Neuroscience

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Huntington’s disease: Study discovers potassium boost improves walking in mouse model Tweaking a specific cell type’s ability to absorb potassium in the brain improved walking and prolonged survival in a mouse model of Huntington’s disease, reports a UCLA study published March 30 in the online edition of Nature Neuroscience. The discovery could point to new drug targets for treating the devastating disease, which strikes one in every 20,000 Americans. Huntington’s disease is passed from parent to child through a mutation in the huntingtin gene. By killing brain cells called neurons, the progressive disorder gradually deprives patients of their ability to walk, speak, swallow, breathe and think clearly. No cure exists, and patients with aggressive cases can die in as little as 10 years. The laboratories of Baljit Khakh, a professor of physiology and neurobiology, and Michael Sofroniew, a professor of neurobiology, teamed up at the David Geffen School of Medicine at UCLA to unravel the role played in Huntington’s by astrocytes—large, star-shaped cells found in the brain and spinal cord. Read more

Huntington’s disease: Study discovers potassium boost improves walking in mouse model

Tweaking a specific cell type’s ability to absorb potassium in the brain improved walking and prolonged survival in a mouse model of Huntington’s disease, reports a UCLA study published March 30 in the online edition of Nature Neuroscience. The discovery could point to new drug targets for treating the devastating disease, which strikes one in every 20,000 Americans.

Huntington’s disease is passed from parent to child through a mutation in the huntingtin gene. By killing brain cells called neurons, the progressive disorder gradually deprives patients of their ability to walk, speak, swallow, breathe and think clearly. No cure exists, and patients with aggressive cases can die in as little as 10 years.

The laboratories of Baljit Khakh, a professor of physiology and neurobiology, and Michael Sofroniew, a professor of neurobiology, teamed up at the David Geffen School of Medicine at UCLA to unravel the role played in Huntington’s by astrocytes—large, star-shaped cells found in the brain and spinal cord.

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Filed under huntington's disease astrocytes huntingtin neurons animal model gene mutation neuroscience science

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