Frank Bosmans PharmD, PhD

Associate Professor of Physiology
Telephone Number: 410-955-1609
Fax Number: 410-955-4428

Johns Hopkins University
Department of Physiology
725 N. Wolfe St.
Baltimore, MD 21205
Room: 206 Biophysics
Areas of Research
Cellular + Molecular Neuroscience
Neurobiology of Disease

Graduate Program Affiliations

Neuroscience Training Program

Graduate Program in Cellular and Molecular Pysiology

Biochemistry, Celluar and Molecular Biology Graduate Program

Molecular organization and pharmacological properties of the voltage-gated sodium channel signaling complex

Voltage-activated sodium (Nav) channels are found throughout the human body where they form the cornerstones of fast electrical signaling by regulating the Na+ permeability of the cell membrane. As such, Nav channels are among the most widely targeted ion channels by both drugs and animal toxins. Their medical relevance is underscored by mutations that underlie debilitating disorders such as epilepsy, muscle weakness, cardiac arrhythmias and pain syndromes. Despite their physiological importance, our understanding of these channels is hampered by a lack of insight into their complex structures and working mechanisms. Rather than existing as independent units, Nav channels are part of a signaling complex that involves auxiliary proteins and membrane lipids. Our goal is to address fundamental questions on the identities of the Nav channel signaling complex components and to resolve their mechanisms of action at the molecular level. To this end, we combine several techniques including molecular biology, electrophysiology, genetics, and biochemistry. Successful completion of these goals will reveal key elements in the Nav channel signaling complex, help define Nav channel function in normal and pathological states, and may offer novel strategies for developing therapeutic drugs.

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