.

They also gave us a training grant that has been absolutely vital for being able to train the next generation of physician-scientists, and scientists who want to be able to work with regenerative therapies, Jamieson said.

A variety of other local entities have received CIRM grants, including the Salk Institute and San Diego State University.

CIRM has awarded San Diego institutions a total of more than $350 million since it began doling out grants seven years ago. Thats nearly one-sixth of the total amount awarded statewide.

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UC San Diego Gets $4M Grant For Stem Cell Research

Stem cell science: Can two girls help change the face of medicine?

Dec. 8, 2013 at 2:49 PM ET

Jeff Swensen / for NBC News

The Mogul family at The Children's Institute in Pittsburgh, Pennsylvania where parents Stephen and Robyn have taken their daughter, Bari, 9 and Hayley, 15, to undergoing extensive therapy to help with their rare genetic disorders.

At 15, Hayley Mogul lacks the fine motor skills needed to write. Her sister Bari is 9 and still eating baby food.

There's no cure for their rare disorders, caused by unique genetic mutations. But for once, there's an advantage to having conditions so rare that drug companies cannot even think of looking for a cure. The sisters are taking part in a whole new kind of experiment in which scientists are literally turning back the clock on their cells.

Theyre using an experimental technique to transform the cells into embryonic form, and then growing these baby cells in lab dishes.

The goal is the get the cells to misfire in the lab in just the same way they are in Hayleys and Baris bodies. Its a new marriage of genetics and stem cell research, and represents one of the most promising applications of so-called pluripotent stem cells.

One day these two girls will probably change the face of medicine as we know it, said their father, Steven Mogul.

Steven and Robyn Mogul dont understand why both their daughters ended up with the rare mutations, which cause a range of neurological and metabolic problems.

We have been tested, said Mogul, a 45-year-old wealth manager living in Chicago. We dont have any mutations, and there are no developmental issues. We have no idea how it happened.

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Stem cell science: Can two girls help change the face of medicine?

Definigen raises £1.3m for stem cell advance

Cambridge University spin-out Definigen has raised new funding of 1.3 million to advance its stem cell technology business from a UK platform.

The cash will be used to launch new stem cell products for disease modelling and drug discovery.

The company supplies human liver cells (hepatocytes) for preclinical drug development and disease modelling applications using human induced pluripotent stem cell technology.

This is a trailblazing venture for the business and the university. The company represents one of the first commercial opportunities to arise from the universitys expertise in stem cells and is based on the research of Dr Ludovic Vallier, Dr Tamir Rashid and Professor Roger Pedersen of the universitys Anne McLaren Laboratory of Regenerative Medicine.

Dr Vallier led a team, including Dr Rashid, Dr Nick Hannan and Candy Cho, that developed a method to generate stem cells by reprogramming cells from patients skin.

These cells, known as human induced pluripotent stem cells (hIPSC), can be differentiated into almost any cell type, allowing the opportunity to have a ready source of human cells for testing new therapies.

Definigen has built on this technology to supply hIPSC-derived hepatocytes in a highly reproducible and scalable manner for commercial use.

Through its OptiDIFF platform, Definigen produces validated libraries of disease modelled human liver cells for a range of Inherited Metabolic Diseases. The phenotype and pathology of the diseases has been confirmed in the cells and the resulting products are available for utilisation in drug discovery lead optimisation studies.

Future growth areas for the company include providing hepatocytes for toxicology testing, pancreatic cells for testing new diabetes therapies, and developing a new long-term storage and preservation method for hIPSC cells.

Other investors in this funding round include 24 Haymarket and Jonathan Milner, the CEO of Abcam, chairman of Axol Bioscience and backer of a large number of life science companies in the Cambridge MedTech cluster.

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Definigen raises £1.3m for stem cell advance