Cleft Palate in Fetal Mice Prevented by Treating Mother, Stanford/Packard Study Finds.Research May Pave Way to New Methods of Preventing Birth Defects birth defects, abnormalities in physical or mental structure or function that are present at birth. They range from minor to seriously deforming or life-threatening. A major defect of some type occurs in approximately 3% of all births. in Humans STANFORD, Calif. -- Mice engineered to have cleft palates can be rescued in utero in utero (in u´ter-o) [L.] within the uterus. in u·ter·o adj. In the uterus. in utero adv. by injecting the mothers with a small molecule to correct the defect, say scientists at the Stanford University School of Medicine Stanford University School of Medicine is affiliated with Stanford University and is located at Stanford University Medical Center in Stanford, California, adjacent to Palo Alto and Menlo Park. and Lucile Packard Children's Hospital Lucile Packard Children's Hospital (LPCH) is a hospital located on the Stanford University campus in Palo Alto, California. It is staffed by over 650 physicians and 4,750 staff and volunteers. . In addition to shedding light on the biology of cleft palate, the research raises hopes that it may one day be possible to prevent many types of human birth defects by using a similar vaccination-type technique in pregnant women likely to have affected fetuses. "This is a really important baby step that opens the door to the development of fetal therapies," said pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. craniofacial craniofacial /cra·nio·fa·cial/ (kra?ne-o-fa´sh'l) pertaining to the cranium and the face. cra·ni·o·fa·cial adj. Of or involving both the cranium and the face. surgeon Michael Longaker, MD. "Our hope and expectation is that patients at Packard Children's and other institutions will benefit as this basic advance is translated into something that will eventually make a significant difference for this and other birth defects." Longaker is the senior author of the study, which will be published in the Feb. 11 advance online edition of Nature. The research is the first demonstration that a technique known as chemical genetics -- in which small molecules are used to modify gene expression or protein activity -- can reach a fetus when administered to a pregnant animal. "It's such a cool concept," said Longaker, professor of medicine and a leader in Stanford's Institute for Stem Cell stem cell In living organisms, an undifferentiated cell that can produce other cells that eventually make up specialized tissues and organs. There are two major types of stem cells, embryonic and adult. Biology and Regenerative Medicine. "We injected a small molecule into mom, and it goes into the embryo and works. There are tremendous implications to the idea of preventing conditions in unborn patients rather than trying to treat them after birth." Cleft defects are the second-most common birth defect birth defect Genetic or trauma-induced abnormality present at birth. A more restrictive term than congenital disorder, it covers abnormalities that arise during the formation of an embryo's organs and tissues and does not include those caused by diseases (e.g. worldwide, and affect about one in 2,000 births. Longaker, who spent several years in fetal surgery working to design surgical approaches for life-threatening defects prior to coming to Stanford, said the concept of noninvasively preventing these defects by treating the mother is something that was unthinkable when he first began his work. "This is a great example of expectations changing as technology evolves," he said. For this study, co-author and postdoctoral scholar Karen Liu, PhD, used a short amino-acid tag to disrupt the function of a protein called GSK-3 beta. GSK-3 beta function is important in a variety of biological processes, and mice with the tagged protein exhibited many problems in utero, including cleft palates and sternum sternum: see rib. defects. However, Liu was able to reverse the defects by injecting the pregnant mice with rapamycin -- a small molecule that stabilized the tag and restored the protein's function. In addition to revealing for the first time that GSK-3 beta is important in palate formation, Liu discovered that the technique could be used to identify the specific times during development that the protein's function is required. For example, maternal rapamycin treatment between embryonic days 13.5 and 15 corrected the palate defect, but normal sternal sternal /ster·nal/ (ster´n'l) of or relating to the sternum. ster·nal adj. Of, relating to, or occurring near the sternum. sternal pertaining to the sternum. development required functional protein between days 15.5 and 17. It's likely that the same chemical genetic approach could be applied to a variety of proteins and developmental processes to create a series of molecular snapshots of embryogenesis Embryogenesis The formation of an embryo from a fertilized ovum, or zygote. Development begins when the zygote, originating from the fusion of male and female gametes, enters a period of cellular proliferation, or cleavage. . "The beauty of the technique is that it nails down the developmental window for various embryonic events," said Longaker. "We don't need to treat the mother long term, but just during the time that the organ or structure is forming." Although promising, direct human applications of the research will require several key advances: an ability to predict which women are likely to have fetuses with birth defects before the defects occur; knowledge of an effective, small-molecule based therapy that can prevent the defect; and an accurate method of tracking fetal development to allow time-appropriate administration of the therapy. "Over time, I expect we will have the ability to overcome these obstacles," said Longaker. "This is the true value of having one of the best children's hospitals in the country integrated within a school of medicine renowned for its research capabilities. With interdisciplinary teamwork, we may be able to develop a whole new way to prevent birth defects." Gerald Crabtree, MD, PhD, professor of pathology and developmental biology Developmental biology A large field of investigation that includes the study of all changes associated with an organism as it progresses through the life cycle. The life cycles of all multicellular organisms exhibit many similarities. , collaborated with Longaker and Liu on the study. Liu is supported by an NIH "Not invented here." See digispeak. NIH - The United States National Institutes of Health. training program in regenerative medicine that fosters the interdisciplinary collaboration that led to the breakthrough research. "We're putting people together in the sandbox who wouldn't normally be playing together," quipped Longaker about the collaboration. Stanford University Medical Center Stanford University Medical Center (Stanford Hospital & Clinics) is one of four hospitals affiliated with Stanford University and Stanford University School of Medicine, along with the Lucile Packard Children's Hospital, the Veteran's Administration Hospital in Palo Alto, and Santa integrates research, medical education and patient care at its three institutions -- Stanford University School of Medicine, Stanford Hospital & Clinics and Lucile Packard Children's Hospital at Stanford. For more information, please visit the Web site of the medical center's Office of Communication & Public Affairs at http://mednews.stanford.edu. Ranked as one of the best pediatric hospitals in the nation by U.S.News & World Report and Child magazine, Lucile Packard Children's Hospital at Stanford is a 264-bed hospital devoted to the care of children and expectant mothers. Providing pediatric and obstetric medical and surgical services and associated with the Stanford University School of Medicine, Packard Children's offers patients locally, regionally and nationally the full range of health care programs and services -- from preventive and routine care to the diagnosis and treatment of serious illness and injury. For more information, visit http://www.lpch.org. |
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