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Potential Treatment for Deadly Genetic Disease Identified

by Kathy Jones on  September 30, 2014 at 11:19 PM Genetics & Stem Cells News   - G J E 4
Research has suggested that MPS IIIB is a devastating and currently untreatable disease that causes progressive damage to the brain.

It also leads to profound intellectual disability, dementia and death -- often before reaching adulthood.
 Potential Treatment for Deadly Genetic Disease Identified
Potential Treatment for Deadly Genetic Disease Identified
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Officially known as mucopolysaccharidosis type IIIB or Sanfilippo Syndrome type B, the disease causes the accumulation of waste products in the cells, leading to progressive damage to the brain. Patients with MPS IIIB lack a vital enzyme that is needed to break down long chains of sugars, known as mucopolysaccharides, leading these to accumulate in the cells.

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Researchers reported today in the journal, Proceedings of the National Academy of Sciences of the United States of America, that they have found a way to replace the missing enzyme in the brains of disease models, opening the door to a potential treatment for MPS IIIB.

"Enzyme replacement therapy has been very successful in treating other forms of MPS but not MPS IIIB because the blood-brain barrier blocked delivery of the medication to the brain," said Patricia I. Dickson, MD, a Los Angeles Biomedical Research Institute (LA BioMed) lead researcher and one of the authors of the study. "By injecting a modified enzyme into the brain's left ventricle, we have found a way to bypass that barrier and deliver the needed enzyme to the brain. While more study is needed, this research holds great promise for the treatment of MPS IIIB."

Researchers at LA BioMed, the University of California, Los Angeles and BioMarin Pharmaceutical, Inc. administered a modified form of the missing enzyme, NAGLU, through the left ventricle of the brain. They found the modified enzyme was "taken up avidly" by cells in both the brain and the liver. The researchers reported that the modified enzyme reduced the pathological accumulation of heparan sulfate, a mucopolysaccharide, and other metabolites to normal or near-normal levels.
Source: Eurekalert
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