A protein in the brain that binds to alcohol could be the key to curing alcoholism, reports UH College of Pharmacy medicinal chemist Joydip Das in eNeuro, a journal of the Society for Neuroscience. The protein, called MUNC 13-1, plays a pivotal role in the development of tolerance to alcoholism according to Das.
“Addiction to alcohol remains one of the most significant mental health problems throughout the world. A major challenge is to understand how ethanol, or alcohol, changes behavior and the brain during the descent into addiction,” Das reported. Developing tolerance is a critical step in that descent.
“If a person becomes tolerant of one drink, he will have another and maybe another. If we could stop alcohol from binding into MUNC 13-1 it will help problem drinkers in reducing tolerance. If we can reduce tolerance we can reduce addiction,” said Das whose study focuses on binge alcohol exposure.
The process of MUNC 13-1 binding to alcohol takes place in a brain synapse, where one nerve cell, or neuron, passes a signal to another. Specifically, the binding takes place in the presynaptic space, a much understudied portion of the synapse mechanism.
During binge alcohol exposure, alcohol creates widespread and long-lasting changes in neural activity, altering both presynaptic and postsynaptic activity.
Thus far the work has been done using the Drosophila genetic model system, which offers a simple model, but various similarities. Their activating protein is called Dunc13, the equivalent to MUNC 13-1.
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