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Nephrology
Meckel-Gruber syndrome gene identified- a help to understand polycystic kidney disease
By Mayo Clinic
Jan 17, 2006 - 2:10:00 AM

An international research collaboration led by Mayo Clinic has identified a new gene involved in causing the inherited kidney disorder, Meckel-Gruber syndrome (MKS). Children with MKS have central nervous system deformities as well as abnormal cysts in their kidneys, and usually die shortly after birth. The findings appear in the current edition of Nature Genetics . In addition to Mayo Clinic, the collaboration involved researchers from the Indiana University School of Medicine in Indianapolis, and the University of Birmingham, England.
Significance of the Finding

This news is of immediate importance to MKS families who may now have their blood screened for the defect and seek genetic counseling. The finding also is important for advancing understanding of what goes wrong in common birth defects, such as neural tube defects, as well as for related disorders such as more common forms of polycystic kidney disease (PKD). PKD accounts for more than 5 percent of end-stage kidney disease in the United States and Europe.

"This gene has immediate relevance for a small number of families, but the broader implications are important for the understanding they bring of how cysts develop in the kidney," explains Peter Harris, Ph.D., the Mayo Clinic nephrology researcher who led the research team. "There is a kind of common linkage among these diseases. Our hope is that this new finding will aid us to devise new treatments for a broad category of disabling disease."

Meckel-Gruber kidney disease is separate from, though related to, PKD in that some of the same things go wrong to cause the abnormal formation of cysts that disrupt kidney function. Knowing the identity of one key gene involved in MKS is a first step to understanding the disorder and eventually devising therapies to blunt its effects. Treatments are being developed for the more common forms of polycystic kidney disease.

The current work is an extension of Mayo researchers' groundbreaking work for more than a decade that has helped to reveal the genetic basis of PKD and to develop therapies. In that time, Mayo researchers have identified key genes driving the most common form of the disease in adults and in infants.



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