knowledge center home stem cell research all about stem cells what are stem cells?
Stem cells are a class of undifferentiated cells that are able to differentiate into specialized cell types. Commonly, stem cells come from two main sources:
Both types are generally characterized by their potency, or potential to differentiate into different cell types (such as skin, muscle, bone, etc.).
Adult or somatic stem cells exist throughout the body after embryonic development and are found inside of different types of tissue. These stem cells have been found in tissues such as the brain, bone marrow, blood, blood vessels, skeletal muscles, skin, and the liver. They remain in a quiescent or non-dividing state for years until activated by disease or tissue injury.
Adult stem cells can divide or self-renew indefinitely, enabling them to generate a range of cell types from the originating organ or even regenerate the entire original organ. It is generally thought that adult stem cells are limited in their ability to differentiate based on their tissue of origin, but there is some evidence to suggest that they can differentiate to become other cell types.
Embryonic stem cells are derived from a four- or five-day-old human embryo that is in the blastocyst phase of development. The embryos are usually extras that have been created in IVF (in vitro fertilization) clinics where several eggs are fertilized in a test tube, but only one is implanted into a woman.
Sexual reproduction begins when a male's sperm fertilizes a female's ovum (egg) to form a single cell called a zygote. The single zygote cell then begins a series of divisions, forming 2, 4, 8, 16 cells, etc. After four to six days - before implantation in the uterus - this mass of cells is called a blastocyst. The blastocyst consists of an inner cell mass (embryoblast) and an outer cell mass (trophoblast). The outer cell mass becomes part of the placenta, and the inner cell mass is the group of cells that will differentiate to become all the structures of an adult organism. This latter mass is the source of embryonic stem cells - totipotent cells (cells with total potential to develop into any cell in the body).
In a normal pregnancy, the blastocyst stage continues until implantation of the embryo in the uterus, at which point the embryo is referred to as a fetus. This usually occurs by the end of the 10th week of gestation after all major organs of the body have been created.
However, when extracting embryonic stem cells, the blastocyst stage signals when to isolate stem cells by placing the "inner cell mass" of the blastocyst into a culture dish containing a nutrient-rich broth. Lacking the necessary stimulation to differentiate, they begin to divide and replicate while maintaining their ability to become any cell type in the human body. Eventually, these undifferentiated cells can be stimulated to create specialized cells.
Stem cells are either extracted from adult tissue or from a dividing zygote in a culture dish. Once extracted, scientists place the cells in a controlled culture that prohibits them from further specializing or differentiating but usually allows them to divide and replicate. The process of growing large numbers of embryonic stem cells has been easier than growing large numbers of adult stem cells, but progress is being made for both cell types.
Once stem cells have been allowed to divide and propagate in a controlled culture, the collection of healthy, dividing, and undifferentiated cells is called a stem cell line. These stem cell lines are subsequently managed and shared among researchers. Once under control, the stem cells can be stimulated to specialize as directed by a researcher - a process known as directed differentiation. Embryonic stem cells are able to differentiate into more cell types than adult stem cells.
Stem cells are categorized by their potential to differentiate into other types of cells. Embryonic stem cells are the most potent since they must become every type of cell in the body. The full classification includes:
Embryonic stem cells are considered pluripotent instead of totipotent because they do not have the ability to become part of the extra-embryonic membranes or the placenta.
A video on how stem cells work and develop.
Although there is not complete agreement among scientists of how to identify stem cells, most tests are based on making sure that stem cells are undifferentiated and capable of self-renewal. Tests are often conducted in the laboratory to check for these properties.
One way to identify stem cells in a lab, and the standard procedure for testing bone marrow or hematopoietic stem cell (HSC), is by transplanting one cell to save an individual without HSCs. If the stem cell produces new blood and immune cells, it demonstrates its potency.
Clonogenic assays (a laboratory procedure) can also be employed in vitro to test whether single cells can differentiate and self-renew. Researchers may also inspect cells under a microscope to see if they are healthy and undifferentiated or they may examine chromosomes.
To test whether human embryonic stem cells are pluripotent, scientists allow the cells to differentiate spontaneously in cell culture, manipulate the cells so they will differentiate to form specific cell types, or inject the cells into an immunosuppressed mouse to test for the formation of a teratoma (a benign tumor containing a mixture of differentiated cells).
Scientists and researchers are interested in stem cells for several reasons. Although stem cells do not serve any one function, many have the capacity to serve any function after they are instructed to specialize. Every cell in the body, for example, is derived from first few stem cells formed in the early stages of embryological development. Therefore, stem cells extracted from embryos can be induced to become any desired cell type. This property makes stem cells powerful enough to regenerate damaged tissue under the right conditions.
Tissue regeneration is probably the most important possible application of stem cell research. Currently, organs must be donated and transplanted, but the demand for organs far exceeds supply. Stem cells could potentially be used to grow a particular type of tissue or organ if directed to differentiate in a certain way. Stem cells that lie just beneath the skin, for example, have been used to engineer new skin tissue that can be grafted on to burn victims.
A team of researchers from Massachusetts General Hospital reported in PNAS Early Edition (July 2013 issue) that they were able to create blood vessels in laboratory mice using human stem cells.
The scientists extracted vascular precursor cells derived from human-induced pluripotent stem cells from one group of adults with type 1 diabetes as well as from another group of healthy adults. They were then implanted onto the surface of the brains of the mice.
Within two weeks of implanting the stem cells, networks of blood-perfused vessels had been formed - they lasted for 280 days. These new blood vessels were as good as the adjacent natural ones.
The authors explained that using stem cells to repair or regenerate blood vessels could eventually help treat human patients with cardiovascular and vascular diseases.
Additionally, replacement cells and tissues may be used to treat brain disease such as Parkinson's and Alzheimer's by replenishing damaged tissue, bringing back the specialized brain cells that keep unneeded muscles from moving. Embryonic stem cells have recently been directed to differentiate into these types of cells, and so treatments are promising.
Healthy heart cells developed in a laboratory may one day be transplanted into patients with heart disease, repopulating the heart with healthy tissue. Similarly, people with type I diabetes may receive pancreatic cells to replace the insulin-producing cells that have been lost or destroyed by the patient's own immune system. The only current therapy is a pancreatic transplant, and it is unlikely to occur due to a small supply of pancreases available for transplant.
Adult hematopoietic stem cells found in blood and bone marrow have been used for years to treat diseases such as leukemia, sickle cell anemia, and other immunodeficiencies. These cells are capable of producing all blood cell types, such as red blood cells that carry oxygen to white blood cells that fight disease. Difficulties arise in the extraction of these cells through the use of invasive bone marrow transplants. However hematopoietic stem cells have also been found in the umbilical cord and placenta. This has led some scientists to call for an umbilical cord blood bank to make these powerful cells more easily obtainable and to decrease the chances of a body's rejecting therapy.
Another reason why stem cell research is being pursued is to develop new drugs. Scientists could measure a drug's effect on healthy, normal tissue by testing the drug on tissue grown from stem cells rather than testing the drug on human volunteers.
The debates surrounding stem cell research primarily are driven by methods concerning embryonic stem cell research. It was only in 1998 that researchers from the University of Wisconsin-Madison extracted the first human embryonic stem cells that were able to be kept alive in the laboratory. The main critique of this research is that it required the destruction of a human blastocyst. That is, a fertilized egg was not given the chance to develop into a fully-developed human.
The core of this debate - similar to debates about abortion, for example - centers on the question, "When does life begin?" Many assert that life begins at conception, when the egg is fertilized. It is often argued that the embryo deserves the same status as any other full grown human. Therefore, destroying it (removing the blastocyst to extract stem cells) is akin to murder. Others, in contrast, have identified different points in gestational development that mark the beginning of life - after the development of certain organs or after a certain time period.
People also take issue with the creation of chimeras. A chimera is an organism that has both human and animal cells or tissues. Often in stem cell research, human cells are inserted into animals (like mice or rats) and allowed to develop. This creates the opportunity for researchers to see what happens when stem cells are implanted. Many people, however, object to the creation of an organism that is "part human".
The stem cell debate has risen to the highest level of courts in several countries. Production of embryonic stem cell lines is illegal in Austria, Denmark, France, Germany, and Ireland, but permitted in Finland, Greece, the Netherlands, Sweden, and the UK. In the United States, it is not illegal to work with or create embryonic stem cell lines. However, the debate in the US is about funding, and it is in fact illegal for federal funds to be used to research stem cell lines that were created after August 2001.
Medical News Today is a leading resource for the latest headlines on stem cell research. So, check out our stem cell research news section. You can also sign up to our weekly or daily newsletters to ensure that you stay up-to-date with the latest news.
This stem cells information section was written by Peter Crosta for Medical News Today in September 2008 and was last updated on 19 July 2013. The contents may not be re-produced in any way without the permission of Medical News Today.
Disclaimer: This informational section on Medical News Today is regularly reviewed and updated, and provided for general information purposes only. The materials contained within this guide do not constitute medical or pharmaceutical advice, which should be sought from qualified medical and pharmaceutical advisers.
Please note that although you may feel free to cite and quote this article, it may not be re-produced in full without the permission of Medical News Today. For further details, please view our full terms of use
MediLexicon International Ltd
See original here:
What are Stem Cells? - Medical News Today - Health News
- Politics of Stem Cell Research [Last Updated On: May 7th, 2011] [Originally Added On: May 7th, 2011]
- Obama Ends Funding Ban for Stem Cell Research [Last Updated On: May 8th, 2011] [Originally Added On: May 8th, 2011]
- Stem Cell Research: A Father's Fight [Last Updated On: May 10th, 2011] [Originally Added On: May 10th, 2011]
- Human Embryonic stem cell research [Last Updated On: May 11th, 2011] [Originally Added On: May 11th, 2011]
- Frost Over The World - Stem Cell Research and Turkey -26 Oct [Last Updated On: May 20th, 2011] [Originally Added On: May 20th, 2011]
- McCain Favors Embryonic Stem Cell Research [Last Updated On: May 20th, 2011] [Originally Added On: May 20th, 2011]
- US divided over stem cell research reversal - 09 Mar 09 [Last Updated On: May 21st, 2011] [Originally Added On: May 21st, 2011]
- The Politics and Promise of Stem Cell Research [Last Updated On: May 22nd, 2011] [Originally Added On: May 22nd, 2011]
- Inside Story - Obama to end stem cell research ban - March 9 - Part1 [Last Updated On: May 30th, 2011] [Originally Added On: May 30th, 2011]
- Cardiovascular Therapies: Spotlight on Stem Cell Research - Douglas Boyd [Last Updated On: June 3rd, 2011] [Originally Added On: June 3rd, 2011]
- The Human Embryo and Embryonic Stem Cell Biology: Spotlight on Stem Cell Research [Last Updated On: June 3rd, 2011] [Originally Added On: June 3rd, 2011]
- US appeals court lifts stem cell research ban [Last Updated On: June 7th, 2011] [Originally Added On: June 7th, 2011]
- Trailer for Mapping Stem Cell Research: Terra Incognita [Last Updated On: June 9th, 2011] [Originally Added On: June 9th, 2011]
- Politics: President Obama on Stem Cell Research [Last Updated On: June 10th, 2011] [Originally Added On: June 10th, 2011]
- Stem Cell Research Documentary [Last Updated On: June 11th, 2011] [Originally Added On: June 11th, 2011]
- TEDxSingapore - Susan Lim - Hype and hope of stem cell research [Last Updated On: June 13th, 2011] [Originally Added On: June 13th, 2011]
- Lou Gehrig's Disease (ALS): Spotlight on Stem Cell Research - Wrapup [Last Updated On: June 14th, 2011] [Originally Added On: June 14th, 2011]
- The Next Frontier in Stem Cell Research [Last Updated On: June 17th, 2011] [Originally Added On: June 17th, 2011]
- Robert Klein: Stem Cell Research [Last Updated On: June 22nd, 2011] [Originally Added On: June 22nd, 2011]
- Fibrocell Stem-Cell Wrinkle Smoother Wins FDA Clearance [Last Updated On: June 23rd, 2011] [Originally Added On: June 23rd, 2011]
- The Politics of Stem Cell Research [Last Updated On: June 23rd, 2011] [Originally Added On: June 23rd, 2011]
- A Dose of Reality on Alternative Stem Cell Treatments: What you don't know can hurt you [Last Updated On: June 28th, 2011] [Originally Added On: June 28th, 2011]
- Governor Tim Pawlenty Discusses Stem Cell Research [Last Updated On: June 30th, 2011] [Originally Added On: June 30th, 2011]
- The EU and stem cell research [Last Updated On: July 5th, 2011] [Originally Added On: July 5th, 2011]
- Parkinson's Disease: Spotlight on Stem Cell Research - Jeff Bronstein [Last Updated On: July 6th, 2011] [Originally Added On: July 6th, 2011]
- Cardiovascular Therapies: Spotlight on Stem Cell Research - Yung-Wei Chi [Last Updated On: July 7th, 2011] [Originally Added On: July 7th, 2011]
- Spotlight on Cancer Stem Cell Research [Last Updated On: July 11th, 2011] [Originally Added On: July 11th, 2011]
- A Stem Cell Story [Last Updated On: July 12th, 2011] [Originally Added On: July 12th, 2011]
- Bishop Blair bars support for Komen breast cancer group [Last Updated On: July 13th, 2011] [Originally Added On: July 13th, 2011]
- Stem Cell Research In Toronto [Last Updated On: July 14th, 2011] [Originally Added On: July 14th, 2011]
- Arthritis: Spotlight on Stem Cell Research - Introduction [Last Updated On: July 14th, 2011] [Originally Added On: July 14th, 2011]
- Huntington's Disease: Spotlight on Stem Cell Research 2007 - Han Keirstead [Last Updated On: July 15th, 2011] [Originally Added On: July 15th, 2011]
- TMconfUK2011-08 - Stem Cell Research in the UK - Prof Charles Ffrench-Constant [Last Updated On: July 16th, 2011] [Originally Added On: July 16th, 2011]
- UCSF opens stem cell research building [Last Updated On: July 16th, 2011] [Originally Added On: July 16th, 2011]
- HIV/AIDS: Spotlight on Stem Cell Research - John Zaia [Last Updated On: July 17th, 2011] [Originally Added On: July 17th, 2011]
- Deafness: Spotlight on Stem Cell Research - Ebenezer Yamoah [Last Updated On: July 22nd, 2011] [Originally Added On: July 22nd, 2011]
- Spotlight on Basic Stem Cell Research - Irv Weissman [Last Updated On: July 25th, 2011] [Originally Added On: July 25th, 2011]
- Diabetes: Spotlight on Stem Cell Research - Peter Butler [Last Updated On: July 27th, 2011] [Originally Added On: July 27th, 2011]
- Parkinson's Disease: Spotlight on Stem Cell Research - Arnold Kriegstein [Last Updated On: July 27th, 2011] [Originally Added On: July 27th, 2011]
- HIV/AIDS: Spotlight on Stem Cell Research - Loren Leeds [Last Updated On: July 27th, 2011] [Originally Added On: July 27th, 2011]
- Alzheimer's Disease: Spotlight on Stem Cell Research - Leeza Gibbons [Last Updated On: August 2nd, 2011] [Originally Added On: August 2nd, 2011]
- Geron's Embryonic Stem Cell Clinical Trial for Spinal Cord Injury [Last Updated On: August 3rd, 2011] [Originally Added On: August 3rd, 2011]
- The Skin Gun stem cell research [Last Updated On: August 10th, 2011] [Originally Added On: August 10th, 2011]
- Deafness: Spotlight on Stem Cell Research - Karen Doyle [Last Updated On: August 10th, 2011] [Originally Added On: August 10th, 2011]
- Stem Cell Research: Huntington's Disease [Last Updated On: August 14th, 2011] [Originally Added On: August 14th, 2011]
- Adult and Non-Embryonic Stem Cell Research Conference at Notre Dame [Last Updated On: August 20th, 2011] [Originally Added On: August 20th, 2011]
- Stemcell Research and Aging - Panel 1 [Last Updated On: August 22nd, 2011] [Originally Added On: August 22nd, 2011]
- Texans for Stem Cell Research Learn for Life: KXAN Coverage Aired August 16th, 2011 [Last Updated On: August 24th, 2011] [Originally Added On: August 24th, 2011]
- Stem Cell Research: Macular Degeneration [Last Updated On: September 18th, 2011] [Originally Added On: September 18th, 2011]
- Brilliant Minds - Stem Cell Research | Tomorrow Today [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Ethics of Stem Cell Research (1) [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- Legal and Public Policy Dimensions of Stem Cell Research [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- Stem cell symposium [Last Updated On: October 2nd, 2011] [Originally Added On: October 2nd, 2011]
- StemCONN 2011, The Latest in Stem Cell Research [Last Updated On: October 6th, 2011] [Originally Added On: October 6th, 2011]
- Arthritis: Spotlight on Stem Cell Research - Mark Genovese [Last Updated On: October 7th, 2011] [Originally Added On: October 7th, 2011]
- Judy Roberson: Patient advocates drive stem cell scientists [Last Updated On: October 8th, 2011] [Originally Added On: October 8th, 2011]
- Sam Harris - Stem Cells and Morality [Last Updated On: October 8th, 2011] [Originally Added On: October 8th, 2011]
- Stem Cell Research, Ethics and Religion [Last Updated On: October 9th, 2011] [Originally Added On: October 9th, 2011]
- Stem Cells: Fulfilling the Promise - 2011 CIRM Grantee Meeting [Last Updated On: October 10th, 2011] [Originally Added On: October 10th, 2011]
- The Skin Gun (Stem Cell research to replace burnt off skin. Done in 3 days!) [Last Updated On: October 13th, 2011] [Originally Added On: October 13th, 2011]
- Alzheimer's Stem Cell Research Patient Advocate Spotlight: The Faces of Neurodegenerative Disease - Video [Last Updated On: October 18th, 2011] [Originally Added On: October 18th, 2011]
- Life in the Balance: Perspectives on Stem Cell Research - Video [Last Updated On: October 18th, 2011] [Originally Added On: October 18th, 2011]
- Stem Cell Research Funding Halt - Video [Last Updated On: October 19th, 2011] [Originally Added On: October 19th, 2011]
- Vatican lending hand in adult stem cell research - Video [Last Updated On: October 20th, 2011] [Originally Added On: October 20th, 2011]
- First Spinal-Cord Surgery With Stem Cells - Video [Last Updated On: October 21st, 2011] [Originally Added On: October 21st, 2011]
- Michael J. Fox Embryonic Stem Cell Research - Video [Last Updated On: October 22nd, 2011] [Originally Added On: October 22nd, 2011]
- stem cell research - Video [Last Updated On: October 22nd, 2011] [Originally Added On: October 22nd, 2011]
- Gayle Atteberry - Cloning [Last Updated On: November 5th, 2011] [Originally Added On: November 5th, 2011]
- It Takes Nerve: UC Irvine - Sue [Last Updated On: November 6th, 2011] [Originally Added On: November 6th, 2011]
- Embryonic Stem Cell Research - Video [Last Updated On: November 9th, 2011] [Originally Added On: November 9th, 2011]
- Adult Stem Cell Research Far Ahead of Embryonic - Video [Last Updated On: November 10th, 2011] [Originally Added On: November 10th, 2011]
- Is stem cell research a growing concern .flv - Video [Last Updated On: November 10th, 2011] [Originally Added On: November 10th, 2011]
- Forbes Discusses Stem Cell Research - Video [Last Updated On: November 14th, 2011] [Originally Added On: November 14th, 2011]
- Stem Cell Research Presentation - Video [Last Updated On: November 16th, 2011] [Originally Added On: November 16th, 2011]
- Benedict XVI: No embryonic stem cell research - Video [Last Updated On: November 28th, 2011] [Originally Added On: November 28th, 2011]
- Batten Disease: Spotlight on Stem Cell Research - A Father's Story - Video [Last Updated On: November 30th, 2011] [Originally Added On: November 30th, 2011]
- CIS 111 Digital Media Project - Stem Cell Research - Video [Last Updated On: December 13th, 2011] [Originally Added On: December 13th, 2011]
- Regenerative Medicine and Applications of Stem Cell Research - Video [Last Updated On: December 20th, 2011] [Originally Added On: December 20th, 2011]
- Stem Cell Research Today: Larry Goldstein - CIRM Science Writer's Seminar - Video [Last Updated On: December 22nd, 2011] [Originally Added On: December 22nd, 2011]
- CIRM Bridges Award: Building California's Stem Cell Research Workforce - Video [Last Updated On: December 22nd, 2011] [Originally Added On: December 22nd, 2011]