 |
|
Mass. General researchers identify master cardiac stem cell
November 27, 2006Progenitors develop into three types of heart cells, could be ideal for regenerative studies
Researchers from the Massachusetts General Hospital (MGH) Cardiovascular Research Center have discovered what appears to be a master cardiac stem cell, capable of differentiating into the three major types of cells that make up the mammalian heart. In their report appearing in the Dec. 15 issue of the journal Cell and receiving early online release, the scientists describe identifying these progenitor cells in mice, cloning single cells from embryonic stem cells, and showing that these cloned cells can differentiate into cardiac muscle, smooth muscle or endothelial cells.
"These cells offer new prospects for drug discovery and genetically based models of human disease. They also give us a new paradigm for cardiac development, in which a single multipotent cell can diversify into both muscle and endothelial lineages," says Kenneth R. Chien, MD, director of the MGH Cardiovascular Research Center (CVRC) and senior author of the Cell paper. "They additionally suggest a novel strategy for the regeneration of cardiac muscle, coronary arterial and pacemaker cells." Chien also leads the cardiovascular program at the Harvard Stem Cell Institute, one of the study's supporters.
Several populations of embryonic cells that develop into the heart and associated structures have previously been indentified. It has been thought that the three types of cells that make up the heart itself - the contracting cardiac muscle cells and the smooth muscle and endothelial cells that make up blood vessels - all develop from different cellular progenitors. Two major groups of cardiac muscle progenitors, called the first and second field, have been identified.
In 2005, Chien's team, then at the University of California at San Diego, described finding a group of cardiac muscle progenitors called isl1+ cells in heart tissue from newborn rats, mice and humans. The islet-1 protein, for which isl1+ progenitors are named, is known to be expressed in cells from the second cardiac field, which generate the structures on the right side of the heart. The current study was designed to investigate whether islet-1 expressing cells give rise to more than just cardiac muscle cells.
In a variety of experiments, the researchers first identified a small population of embryonic islet-1-expressing cells that can develop into working cardiac muscle, smooth muscle, pacemaker cells and the endothelial cells lining the major vessels of the heart and the coronary arteries. Starting with embryonic stem cells from mice, they were able to generate these multipotent embryonic isl1+ progenitor cells (MIPCs) - the parental cells that give rise to the postnatal progenitor cells identified in the 2005 study - and to clone and expand their population in vitro.
The team's in vivo study of mouse embryos found within primitive cardiac tissues a small group of cells expressing islet-1 and two other important proteins called Nkx2.5 and flk1. The researchers cultured and cloned those cells and found they could differentiate into all three cardiac cells types, verifying that they were MIPCs. Expression of the Nkx2.5 and flk1 genes seems to play a role in the process by which the cells 'decide' their developmental fate.
"We think these are authentic cardiac stem cells that are responsible for forming the diverse cell types of the heart, although other cells also contribute to some structures," says Chien. "These MIPCs may be excellent candidates for cardiac muscle regeneration studies, without the risk of tumor formation posed by embryonic stem cells or the limited effectiveness seen in studies using other cell types.
"It now appears that cardiac cells develop in the same way that blood cells do, with a master stem cell giving rise to the entire range of cells. The search is now on for the hormones that trigger expansion of MIPCs, which would be analogous to the factors that drive blood formation.\\\
Massachusetts General Hospital
Several populations of embryonic cells that develop into the heart and associated structures have previously been indentified. It has been thought that the three types of cells that make up the heart itself - the contracting cardiac muscle cells and the smooth muscle and endothelial cells that make up blood vessels - all develop from different cellular progenitors. Two major groups of cardiac muscle progenitors, called the first and second field, have been identified.
In 2005, Chien's team, then at the University of California at San Diego, described finding a group of cardiac muscle progenitors called isl1+ cells in heart tissue from newborn rats, mice and humans. The islet-1 protein, for which isl1+ progenitors are named, is known to be expressed in cells from the second cardiac field, which generate the structures on the right side of the heart. The current study was designed to investigate whether islet-1 expressing cells give rise to more than just cardiac muscle cells.
In a variety of experiments, the researchers first identified a small population of embryonic islet-1-expressing cells that can develop into working cardiac muscle, smooth muscle, pacemaker cells and the endothelial cells lining the major vessels of the heart and the coronary arteries. Starting with embryonic stem cells from mice, they were able to generate these multipotent embryonic isl1+ progenitor cells (MIPCs) - the parental cells that give rise to the postnatal progenitor cells identified in the 2005 study - and to clone and expand their population in vitro.
The team's in vivo study of mouse embryos found within primitive cardiac tissues a small group of cells expressing islet-1 and two other important proteins called Nkx2.5 and flk1. The researchers cultured and cloned those cells and found they could differentiate into all three cardiac cells types, verifying that they were MIPCs. Expression of the Nkx2.5 and flk1 genes seems to play a role in the process by which the cells 'decide' their developmental fate.
"We think these are authentic cardiac stem cells that are responsible for forming the diverse cell types of the heart, although other cells also contribute to some structures," says Chien. "These MIPCs may be excellent candidates for cardiac muscle regeneration studies, without the risk of tumor formation posed by embryonic stem cells or the limited effectiveness seen in studies using other cell types.
"It now appears that cardiac cells develop in the same way that blood cells do, with a master stem cell giving rise to the entire range of cells. The search is now on for the hormones that trigger expansion of MIPCs, which would be analogous to the factors that drive blood formation.\\\
Massachusetts General Hospital
Cardiac Stem Cell Current Events and Cardiac Stem Cell News RSSEarly heart attack therapy with bone marrow extract improves cardiac function
A UCSF study for the treatment of heart failure after heart attack found that the extract derived from bone marrow cells is as effective as therapy using bone marrow stem cells for improving cardiac function, decreasing the formation of scar tissue and improving cardiac pumping capacity after heart attack.
Limbs saved by menstrual blood stem cells
Cells obtained from menstrual blood, termed 'endometrial regenerative cells' (ERCs) are capable of restoring blood flow in an animal model of advanced peripheral artery disease.
New source of heart stem cells discovered
Researchers at Children's Hospital Boston are continuing to document the heart's earliest origins. Now, they have pinpointed a new, previously unrecognized group of stem cells that give rise to cardiomyocytes, or heart muscle cells.
PET and Bioluminescent Imaging Aid Evaluation of Stem Cells' Potential for New Ways to Treat Disease
Using positron emission tomography (PET) imaging with bioluminescence-the light produced by a chemical reaction within an organism-researchers are starting to understand the behavior of transplanted or implanted stem cells that may one day be used to develop new treatments for disease.
Discovery of cardiac stem cells may advance regenerative heart therapy
An immediate early publication of the journal Cell, published by Cell Press, on Nov. 22, 2006 points to the possible existence of master cardiac stem cells with the capacity to produce all three major tissues of the mammalian heart.
Potential heart benefit found in stem cells
Stem cell transplantation is among one of the most exciting and hotly debated areas of medical research today.
Gladstone researchers hone in on differentiation of heart stem cells
A team of scientists from the Gladstone Institute of Cardiovascular Disease (GICD) has identified a key factor in heart development that could help advance gene therapy for treating cardiac disorders.
More Cardiac Stem Cell Current Events and Cardiac Stem Cell News Articles
 |
Handbook Of Cardiac Stem Cell Therapy by Ioannis Dimarakis (Author) This book is an impressive compilation of contributions on the hot topic of cardiac stem cell therapy from leading groups all over the world. In the assembly of chapters, a structured approach is adopted; starting from the clinician's perspective, all developments in both the experimental and clinical research areas are covered. This journey will take the reader from the bench-top to the bedside, with all chapters written by leading authorities in their respective fields, including data still in press with medical journals. So, beyond being excellent as an overall update for scientists in the field of cardiac stem cell therapy, this book will likely prove an indispensable tool for every budding scientist considering a research project within this field. Contents: The... |
|
Bone marrow cells may help with variety of cardiac treatments: the use of bone marrow stem cells to repair damaged tissue helps the heart grow new blood ... An article from: Heart Advisor by Unavailable (Author) This digital document is an article from Heart Advisor, published by Belvoir Media Group, LLC on September 1, 2009. The length of the article is 687 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available immediately after purchase. You can view it with any web browser. Citation Details Title: Bone marrow cells may help with variety of cardiac treatments: the use of bone marrow stem cells to repair damaged tissue helps the heart grow new blood vessels.(BREAKTHROUGHS) Author: Unavailable Publication: Heart Advisor (Magazine/Journal) Date: September 1, 2009 Publisher: Belvoir Media Group, LLC Volume: 12 Issue: 9 Page: 3(1) Distributed by Gale, a part of Cengage... | |
|
Embryonic stem cells transformed into insulin-producing cells and cardiac tissue, Israeli researchers report.: An article from: Transplant News by Transplant Communications, Inc. (Publisher) This digital document is an article from Transplant News, published by Transplant Communications, Inc. on August 17, 2001. The length of the article is 692 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Embryonic stem cells transformed into insulin-producing cells and cardiac tissue, Israeli researchers report. Publication: Transplant News (Newsletter) Date: August 17, 2001 Publisher: Transplant Communications, Inc. Volume: 11 Issue: 15 Page: NA Distributed by Thomson... | |
 |
Stem Cell Technologies: Basics and Applications by Satish Totey (Author), Kaushik Deb (Author) Thorough coverage of the basics of stem cell technologies and applications Stem cell-based therapies, also known as cell replacement therapies or regenerative medicine, provide the means to cure a host of diseases and disorders. Featuring 28 contributions from prestigious global experts, this book details the basics of stem cell biology and explores therapeutic and medical treatments stem cells can offer. The book covers embryonic and adult stem cells and includes a 32-page color insert with 70 color figures. |
|
Advanced heart failure patients significantly improved after being injected with fetal stem cells.: An article from: Transplant News by Transplant Communications, Inc. (Publisher) This digital document is an article from Transplant News, published by Transplant Communications, Inc. on June 10, 2005. The length of the article is 436 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Advanced heart failure patients significantly improved after being injected with fetal stem cells. Publication: Transplant News (Newsletter) Date: June 10, 2005 Publisher: Transplant Communications, Inc. Volume: 15 Issue: 11 Distributed by Thomson... | |
 |
Stem Cell and Gene-Based Therapy: Frontiers in Regenerative Medicine by Alexander Battler (Editor), Jonathan Leor (Editor) The inability of the human body to be able significantly to self repair injured organs and tissues results in a considerable medical and social problem. During the last few years there has been incredible progress, and the achievements in experimental strategies for tissue regeneration, particularly in cell transplantation and stem cell research, have led to potential treatment options for many otherwise fatal conditions. These innovations hold promise for treating or preventing end-stage organ failure; cell therapy and tissue engineering of viable grafts with the potential to grow and remodel could provide prospective new solutions to the serious problems of organ donor shortage. Regenerative medicine – stem cell and gene-based therapy – offers a new approach for restoring... |
|
FDA approves UPMC trial treating congestive heart failure with patient's own bone marrow-derived stem cells.(Food and Drug Administration)(University of ... Center): An article from: Transplant News by Transplant Communications, Inc. (Publisher) This digital document is an article from Transplant News, published by Transplant Communications, Inc. on May 23, 2005. The length of the article is 488 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: FDA approves UPMC trial treating congestive heart failure with patient's own bone marrow-derived stem cells.(Food and Drug Administration)(University of Pittsburgh Medical Center) Publication: Transplant News (Newsletter) Date: May 23, 2005 Publisher: Transplant Communications, Inc. Volume: 15 Issue: 10 Distributed by Thomson... | |
|
Fetal stem cells reported to boost failing hearts: a small pilot study in Ecuador finds benefits in patients with nonischemic dilated cardiomyopathy.(Cardiovascular ... An article from: Internal Medicine News by Mitchel L. Zoler (Author) This digital document is an article from Internal Medicine News, published by Thomson Gale on October 1, 2005. The length of the article is 536 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Fetal stem cells reported to boost failing hearts: a small pilot study in Ecuador finds benefits in patients with nonischemic dilated cardiomyopathy.(Cardiovascular Medicine) Author: Mitchel L. Zoler Publication: Internal Medicine News (Magazine/Journal) Date: October 1, 2005 Publisher: Thomson Gale Volume: 38 Issue: 19 Page: 64(1) Distributed by Thomson... | |
|
Cell Cycle Regulation and Differentiation in Cardiovascular and Neural Systems by Antonio Giordano (Editor), Umberto Galderisi (Editor) Complex physiopathological relationships have been proven to exist between two of the body’s most vital organs; the brain and the heart. In Cell Cycle Regulation and Differentiation in Cardiovascular and Neural Systems Antonio Giordano, Umberto Galderisi and a panel of the most respected authorities in their field offer an in-depth analysis of the differentiation process in two systems that have profound relationships with one another. The text looks at several aspects of the cardiovascular and nervous systems from a new point of view, describing the differences and similarities in their differentiation pathways with an emphasis on the role of cell cycle regulation and cell differentiation. Topics discussed include neurogenesis in the central nervous system, neural stem cells, and... | |
|
Stem cells rally help for hearts: preliminary studies show that genetic engineering boosts cardiac healing.(FROM THE FRONTIER): An article from: Heart Advisor by Gale Reference Team (Author) This digital document is an article from Heart Advisor, published by Thomson Gale on February 1, 2007. The length of the article is 553 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Stem cells rally help for hearts: preliminary studies show that genetic engineering boosts cardiac healing.(FROM THE FRONTIER) Author: Gale Reference Team Publication: Heart Advisor (Magazine/Journal) Date: February 1, 2007 Publisher: Thomson Gale Volume: 10 Issue: 2 Page: 3(1) Distributed by Thomson... |
| © 2009 BrightSurf.com |