PRESS-NEWS.org - Press Release Distribution
PRESS RELEASES DISTRIBUTION

Salk scientists develop faster, safer method for producing stem cells

The new method boosts cell yields and increases safety, helping to get another step closer to regenerative medicine

Salk scientists develop faster, safer method for producing stem cells
2012-12-04
(Press-News.org) LA JOLLA, CA---- A new method for generating stem cells from mature cells promises to boost stem cell production in the laboratory, helping to remove a barrier to regenerative medicine therapies that would replace damaged or unhealthy body tissues.

The technique, developed by researchers at the Salk Institute for Biological Studies, allows for the unlimited production of stem cells and their derivatives as well as reduces production time by more than half, from nearly two months to two weeks.

"One of the barriers that needs to be overcome before stem cell therapies can be widely adopted is the difficulty of producing enough cells quickly enough for acute clinical application," says Ignacio Sancho-Martinez, one of the first authors of the paper and a postdoctoral researcher in the laboratory of Juan Carlos Izpisua Belmonte, the Roger Guillemin Chair at the Salk Institute.

They and their colleagues, including Fred H. Gage, professor in Salk's Laboratory of Genetics, have published a new method for converting cells in this week's Nature Methods.

Stem cells are valued for their "pluripotency," the ability to become nearly any cell in the body. Stem cells for research and clinical uses are derived in two ways, either directly from cells young enough to still be pluripotent, or from mature cells that have been "reprogrammed" to be pluripotent.

The first kind are called "embryonic stem cells," (ESCs) even though the term is a misnomer. They are actually taken from blastocysts, the hollow bundle of cells approximately the size of a tip of a pin that is formed by a fertilized egg after five days of cell division. After a blastocyst implants in the uterus, the embryo stage begins.

Aside from the well-known ethical controversies, ESCs have a less discussed problem: Tissues grown from ESCs may trigger immune reactions when they are transplanted into patients.

In order to overcome both ethical and medical concerns, scientists learned how to coax mature cells (called "somatic cells") that had differentiated into particular types of tissue back to their pluripotent state. These so-called "induced pluripotent stem cells," or iPSCs, set off whole new rounds of research, including a third way to get desired cell types.

As it turns out, iPSCs have their own problems. They take a long time to create in the lab, in a highly inefficient process that can take up to two months to complete. First, somatic cells must be reprogrammed to iPSCs, which takes considerable time and effort. Then, the iPSCs have to be differentiated into specific cell lineages prior to therapeutic application. Far worse, they can sometimes develop into tumors, called teratomas, which can be cancerous.

Knowing this, scientists wondered if it might not be necessary to go all the way back to the blank slate of a pluripotent stem cell. Key to this idea is that pluripotent stem cells do not immediately grow into particular cells. They go through intermediate progenitor phases where they become "multipotent," and can only develop into cell types within a certain cellular lineage. While a pluripotent cell can become nearly any cell in the body, a multipotent blood cell, for example, can become red or white blood cells or platelets, but not distant lineages such as neurons.

Thus, in order to avoid the potential problems of working with iPSCs, scientists developed the technique of "direct lineage conversion." Unlike the familiar scenario, in which a pluripotent cell would divide and generate all different cell types of an adult individual, in direct lineage conversion one somatic cell is turned into just one other cell type, thus, for example, one skin cell becomes one muscle cell, but nothing else.

While this technique is effective, the Salk team and their colleagues wondered if there might be a modification that could be both more efficient and safer.

"Beyond the obvious issue of safety, the biggest consideration when thinking about stem cells for clinical use is productivity," says Salk post doctoral researcher Leo Kurian, a first co-author on the paper.

The team developed a new technique, which they dubbed "indirect lineage conversion" (ILC). In ILC, as explained in detail in Nature Methods, somatic cells are pushed back to an earlier state suitable for further specification into progenitor cells.

ILC has the potential to generate multiple lineages once cells are transferred to the team's specially developed chemical environment. Most importantly, ILC saves time and reduces the risk of teratomas by not requiring iPSC generation. Instead, somatic cells are directed to become the progenitor cells of particular lineages. "We don't push them to zero, we just push them a bit back," Sancho-Martinez says.

Using ILC, the group reprogrammed human fibroblasts (skin cells) to become angioblast-like cells, the progenitors of vascular cells. These new cells could not only proliferate, but also further differentiate into endothelial and smooth muscle vascular lineages. When implanted in mice, these cells integrated into the animals' existing vasculature.

"One of the long-term hopes for stem cell research is exemplified by this study, where stem cells would self-assemble into 3D structures and then integrate into existing tissues," says Juan Carlos Izpisua Belmonte.

While such clinical use may be years away, this new method has several advantages over current techniques, he explains. It is safer, since it does not seem to produce tumors or other undesirable genetic changes, and results in much greater yield than other methods. Most important, it is faster, and this is part of what makes it not only more productive, but less risky.

"Generally it can take up to two months to create iPSCs and their differentiated derivatives, which increases the chances for mutations to take place," says Emmanuel Nivet, the third of the first co-authors. "Our method takes only 15 days, so we've substantially decreased the chances for spontaneous mutations to take place."

INFORMATION:

Other researchers on the study were: Aitor Aguirre, Krystal Moon, Caroline Pendaries, Cecile Volle-Challier, Francoise Bono, Jean-Marc Herbert, Julian Pulecio, Yun Xia, Mo Li, Nuria Montserrat, Sergio Ruiz, Ilir Dubova, Concepcion Rodriguez, Ahmet M. Denli, Francesca S. Boscolo, Rathi D. Thiagarajan, Jeanne F. Loring and Louise C. Laurent.

The work was supported by: the California Institute for Regenerative Medicine; the F.M. Kirby Foundation; National Institutes of Health; the Hartwell Foundation; the Millipore Foundation; the Esther O'Keeffe Charitable Trust Foundation; Fundacion Cellex; the G. Harold and Leila Y. Mathers Charitable Foundation; The Leona M. and Harry B. Helmsley Charitable Trust, Sanofi; and the Ministerio de Economia y Competitividad.

About the Salk Institute for Biological Studies:

The Salk Institute for Biological Studies is one of the world's preeminent basic research institutions, where internationally renowned faculty probe fundamental life science questions in a unique, collaborative, and creative environment. Focused both on discovery and on mentoring future generations of researchers, Salk scientists make groundbreaking contributions to our understanding of cancer, aging, Alzheimer's, diabetes and infectious diseases by studying neuroscience, genetics, cell and plant biology, and related disciplines.

Faculty achievements have been recognized with numerous honors, including Nobel Prizes and memberships in the National Academy of Sciences. Founded in 1960 by polio vaccine pioneer Jonas Salk, M.D., the Institute is an independent nonprofit organization and architectural landmark.

[Attachments] See images for this press release:
Salk scientists develop faster, safer method for producing stem cells

ELSE PRESS RELEASES FROM THIS DATE:

Super-resolution microscope shows how human T-cells make life or death decisions

2012-12-04
Sydney, Australia - Using a super-resolution fluorescent microscope, Australian medical scientists are a step closer to understanding why and how human immune cells decide to activate or not, thus enabling or preventing disease taking hold in the body. Professor Katharina Gaus and her team at the Centre for Vascular Research based at UNSW's Lowy Cancer Research Centre used some of the most advanced super-resolution optical microscope technology available anywhere in the world to see changes in individual proteins in T-cells – the workhorse of our immune system. "Every ...

Genetic data shows that skin cancer risk includes more than UV exposure

2012-12-04
BETHESDA, MD – DECEMBER 4, 2012 -- It's common knowledge that excessive UV exposure from sunlight raises your chances for skin cancer, but predicting whether someone will actually develop skin cancer remains difficult. In a new research report, scientists from the University of Alabama at Birmingham (UAB) and the University of Wisconsin–Madison show that the risk for skin cancer involves numerous genetic factors including family history, ethnicity, and genetic variations specific to each individual. Using these factors, the researchers developed a more precise model for ...

Genetics Society of America's Genetics journal highlights for December 2012

2012-12-04
Bethesda, MD—December 4, 2012 – Listed below are the selected highlights for the December 2012 issue of the Genetics Society of America's journal, Genetics. The December issue is available online at www.genetics.org/content/current. Please credit Genetics, Vol. 192, December 2012, Copyright © 2012. Please feel free to forward to colleagues who may be interested in these articles. ISSUE HIGHLIGHTS Genetic variation in Saccharomyces cerevisiae: Circuit diversification in a signal transduction network, pp. 1523-1532 Brian L. Chin, Owen Ryan, Fran Lewitter, Charles ...

Could high insulin make you fat? Mouse study says yes

Could high insulin make you fat? Mouse study says yes
2012-12-04
When we eat too much, obesity may develop as a result of chronically high insulin levels, not the other way around. That's according to new evidence in mice reported in the December 4th Cell Metabolism, a Cell Press publication, which challenges the widespread view that rising insulin is a secondary consequence of obesity and insulin resistance. The new study helps to solve this chicken-or-the-egg dilemma by showing that animals with persistently lower insulin stay trim even as they indulge themselves on a high-fat, all-you-can-eat buffet. The findings come as some of ...

Web-based project prevents epilepsy-related depression

2012-12-04
Emory researchers announced results of a new study that has proven successful in the prevention of depression in people diagnosed with epilepsy. Depression is one of the most common psychiatric disorders in people with epilepsy. It affects between 32 and 48 percent of people with the disease. Depression is known to have more of an impact on quality of life than frequent seizures. A team of researchers at the Rollins School of Public Health at Emory University led a study that applied a revised version of a web- and phone-based method focused on preventing, rather ...

University of Tennessee researchers find fungus has cancer-fighting power

2012-12-04
Arthrobotrys oligospora doesn't live a charmed life; it survives on a diet of roundworm. But a discovery by a team led by Mingjun Zhang, an associate professor of biomedical engineering at the University of Tennessee, Knoxville, could give the fungus's life more purpose—as a cancer fighter. Zhang and his team have discovered that nanoparticles produced by A. oligospora hold promise for stimulating the immune system and killing tumors. The findings are published in this month's edition of Advanced Functional Materials. Zhang commonly looks to nature for solutions ...

Delivered meals help seniors stay in their homes

2012-12-04
PROVIDENCE, R.I. [Brown University] — The more states spend on home-delivered meals under the Older Americans Act, the more likely they are to help people who don't need nursing home care to stay in their homes, according to a newly published Brown University statistical analysis of a decade of spending and nursing home resident data. "Despite efforts to rebalance long-term care, there are still many nursing home residents who have the functional capacity to live in a less restrictive environment," wrote gerontology researchers Kali Thomas and Vincent Mor in the article ...

Plastic packaging industry is moving towards completely bio-based products

2012-12-04
The new generation of bio-based plastic packaging is not only eco-friendly but also has several superior qualities compared to traditional plastic packaging. The plastic packaging industry is moving towards completely bio-based products. The volume of oil used every year in the production of plastics equates to approximately five per cent of the world's total oil consumption. Approximately 40 per cent of all plastics are used in packaging, which puts special pressure on the packaging industry to reduce dependence on oil. The use of renewable natural resources in industrial ...

Cork the key to unlocking the potential of graphene

2012-12-04
Scientists have taken inspiration from one of the oldest natural materials to exploit the extraordinary qualities of graphene, a material set to revolutionise fields from computers and batteries to composite materials. Published today in Nature Communications, a Monash University study led by Professor Dan Li has established, for the first time, an effective way of forming graphene, which normally exists in very thin layers, into useful three-dimensional forms by mirroring the structure of cork. Graphene is formed when graphite is broken down into layers one atom thick. ...

Stanford geoscientist cites critical need for basic research to unleash promising energy sources

2012-12-04
"There is a critical need for scientists to address basic questions that have hindered the development of emerging energy resources, including geothermal, wind, solar and natural gas, from underground shale formations," said Mark Zoback, a professor of geophysics at Stanford University. "In this talk we present, from a university perspective, a few examples of fundamental research needs related to improved energy and resource recovery." Zoback, an authority on shale gas development and hydraulic fracturing, served on the U.S. Secretary of Energy's Committee on Shale Gas ...

LAST 30 PRESS RELEASES:

Unique killer whale pod may have acquired special skills to hunt the world’s largest fish

Emory-led Lancet review highlights racial disparities in sudden cardiac arrest and death among athletes

A new approach to predicting malaria drug resistance

Coral adaptation unlikely to keep pace with global warming

Bioinspired droplet-based systems herald a new era in biocompatible devices

A fossil first: Scientists find 1.5-million-year-old footprints of two different species of human ancestors at same spot

The key to “climate smart” agriculture might be through its value chain

These hibernating squirrels could use a drink—but don’t feel the thirst

New footprints offer evidence of co-existing hominid species 1.5 million years ago

Moral outrage helps misinformation spread through social media

U-M, multinational team of scientists reveal structural link for initiation of protein synthesis in bacteria

New paper calls for harnessing agrifood value chains to help farmers be climate-smart

Preschool education: A key to supporting allophone children

CNIC scientists discover a key mechanism in fat cells that protects the body against energetic excess

Chemical replacement of TNT explosive more harmful to plants, study shows

Scientists reveal possible role of iron sulfides in creating life in terrestrial hot springs

Hormone therapy affects the metabolic health of transgender individuals

Survey of 12 European countries reveals the best and worst for smoke-free homes

First new treatment for asthma attacks in 50 years

Certain HRT tablets linked to increased heart disease and blood clot risk

Talking therapy and rehabilitation probably improve long covid symptoms, but effects modest

Ban medical research with links to the fossil fuel industry, say experts

Different menopausal hormone treatments pose different risks

Novel CAR T cell therapy obe-cel demonstrates high response rates in adult patients with advanced B-cell ALL

Clinical trial at Emory University reveals twice-yearly injection to be 96% effective in HIV prevention

Discovering the traits of extinct birds

Are health care disparities tied to worse outcomes for kids with MS?

For those with CTE, family history of mental illness tied to aggression in middle age

The sound of traffic increases stress and anxiety

Global food yields have grown steadily during last six decades

[Press-News.org] Salk scientists develop faster, safer method for producing stem cells
The new method boosts cell yields and increases safety, helping to get another step closer to regenerative medicine