Stem Cell Basics VII. | stemcells.nih.gov
Posted: April 28, 2019 at 12:52 am
There are many ways in which human stem cells can be used in research and the clinic. Studies of human embryonic stem cells will yield information about the complex events that occur during human development. A primary goal of this work is to identify how undifferentiated stem cells become the differentiated cells that form the tissues and organs. Scientists know that turning genes on and off is central to this process. Some of the most serious medical conditions, such as cancer and birth defects, are due to abnormal cell division and differentiation. A more complete understanding of the genetic and molecular controls of these processes may yield information about how such diseases arise and suggest new strategies for therapy. Predictably controlling cell proliferation and differentiation requires additional basic research on the molecular and genetic signals that regulate cell division and specialization. While recent developments with iPS cells suggest some of the specific factors that may be involved, techniques must be devised to introduce these factors safely into the cells and control the processes that are induced by these factors.
Human stem cells are currently being used to test new drugs. New medications are tested for safety on differentiated cells generated from human pluripotent cell lines. Other kinds of cell lines have a long history of being used in this way. Cancer cell lines, for example, are used to screen potential anti-tumor drugs. The availability of pluripotent stem cells would allow drug testing in a wider range of cell types. However, to screen drugs effectively, the conditions must be identical when comparing different drugs. Therefore, scientists must be able to precisely control the differentiation of stem cells into the specific cell type on which drugs will be tested. For some cell types and tissues, current knowledge of the signals controlling differentiation falls short of being able to mimic these conditions precisely to generate pure populations of differentiated cells for each drug being tested.
Perhaps the most important potential application of human stem cells is the generation of cells and tissues that could be used for cell-based therapies. Today, donated organs and tissues are often used to replace ailing or destroyed tissue, but the need for transplantable tissues and organs far outweighs the available supply. Stem cells, directed to differentiate into specific cell types, offer the possibility of a renewable source of replacement cells and tissues to treat diseases including maculardegeneration, spinal cord injury, stroke, burns, heart disease, diabetes, osteoarthritis, and rheumatoid arthritis.
Figure 3. Strategies to repair heart muscle with adult stem cells. Click here for larger image.
2008 Terese Winslow
For example, it may become possible to generate healthy heart muscle cells in the laboratory and then transplant those cells into patients with chronic heart disease. Preliminary research in mice and other animals indicates that bone marrow stromal cells, transplanted into a damaged heart, can have beneficial effects. Whether these cells can generate heart muscle cells or stimulate the growth of new blood vessels that repopulate the heart tissue, or help via some other mechanism is actively under investigation. For example, injected cells may accomplish repair by secreting growth factors, rather than actually incorporating into the heart. Promising results from animal studies have served as the basis for a small number of exploratory studies in humans (for discussion, see call-out box, "Can Stem Cells Mend a Broken Heart?"). Other recent studies in cell culture systems indicate that it may be possible to direct the differentiation of embryonic stem cells or adult bone marrow cells into heart muscle cells (Figure 3).
Cardiovascular disease (CVD), which includes hypertension, coronary heart disease, stroke, and congestive heart failure, has ranked as the number one cause of death in the United States every year since 1900 except 1918, when the nation struggled with an influenza epidemic. Nearly 2,600 Americans die of CVD each day, roughly one person every 34 seconds. Given the aging of the population and the relatively dramatic recent increases in the prevalence of cardiovascular risk factors such as obesity and type 2 diabetes, CVD will be a significant health concern well into the 21st century.
Cardiovascular disease can deprive heart tissue of oxygen, thereby killing cardiac muscle cells (cardiomyocytes). This loss triggers a cascade of detrimental events, including formation of scar tissue, an overload of blood flow and pressure capacity, the overstretching of viable cardiac cells attempting to sustain cardiac output, leading to heart failure, and eventual death. Restoring damaged heart muscle tissue, through repair or regeneration, is therefore a potentially new strategy to treat heart failure.
The use of embryonic and adult-derived stem cells for cardiac repair is an active area of research. A number of stem cell types, including embryonic stem (ES) cells, cardiac stem cells that naturally reside within the heart, myoblasts (muscle stem cells), adult bone marrow-derived cells including mesenchymal cells (bone marrow-derived cells that give rise to tissues such as muscle, bone, tendons, ligaments, and adipose tissue), endothelial progenitor cells (cells that give rise to the endothelium, the interior lining of blood vessels), and umbilical cord blood cells, have been investigated as possible sources for regenerating damaged heart tissue. All have been explored in mouse or rat models, and some have been tested in larger animal models, such as pigs.
A few small studies have also been carried out in humans, usually in patients who are undergoing open-heart surgery. Several of these have demonstrated that stem cells that are injected into the circulation or directly into the injured heart tissue appear to improve cardiac function and/or induce the formation of new capillaries. The mechanism for this repair remains controversial, and the stem cells likely regenerate heart tissue through several pathways. However, the stem cell populations that have been tested in these experiments vary widely, as do the conditions of their purification and application. Although much more research is needed to assess the safety and improve the efficacy of this approach, these preliminary clinical experiments show how stem cells may one day be used to repair damaged heart tissue, thereby reducing the burden of cardiovascular disease.
In people who suffer from type1 diabetes, the cells of the pancreas that normally produce insulin are destroyed by the patient's own immune system. New studies indicate that it may be possible to direct the differentiation of human embryonic stem cells in cell culture to form insulin-producing cells that eventually could be used in transplantation therapy for persons with diabetes.
To realize the promise of novel cell-based therapies for such pervasive and debilitating diseases, scientists must be able to manipulate stem cells so that they possess the necessary characteristics for successful differentiation, transplantation, and engraftment. The following is a list of steps in successful cell-based treatments that scientists will have to learn to control to bring such treatments to the clinic. To be useful for transplant purposes, stem cells must be reproducibly made to:
Also, to avoid the problem of immune rejection, scientists are experimenting with different research strategies to generate tissues that will not be rejected.
To summarize, stem cells offer exciting promise for future therapies, but significant technical hurdles remain that will only be overcome through years of intensive research.
Previous|VII. What are the potential uses of human stem cells and the obstacles that must be overcome before these potential uses will be realized?|Next
Original post:
Stem Cell Basics VII. | stemcells.nih.gov
- The Beating Heart (Cardiac) Cells [Last Updated On: June 24th, 2011] [Originally Added On: June 24th, 2011]
- cellalign [Last Updated On: June 24th, 2011] [Originally Added On: June 24th, 2011]
- Okamoto placenta-derived cardiomyocytes [Last Updated On: June 25th, 2011] [Originally Added On: June 25th, 2011]
- Cardiac Stem Cell Therapy [Last Updated On: June 26th, 2011] [Originally Added On: June 26th, 2011]
- Wow! UW Research labs [Last Updated On: June 26th, 2011] [Originally Added On: June 26th, 2011]
- Cardiac Stem Cell Therapy [Last Updated On: June 28th, 2011] [Originally Added On: June 28th, 2011]
- cellalign [Last Updated On: July 3rd, 2011] [Originally Added On: July 3rd, 2011]
- Insidermedicine In 60 - August 4, 2011 [Last Updated On: August 25th, 2011] [Originally Added On: August 25th, 2011]
- Cardiac Stem Cells in End-Stage Human Failing Hearts: Are they functional? [Last Updated On: August 28th, 2011] [Originally Added On: August 28th, 2011]
- Did you have a Heart Attack and Need to Recover your Cardiac Muscle? [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Heart repair using own stem cells after heart attack: Future Health keynote speaker [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Cardiac Stem Cell Therapy at Rostock University [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Cardiovascular Therapies: Spotlight on Stem Cell Research - Douglas Boyd [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Davos Question: Stem Cell Answer [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Stem Cell operation in Cardiac Surgery-Al-Jazeerah [Last Updated On: September 6th, 2011] [Originally Added On: September 6th, 2011]
- Stem Cell Therapy in Cardiac Disease [Last Updated On: September 6th, 2011] [Originally Added On: September 6th, 2011]
- Designer Life: repair brain, heart with stem cells - Future Health keynote speaker [Last Updated On: September 7th, 2011] [Originally Added On: September 7th, 2011]
- Stem Cells: Mending a broken heart? [Last Updated On: September 7th, 2011] [Originally Added On: September 7th, 2011]
- Cardiac Stem Cells in End-Stage Human Failing Hearts: Are they functional? [Last Updated On: September 8th, 2011] [Originally Added On: September 8th, 2011]
- Oral Surgeon utilizes StemSave to preserve stem cells in wisdom teeth to combat cardiac disease [Last Updated On: September 9th, 2011] [Originally Added On: September 9th, 2011]
- Cardiac Recovery Points to Adult Stem Cells [Last Updated On: September 9th, 2011] [Originally Added On: September 9th, 2011]
- Oral Surgeon utilizes StemSave to preserve stem cells in wisdom teeth to combat cardiac disease [Last Updated On: September 10th, 2011] [Originally Added On: September 10th, 2011]
- Stem Cell operation in Cardiac Surgery-Al-Jazeerah [Last Updated On: September 10th, 2011] [Originally Added On: September 10th, 2011]
- Cardiovascular Derivatives of Embryonic Stem Cells in Cardiac Repair and Drug Discovery [Last Updated On: September 10th, 2011] [Originally Added On: September 10th, 2011]
- Stem Cell Therapy in Cardiac Disease [Last Updated On: September 11th, 2011] [Originally Added On: September 11th, 2011]
- Cardiovascular Derivatives of Embryonic Stem Cells in Cardiac Repair and Drug Discovery [Last Updated On: September 12th, 2011] [Originally Added On: September 12th, 2011]
- Stem Cells and Cardiac Regeneration [Last Updated On: September 12th, 2011] [Originally Added On: September 12th, 2011]
- Cardiomyogenic differentiation of Mesenchymal Stem cells (KUM2/9-15c) [Last Updated On: September 12th, 2011] [Originally Added On: September 12th, 2011]
- Mark Mercola: Differentiating embryonic stem cells into adult tissues [Last Updated On: September 15th, 2011] [Originally Added On: September 15th, 2011]
- Cardiovascular Therapies: Spotlight on Stem Cell Research - Douglas Boyd [Last Updated On: September 20th, 2011] [Originally Added On: September 20th, 2011]
- Stem Cell #8 Vas Cath Removal 04/28/11 [Last Updated On: September 20th, 2011] [Originally Added On: September 20th, 2011]
- Adult Stem Cells Used To Rebuild Heart Tissue Video. More at http://www.stemcellfusion.com [Last Updated On: September 20th, 2011] [Originally Added On: September 20th, 2011]
- Stem Cell Therapy and Stem Cell Treatment with Dell [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- First US Patient In Stem Cell Transplant [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Stem Cell Heart Surgery must see [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Beating cardiac myocytes from differentiated mouse iPSC. [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- heart cell generation from human ES and iPS cells (embryonic and induced pluripotent stem cells).flv [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Advanced Cell Technology OneMedForum 2011 [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- 20100804_axiogenesis.wmv [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Pt. 1--Dr. Ali Denktas--Stem Cells as Markers after Myocardial Infarctions [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Cardiac Tissue Can Regenerate [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Adult Stem Cell [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Beating cardiomyocyte monolayer [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Valentine's Day Stem Cell Wish: Mending Broken Hearts [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Cardiomyocytes derived from mouse Embryonic stem cells [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- UCD Med Student Receives Fulbright Award [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- Mouse GEN cells overexpressing Csx/Nkx2.5 and GATA4 behave like transient amplifying cells [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- 2010 - 2011 UConn Highlight Reel [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- William F. Testimonial of Treatment Stem Cell [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- BeatingCM_on_MEA.wmv [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- Breakthrough in Stem cell technology [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- stem cell derived cardiomyocytes [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Mark Mercola: Differentiating embryonic stem cells into adult tissues [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Cadiomyogenesis of human mesenchymal stem cells [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Adult Stem Cell vs Embryonic Stem Cell Research Ethics Video [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Heart Failure Patient After Adult Stem Cell Therapy [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Affordable Stem Cell Therapy in Guatemala (2hrs from Miami) [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Kevin's 2 Heart Transplants and Stem Cell Transplant [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Immune Control of Stem Cell Mobilization [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Patel Stem Cell Heart Failure [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Better Drugs Through Stem Cells [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Heart Disease Patient Describes His Stem Cell Treatment [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Turning Adult Stem Cells into Medicine - Zannos Grekos, MD [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Cardiomyocytic differentiation of endometrial stem cells. [Last Updated On: September 26th, 2011] [Originally Added On: September 26th, 2011]
- Turning Adult Stem Cells into Medicine - Zannos Grekos, MD [Last Updated On: September 26th, 2011] [Originally Added On: September 26th, 2011]
- Stem Cells: Heart cells grown from mouse stem cells [Last Updated On: September 26th, 2011] [Originally Added On: September 26th, 2011]
- Beating cells [Last Updated On: September 28th, 2011] [Originally Added On: September 28th, 2011]
- Repairing Damaged Hearts with Stem Cells [Last Updated On: September 28th, 2011] [Originally Added On: September 28th, 2011]
- Heart cells grown from human embryonic stem cells [Last Updated On: September 28th, 2011] [Originally Added On: September 28th, 2011]
- CytoTune iPSCs - Cardiomyocytes [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- Becoming Bionic: The Little Book of Hope for Heart Patients Runblog ("Dress the Part") [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- H9 Cardiac EBs.mov [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- Beating Cardiomyocytes from E14 Cells [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- Human 2.0: The Helix of Our Future [Last Updated On: September 30th, 2011] [Originally Added On: September 30th, 2011]
- Beating Human Heart Cells from Embryonic Stem Cells [Last Updated On: October 1st, 2011] [Originally Added On: October 1st, 2011]
- Be still my beating stem cell heart [Last Updated On: October 1st, 2011] [Originally Added On: October 1st, 2011]
- Doctors To Use 'Trained' Stem Cells To Heal Heart [Last Updated On: October 2nd, 2011] [Originally Added On: October 2nd, 2011]
- Spontaneously and rhythmically beating engineered human heart tissue from pluripotent stem cells [Last Updated On: October 3rd, 2011] [Originally Added On: October 3rd, 2011]
- Cardiac Stem Cell Therapy - How it works [Last Updated On: October 4th, 2011] [Originally Added On: October 4th, 2011]
- Doctors To Use 'Trained' Stem Cells To Heal Heart [Last Updated On: October 4th, 2011] [Originally Added On: October 4th, 2011]