A new study finds that a component of aspirin binds to an enzyme called GAPDH, which is believed to play a major role in neurodegenerative diseases, including Alzheimer’s, Parkinson’s and Huntington’s diseases.

Researchers discovered that salicylic acid, the primary breakdown product of aspirin, binds to GAPDH, thereby stopping it from moving into a cell’s nucleus, where it can trigger the cell’s death. The study, which appears in the journal PLOS ONE, also suggests that derivatives of salicylic acid may hold promise for treating multiple neurodegenerative diseases.

The researchers performed high-throughput screens to identify proteins in the human body that bind to salicylic acid. GAPDH, (Glyceraldehyde 3-Phosphate Dehydrogenase), is a central enzyme in glucose metabolism, but plays additional roles in the cell. Under oxidative stress—an excess of free radicals and other reactive compounds—GAPDH is modified and then enters the nucleus of neurons, where it enhances protein turnover, leading to cell death.

The anti-Parkinson’s drug deprenyl blocks GAPDH’s entry into the nucleus and the resulting cell death. The researchers discovered that salicylic acid also is effective at stopping GAPDH from moving into the nucleus and preventing cell death.

“The enzyme GAPDH, long thought to function solely in glucose metabolism, is now known to participate in intracellular signaling,” said co-author Solomon Snyder, professor of neuroscience at Johns Hopkins University in Baltimore. “The new study establishes that GAPDH is a target for salicylate drugs related to aspirin, and hence may be relevant to the therapeutic actions of such drugs.”

Source: Boyce Thompson Institute

Links

Boyce Thompson Institute
PLOS ONE

december 15, 2015