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Adult stem cell changes underlie rare genetic disease associated with accelerated aging
March 03, 2008Adult stem cells may provide an explanation for the cause of a Hutchinson-Gilford Progeria Syndrome (HGPS), a rare disease that causes premature aging in children, according to researchers at the National Cancer Institute (NCI), part of the National Institutes of Health (NIH). These findings, the first to indicate a biological basis for the clinical features of HGPS, also known as progeria, may also provide new insights into the biological mechanisms of normal aging. The results were published in the March, 2008, issue of Nature Cell Biology.
"Studies like this of the biology of HGPS hold the potential to benefit children suffering this terrible illness and enlighten us as to the medical changes we all experience as we grow older." said NCI Director John E. Niederhuber, M.D. "As our population ages, we have an increasing need for greater understanding of the biology of aging and age-related illness, such as cancer."
HGPS is an extremely rare hereditary genetic disease of children characterized by signs of premature aging. Children with HGPS generally experience the first symptoms by the age of one, and on average succumb around the age of 15, almost exclusively from premature, progressive heart disease. HGPS occurs in one out of four to eight million births; only 100 patients have been documented in the medical literature. Because its striking cardiovascular effects and other clinical features are so closely associated with the normal aging process, HGPS holds great interest for researchers studying age-related biological changes and disease.
The cause of HGPS, a mutated protein called progerin, was identified in 2003. However, the mechanism by which progerin causes the widespread clinical effects of HGPS has been unclear. To forge this link between molecular biology and medical outcome, Tom Misteli, Ph.D., head of the Cell Biology of Genomes Group at NCI's Center for Cancer Research (CCR), and CCR staff scientist Paola Scaffidi, Ph.D., examined the effects of progerin on gene expression in a laboratory model of HGPS. They found that progerin activates genes involved in the Notch signaling pathway, a major regulator of stem cell differentiation -- the process by which stem cells give rise to the mature cells that make up different tissues.
Because most of the tissues affected by HGPS (e.g., skin, fat, muscles, bone, and blood vessels) arise from a common developmental pathway, Misteli and Scaffidi looked at the effects of progerin on adult mesenchymal stem cells, the common cellular ancestor of these tissue types. An adult stem can renew itself, and can differentiate to yield the major specialized cell types of the tissue or organ. Their experiments revealed that progerin profoundly affects the fate of these stem cells, greatly skewing the rate at which they mature into different tissues. For instance, progerin-producing stem cells showed accelerated maturation into bone but failed to develop into fat. This could explain two of the distinguishing clinical features of HGPS: abnormal bone growth and an almost complete loss of the fatty tissues normally found just beneath the skin. The researchers were able to mimic the progerin's effects in these stem cells by experimentally activating the same components of the Notch pathway targeted by progerin.
Taken together, the results of these experiments provide a new window into the biology behind the clinical features of HGPS. They may also hold relevance for understanding the biology of normal aging. "Progerin is present at low levels in the cells of healthy people," said Misteli. "One could envision a scenario in which progerin's effects on the Notch pathway and, by extension, on adult stem cells could, over time, lead to many of the tissue changes we commonly associate with the aging process."
NIH/National Cancer Institute
The cause of HGPS, a mutated protein called progerin, was identified in 2003. However, the mechanism by which progerin causes the widespread clinical effects of HGPS has been unclear. To forge this link between molecular biology and medical outcome, Tom Misteli, Ph.D., head of the Cell Biology of Genomes Group at NCI's Center for Cancer Research (CCR), and CCR staff scientist Paola Scaffidi, Ph.D., examined the effects of progerin on gene expression in a laboratory model of HGPS. They found that progerin activates genes involved in the Notch signaling pathway, a major regulator of stem cell differentiation -- the process by which stem cells give rise to the mature cells that make up different tissues.
Because most of the tissues affected by HGPS (e.g., skin, fat, muscles, bone, and blood vessels) arise from a common developmental pathway, Misteli and Scaffidi looked at the effects of progerin on adult mesenchymal stem cells, the common cellular ancestor of these tissue types. An adult stem can renew itself, and can differentiate to yield the major specialized cell types of the tissue or organ. Their experiments revealed that progerin profoundly affects the fate of these stem cells, greatly skewing the rate at which they mature into different tissues. For instance, progerin-producing stem cells showed accelerated maturation into bone but failed to develop into fat. This could explain two of the distinguishing clinical features of HGPS: abnormal bone growth and an almost complete loss of the fatty tissues normally found just beneath the skin. The researchers were able to mimic the progerin's effects in these stem cells by experimentally activating the same components of the Notch pathway targeted by progerin.
Taken together, the results of these experiments provide a new window into the biology behind the clinical features of HGPS. They may also hold relevance for understanding the biology of normal aging. "Progerin is present at low levels in the cells of healthy people," said Misteli. "One could envision a scenario in which progerin's effects on the Notch pathway and, by extension, on adult stem cells could, over time, lead to many of the tissue changes we commonly associate with the aging process."
NIH/National Cancer Institute
Stem Cells Current Events and Stem Cells News RSSNew discovery about the formation of new brain cells
The generation of new nerve cells in the brain is regulated by a peptide known as C3a, which directly affects the stem cells' maturation into nerve cells and is also important for the migration of new nerve cells through the brain tissue, reveals new research from the Sahlgrenska Academy published in the journal Stem Cells.
Umbilical cord blood stem cell transplant may help lung, heart disorders
Two separate studies published in the current issue of Cell Transplantation (18:8), - now freely available on-line have shown that transplanted human-derived umbilical cord blood (UCB) stem cells transplanted in an animal model had positive therapeutic effects on specific lung and heart disorders the animal models.
Gene mismatch influences success of bone marrow transplants
A commonly inherited gene deletion can increase the likelihood of immune complications following bone marrow transplantation, an international team of researchers reports in the November 22 advance online issue of Nature Genetics.
New research shows versatility of amniotic fluid stem cells
For the first time, scientists have demonstrated that stem cells found in amniotic fluid meet an important test of potential to become specialized cell types, which suggests they may be useful for treating a wider array of diseases and conditions than scientists originally thought.
First reconstitution of an epidermis from human embryonic stem cells
Stem cell research is making great strides. This is yet again illustrated by a study carried out by the I-STEM* Institute (I-STEM/ Inserm UEVE U861/AFM), published in the Lancet on 21 November 2009. The I-STEM team, directed by Marc Peschanski has just succeeded in recreating a whole epidermis from human embryonic stem cells.
Bone Implant Offers Hope for Skull Deformities
A synthetic bone matrix offers hope for babies born with craniosynostosis, a condition that causes the plates in the skull to fuse too soon.
Your Own Stem Cells Can Treat Heart Disease
The largest national stem cell study for heart disease showed the first evidence that transplanting a potent form of adult stem cells into the heart muscle of subjects with severe angina results in less pain and an improved ability to walk. The transplant subjects also experienced fewer deaths than those who didn't receive stem cells.
Is hepatic differentiation of embryonic stem cells induced by valproic acid and cytokines?
Embryonic stem (ES) cells, known for their capacity to proliferate indefinitely and differentiate into almost all types of cells including hepatocytes, have raised the hope of cellular replacement therapy for liver failure.
Paradoxical protein might prevent cancer
One difficulty with fighting cancer cells is that they are similar in many respects to the body's stem cells. By focusing on the differences, researchers at Karolinska Institutet have found a new way of tackling colon cancer. The study is presented in the prestigious journal Cell.
U of M researchers find 2 units of umbilical cord blood reduce risk of leukemia recurrence
A new study from the Masonic Cancer Center, University of Minnesota shows that patients who have acute leukemia and are transplanted with two units of umbilical cord blood (UCB) have significantly reduced risk of the disease returning.
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