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U of M performs first systemic therapy for fatal childhood disease
November 05, 2007Doctors use stem cell therapy for genetic skin disease
University of Minnesota Children's Hospital, Fairview physicians have performed the first bone marrow and cord blood transplant to treat recessive dystrophic epidermolysis bullosa (RDEB).
Children with RDEB lack a protein that anchors skin to the body, resulting in fragile skin that sloughs off with little movement or friction. They suffer painful wounds and must be bandaged at all times to protect their skin from further damage and infection. The 18-month-old boy who was transplanted has the most severe form of RDEB, which also causes skin to slough off on the inside of the body, affecting the mouth, esophagus, and gastrointestinal tract. EB is genetic and severe forms are always fatal. Those who live to be young adults get an aggressive form of skin cancer called squamous cell carcinoma.
With the help of an EB mouse model and in collaboration with investigators at Columbia University, University of Minnesota researchers were able to correct the disease in mice using bone marrow. They tested various types of adult stem cells to determine which would give rise to the development of type VII collagen - the protein people with RDEB lack. One type of immature cells from bone marrow proved to be the best at producing anchoring fibrils that bind the skin to the body.
This is the first time physicians have approached EB from a systemic perspective, using transplant as a means to rid the body of the defective blood system and replace it with a healthy blood system that produces type VII collagen.
"Our goal is to determine the usefulness of stem cells, whether from the umbilical cord blood or adult tissues like bone marrow, in the treatment of human disease," said John E. Wagner, M.D., professor of Pediatrics and director of the Division of Hematology, Oncology, and Blood and Marrow Transplantation and director of clinical research of the Stem Cell Institute at the University of Minnesota. "There are hundreds of thousands of children and adults waiting for new breakthroughs in stem cell research, and time is never enough. In two years, the team was able to move this project forward remarkably fast-from testing in animal models to treating patients. Time will tell whether this risky treatment will work as effectively in humans. But, RDEB is a horribly debilitating, life-threatening disease with no existing curative therapy."
The boy received both umbilical cord blood and bone marrow from a perfectly matched sibling. If the results mimic the animal model, doctors anticipate the healthy blood system will aid in the skin's ability to produce type VII collagen necessary to anchor the skin and lining cells of the gastrointestinal tract to the body. Doctors anticipate in early 2008-approximately 100 days after transplant-they will be able to judge whether this the treatment helped.
"This represents a real change in thinking within the dermatological community. The possibility of this approach compels us to explore more broadly the way some skin diseases are typically treated," said Maria Hordinsky, M.D., head of the Department of Dermatology at the University of Minnesota and member of the care team.
University of Minnesota
With the help of an EB mouse model and in collaboration with investigators at Columbia University, University of Minnesota researchers were able to correct the disease in mice using bone marrow. They tested various types of adult stem cells to determine which would give rise to the development of type VII collagen - the protein people with RDEB lack. One type of immature cells from bone marrow proved to be the best at producing anchoring fibrils that bind the skin to the body.
This is the first time physicians have approached EB from a systemic perspective, using transplant as a means to rid the body of the defective blood system and replace it with a healthy blood system that produces type VII collagen.
"Our goal is to determine the usefulness of stem cells, whether from the umbilical cord blood or adult tissues like bone marrow, in the treatment of human disease," said John E. Wagner, M.D., professor of Pediatrics and director of the Division of Hematology, Oncology, and Blood and Marrow Transplantation and director of clinical research of the Stem Cell Institute at the University of Minnesota. "There are hundreds of thousands of children and adults waiting for new breakthroughs in stem cell research, and time is never enough. In two years, the team was able to move this project forward remarkably fast-from testing in animal models to treating patients. Time will tell whether this risky treatment will work as effectively in humans. But, RDEB is a horribly debilitating, life-threatening disease with no existing curative therapy."
The boy received both umbilical cord blood and bone marrow from a perfectly matched sibling. If the results mimic the animal model, doctors anticipate the healthy blood system will aid in the skin's ability to produce type VII collagen necessary to anchor the skin and lining cells of the gastrointestinal tract to the body. Doctors anticipate in early 2008-approximately 100 days after transplant-they will be able to judge whether this the treatment helped.
"This represents a real change in thinking within the dermatological community. The possibility of this approach compels us to explore more broadly the way some skin diseases are typically treated," said Maria Hordinsky, M.D., head of the Department of Dermatology at the University of Minnesota and member of the care team.
University of Minnesota
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2-million-year-old evidence shows tool-making hominins inhabited grassland environments
In an article published in the open-access, peer-reviewed journal PLoS ONE on October 21, 2009, Dr Thomas Plummer of Queens College at the City University of New York, Dr Richard Potts of the Smithsonian Institution National Museum of Natural History and colleagues report the oldest archeological evidence of early human activities in a grassland environment, dating to 2 million years ago.
Mice regain ability to extend telomeres suggesting potential for dyskeratosis congenita therapy
The human genetic disease dyskeratosis congenita (DKC) is an autosomal dominant disease that leads to abnormalities in tissues with a rapid cell turnover - the skin, nails, bone marrow, lungs and gut.
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