Bruce Bean

Bruce Palmer Bean, PhD

Robert Winthrop Professor of Neurobiology

Neuronal Excitability and Ion Channel Pharmacology

Neurons communicate with each other using electrical impulses. Information is encoded as patterns of “action potentials”, millisecond-long reversals of the voltage across the cell membrane. Different neurons in the brain fire action potentials with a variety of distinct patterns. The Bean lab seeks to understand these different patterns of firing in terms of the underlying molecular devices – tiny pores in the membrane known as ion channels.

In mammalian brains, each neuron possesses several dozen different types of ion channels. Most of these are closed when the neuron is at rest (electrically silent). It is the coordinated, transient opening, or “gating” of particular types of ion channels that underlies electrical signaling. To understand how different combinations of ion channels work together to generate the distinct patterns of action potential firing in different neurons, we make electrical recordings of these cells using patch clamp, voltage clamp and other electrophysiological approaches.

Our goal is to use knowledge of the particular ion channels in different kinds of neurons to find new drugs that can selectively inhibit or enhance electrical activity of specific type of neurons by targeting specific ion channels. In collaboration with Dr. Clifford Woolf’s laboratory, we are currently focused on finding new drugs to treat pain, itch, and cough. We are also seeking to identify new drugs to disrupt epileptic activity.

Publications View
Modulating modulation.
Authors: Authors: Bean BP.
J Gen Physiol
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Altered regulation of potassium and calcium channels by GABA(B) and adenosine receptors in hippocampal neurons from mice lacking Galpha(o).
Authors: Authors: Greif GJ, Sodickson DL, Bean BP, Neer EJ, Mende U.
J Neurophysiol
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Properties of sodium currents and action potential firing in isolated cerebellar Purkinje neurons.
Authors: Authors: Raman IM, Bean BP.
Ann N Y Acad Sci
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beta subunit reshuffling modifies N- and P/Q-type Ca2+ channel subunit compositions in lethargic mouse brain.
Authors: Authors: Burgess DL, Biddlecome GH, McDonough SI, Diaz ME, Zilinski CA, Bean BP, Campbell KP, Noebels JL.
Mol Cell Neurosci
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Ionic currents underlying spontaneous action potentials in isolated cerebellar Purkinje neurons.
Authors: Authors: Raman IM, Bean BP.
J Neurosci
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Mibefradil inhibition of T-type calcium channels in cerebellar purkinje neurons.
Authors: Authors: McDonough SI, Bean BP.
Mol Pharmacol
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Neurotransmitter activation of inwardly rectifying potassium current in dissociated hippocampal CA3 neurons: interactions among multiple receptors.
Authors: Authors: Sodickson DL, Bean BP.
J Neurosci
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Spontaneous activity of solitary dopaminergic cells of the retina.
Authors: Authors: Feigenspan A, Gustincich S, Bean BP, Raviola E.
J Neurosci
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Two for T.
Authors: Authors: Bean BP, McDonough SI.
Neuron
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Voltage-dependent inhibition of N- and P-type calcium channels by the peptide toxin omega-grammotoxin-SIA.
Authors: Authors: McDonough SI, Lampe RA, Keith RA, Bean BP.
Mol Pharmacol
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