 |
|
Toxins in cigarette smoke prevent stem cells from becoming cartilage
March 04, 2008A toxic pollutant spread by oil spills, forest fires and car exhaust is also present in cigarette smoke, and may represent a second way in which smoking delays bone healing, according to research presented today at the annual meeting of the Orthopaedic Research Society in San Francisco.
In 2005, researchers from the University of Rochester Medical Center identified one ingredient in smoke, nicotine, that delays bone growth by influencing gene expression in the two-step bone healing process: stem cells become cartilage; cartilage matures into bone. In the current study, some of the same researchers found that a second smoke ingredient, the polyaromatic hydrocarbon benzo(a)pyrene (BaP), also slows bone healing, but in a different way.
Smoking has been shown to delay skeletal healing by as much as 60 percent following fractures. Slower healing means a greater chance of re-injury and can lead to chronic pain and disability. The obvious solution is for smokers to quit when they get hurt, but studies show that just 15 percent can.
"Our results provide the first evidence that BaP prevents stem cells from becoming cartilage cells as part of healing," said Regis J. O'Keefe, M.D., Ph.D., chair of the Department of Orthopaedics and Rehabilitation at the Medical Center and a study investigator. "These findings extend our understanding of the impact of cigarette smoke on a process that is critical to fracture repair. Perhaps down the road we will be able to speed bone healing among smokers in more than one way."
Study Details
Gene expression is the process by which instructions encoded in genes are followed for the building of proteins, the workhorses that make up the body's organs and carry its signals. In the current study, polymerase chain reaction (PCR), a technique that measures gene expression levels, revealed the genetic changes caused by exposure to BaP in mouse stem cells.
Among the many factors that influence gene expression are transcription factors, proteins designed to direct genes to create more or less of a protein. One such factor is Sex Determining Region Y-box 9 (SOX-9), required for the transition of stem cells into cartilage cells. The PCR results show that BaP in cigarette spoke interferes with SOX-9 expression in mesenchymal stem cells, blocking their conversion into cartilage cells. When this group of stem cells is free to differentiate, the newly formed cartilage cells immediately begin manufacturing collagen 2, the tough, fibrous protein framework for cartilage. Along with interfering with SOX-9, BaP was also found to reduce levels of type II collagen gene expression.
Past studies had shown that stem cells involved in cartilage formation contain proteins known to react with BaP called aryl hydrocarbon receptors. The current results suggest that BaP binding with these receptors may suppress SOX-9 activity, reducing the number of stem cells that turn into cartilage cells and the amount of collage produced. No one knows what such receptors are doing in these cells in the first place, but one theory has it that they signal cellular machinery to metabolize toxins.
The study compared the effect of BaP versus that of cigarette smoke extract, a substance representing all the ingredients in cigarette smoke. The hope was to confirm BaP as the specific cause of the observed effect on SOX-9. Results indeed suggest BaP alone may responsible for this specific mechanism of healing delay, since its effect was equal to the extract.
In addition measuring gene expression levels, researchers also conducted tests to show the effect of BaP visually. When newly differentiated cartilage cells begin to produce collagen in a culture dish, little mounds or nodules of collagen can be visualized using a stain. Staining experiments captured images showing BaP to "completely inhibit" collagen nodule deposition.
Along with O'Keefe, the Medical Center effort was led by Ming Kung, Donna Hoak, HsinChiu Ho, Edward Puzas and Michael Zuscik, all within the Department of Orthopaedics at the Medical Center.
"Smoking reduces the rate at which the two sides of a fracture come together," said Michael Zuscik, Ph.D., associate professor in the Department of Orthopaedics and Rehabilitation at the Medical Center. "We believe this new research will establish for the first time the mechanisms by which polyaromatic hydrocarbons interfere with the healing process."
University of Rochester Medical Center
"Our results provide the first evidence that BaP prevents stem cells from becoming cartilage cells as part of healing," said Regis J. O'Keefe, M.D., Ph.D., chair of the Department of Orthopaedics and Rehabilitation at the Medical Center and a study investigator. "These findings extend our understanding of the impact of cigarette smoke on a process that is critical to fracture repair. Perhaps down the road we will be able to speed bone healing among smokers in more than one way."
Study Details
Gene expression is the process by which instructions encoded in genes are followed for the building of proteins, the workhorses that make up the body's organs and carry its signals. In the current study, polymerase chain reaction (PCR), a technique that measures gene expression levels, revealed the genetic changes caused by exposure to BaP in mouse stem cells.
Among the many factors that influence gene expression are transcription factors, proteins designed to direct genes to create more or less of a protein. One such factor is Sex Determining Region Y-box 9 (SOX-9), required for the transition of stem cells into cartilage cells. The PCR results show that BaP in cigarette spoke interferes with SOX-9 expression in mesenchymal stem cells, blocking their conversion into cartilage cells. When this group of stem cells is free to differentiate, the newly formed cartilage cells immediately begin manufacturing collagen 2, the tough, fibrous protein framework for cartilage. Along with interfering with SOX-9, BaP was also found to reduce levels of type II collagen gene expression.
Past studies had shown that stem cells involved in cartilage formation contain proteins known to react with BaP called aryl hydrocarbon receptors. The current results suggest that BaP binding with these receptors may suppress SOX-9 activity, reducing the number of stem cells that turn into cartilage cells and the amount of collage produced. No one knows what such receptors are doing in these cells in the first place, but one theory has it that they signal cellular machinery to metabolize toxins.
The study compared the effect of BaP versus that of cigarette smoke extract, a substance representing all the ingredients in cigarette smoke. The hope was to confirm BaP as the specific cause of the observed effect on SOX-9. Results indeed suggest BaP alone may responsible for this specific mechanism of healing delay, since its effect was equal to the extract.
In addition measuring gene expression levels, researchers also conducted tests to show the effect of BaP visually. When newly differentiated cartilage cells begin to produce collagen in a culture dish, little mounds or nodules of collagen can be visualized using a stain. Staining experiments captured images showing BaP to "completely inhibit" collagen nodule deposition.
Along with O'Keefe, the Medical Center effort was led by Ming Kung, Donna Hoak, HsinChiu Ho, Edward Puzas and Michael Zuscik, all within the Department of Orthopaedics at the Medical Center.
"Smoking reduces the rate at which the two sides of a fracture come together," said Michael Zuscik, Ph.D., associate professor in the Department of Orthopaedics and Rehabilitation at the Medical Center. "We believe this new research will establish for the first time the mechanisms by which polyaromatic hydrocarbons interfere with the healing process."
University of Rochester Medical Center
Stem Cells News and Current Stem Cells Events RSSTAU Researchers Create New Stem Cell Screening Tool
Stem cell research is the next great leap in medicine. In the future, new tissue grown in a laboratory could replace a failing heart, or new cells take the place of damaged cells in the brain.
NC State Is First University in Nation to Offer Canine Bone Marrow Transplants
Dogs suffering from lymphoma will be able to receive the same type of medical treatment as their human counterparts, as North Carolina State University becomes the first university in the nation to offer canine bone marrow transplants in a clinical setting.
Hearing restoration may be possible with cochlear repair after transplant of human cord blood cells
According to an Italian research team publishing their findings in the current issue of Cell Transplantation (17:6), hearing loss due to cochlear damage may be repaired by transplantation of human umbilical cord hematopoietic stem cells (HSC) since they show that a small number migrated to the damaged cochlea and repaired sensory hair cells and neurons.
Cardiac cell transplant studies show promise in cardiac tissue repair
Two studies published in the current issue of CELL TRANSPLANTATION (17:6) examine the efficacy of transplanting bone marrow cells (BMCs) for the repair of heart tissue.
Stem cell research puts interstate rivalry on hold
Victoria and New South Wales have put aside their competitive interstate rivalry to collaborate on a stem cell research project, as announced by Innovation Minister Gavin Jennings and NSW Minister for Science and Medical Research, Verity Firth, today.
Blood vessel cells are instructed to form tube-like structures
How do blood vessel cells understand that they should organise themselves in tubes and not in layers? A research group from Uppsala University shows for the first time that a special type of "instructor" molecule is needed to accomplish this. These findings, published in the scientific journal Blood, might be an important step towards using stem cells to build new organs.
Antidepressants need new nerve cells to be effective, researchers find
Researchers at UT Southwestern Medical Center have discovered in mice that the brain must create new nerve cells for either exercise or antidepressants to reduce depression-like behavior.
Antidepressants need new nerve cells to be effective, UT Southwestern researchers find
Researchers at UT Southwestern Medical Center have discovered in mice that the brain must create new nerve cells for either exercise or antidepressants to reduce depression-like behavior.
Alcohol consumption can cause too much cell death, fetal abnormalities
The initial signs of fetal alcohol syndrome are slight but classic: facial malformations such as a flat and high upper lip, small eye openings and a short nose.
Carnegie Mellon MRI technology that non-invasively locates, quantifies specific cells in the body
Magnetic resonance imaging (MRI) isn't just for capturing detailed images of the body's anatomy. Thanks to novel imaging reagents and technology developed by Carnegie Mellon University scientist Eric Ahrens, MRI can be used to visualize - with "exquisite" specificity - cell populations of interest in the living body.
More Stem Cells News Articles
 | My Sister's Keeper: A Novel by Jodi Picoult New York Times bestselling author Jodi Picoult is widely acclaimed for her keen insights into the hearts and minds of real people. Now she tells the emotionally riveting story of a family torn apart by conflicting needs and a passionate love that triumphs over human weakness.Anna is not sick, but she might as well be. By age thirteen, she has undergone countless surgeries, transfusions, and shots... |
 | Embryo: A Defense of Human Life by Robert P. George, Christopher Tollefsen The bitter national debates over abortion, euthanasia, and stem cell research have created an unbridgeable gap between religious groups and those who insist that faith-based views have no place in public policy. Religious conservatives are so adamantly opposed to stem cell research in particular that President Bush issued the first veto of his presidency over a bill that would have provided... |
 | Sex, Science, and Stem Cells by Diana DeGette In August 2001, President George W. Bush announced with fanfare that federal funds would be made available to scientists conducting research on human embryonic stem cell lines—with restrictions. Reading his words, not his lips, was Congresswoman Diana DeGette of Colorado’s First Congressional District, and what she read was this: a ban. “As a practical matter,” scientists... |
 | The Oxygen Revolution: Hyperbaric Oxygen Therapy: The Groundbreaking New Treatment for Stroke, Alzheimer's, Parkinson's, Arthritis, Autism, Learning Disabilities and More by Paul G. Harch, Virginia Mccullough HOPE FOR MANY "HOPELESS" DISEASES, FROM ONE OF THE FOREMOST RESEARCHERS IN THE FIELDWhen Randy McCloy, Jr., the sole survivor of the Sago Mine disaster, finally walked out of the hospital to rejoin his family, it was in part due to the miracle of hyperbaric oxygen therapy. Hyperbaric oxygen therapy (HBOT) is based on an almost laughably simple idea: Oxygen can be used therapeutically for a wide... |
 | Miracle Stem Cell Heart Repair: (For Heart Attack, Heart Failure and Bypass Patients) by Christian Wilde |
 | Essentials of Stem Cell Biology This abridged version of the bestselling reference Handbook of Stem Cells, Two-Volume Set attempts to incorporate all the essential subject matter of the original two-volume edition in a single volume. The material has been reworked in an accessible format suitable for students and general readers interested in following the latest advances in stem cells, including full color presentation... |
 | The Stem Cell Controversy: Debating the Issues (Contemporary Issue Series) Stem cell research is headline news. Researchers are eager to move forward, state governments and private foundations are rushing to support it, and the sick and afflicted are desperate for its benefits. Yet powerful forces in our society—led by President George W. Bush—find it morally troubling and they are doing all in their powers to restrict its development beyond a very limited... |
 | Irreparable Harm by Randy D. Singer A fight for life. A battle for right.Attorney Mitchell Taylor is trapped in a lose-lose situation.Bright but inexperienced attorney Mitchell Taylor is torn between warring personal and professional interests. Can he help his client–a young surrogate mother–and save the child she carries without sealing the fate of others? The compelling answer lies in Randy Singer’s new legal... |
 | Stem Cell Now by Christopher Thomas Scott The essential account of the most important scientific advance—and most volatile ethical debate—of our time While many believe stem cell research holds the key to curing a wide range of ailments, others see this research as opening a Pandora’s box that will devalue human life. In Stem Cell Now, Christopher Scott—executive director of Stanford University’s Stem Cells and Society Program—lays out... |
 | Fundamentals of the Stem Cell Debate: The Scientific, Religious, Ethical, and Political Issues Few recent advances in science have generated as much excitement and controversy as human embryonic stem cells. The potential of these cells to replace diseased or damaged cells in virtually every tissue of the body heralds the advent of an extraordinary new field of medicine. Controversy arises, however, because current techniques required to harvest stem cells involve the destruction of the... |
| © 2008 BrightSurf.com |