June 3, 2019
To some scientists, finding cures for complex diseases starts with examining how the brain processes glutamate, a chemical neurotransmitter molecule used by the brain to convey excitation from one neuron to another. Once glutamate is released, it crosses a synaptic junction between neurons, binding to glutamate receptor subtypes.
“We’ve known for a long time that glutamate receptors in neurons contribute to neurological disease,” said Sharon Swanger, an assistant professor at the Fralin Biomedical Research Institute at VTC’s Center for Neurobiology Research.
Clinical trials have shown that epilepsy therapies designed to inhibit glutamate receptors, while effective at stopping symptoms in some patients, can also produce intolerable side effects. Scientists needed to refine their focus to develop improved therapies targeting the glutamate system.
“The challenge is that those therapies targeted multiple glutamate receptor subtypes that are expressed throughout the entire brain,” said Swanger, who was recently awarded a $1.7 million grant through the National Institute of Neurological Disorders and Stroke, part of the National Institutes of Health, to study glutamate receptor modulation.
Over the next five years, funded by the grant, Swanger will examine subtypes within one glutamate receptor family: N-methyl-D-aspartate receptors (NMDAR). In particular, she wants to see if she can modulate the functional behavior of interconnected neurons in the thalamus, a region in the brain involved in seizure generation and where four different NMDAR subtypes are expressed.
“If we can figure out how each subtype functions and modulate select subtypes, then maybe we can target therapies to the circuit where the disease originated while leaving healthy circuits intact,” said Swanger, who is also an assistant professor in the department of biomedical sciences and pathobiology at the Virginia-Maryland College of Veterinary Medicine.