Dr. Edward M Liberman

Edward M. Lieberman, Ph.D.

Professor Emeritus
Department of Physiology

Brody		6W-43
Phone		252.744.2771
FAX		252.744.3460

liebermane@ecu.edu

1959		B.S., Tufts University, Medford, MA
1961		M.S., University of Massachusetts, Amherst, MA
1965		Ph.D., University of Florida, Gainesville, FL
1966-1968		Swedish Medical Research Council Postdoctoral Fellow, University of Uppsala, Sweden

Address

Dr. Edward M. Lieberman

East Carolina University

Brody School of Medicine

Physiology Department

600 Moye Blvd.

6W-43 Brody Bldg.

Greenville, NC 27834

Research Interests

Physiology Research Summary #5

The Physiological Basis for Neuron-Glia Interactions
Perineural Potassium Ion Homeostasis
Metabolic Properties of Nerve and Glia
NAAG, Glutanate +NO-induced nerotoxicity

Recent Publications

Urazaev A.K., Grossfeld R.M., Fletcher P.L., Speno H., Gafurov B.S., Buttram J.G., Lieberman E.M. (2001) Synthesis and release of N-acetylaspartylglutamate (NAAG) by crayfish nerve fibers: Implications for axon-glia signaling. Neuroscience 106(1): 237-247.

Gafurov B., Urazaev A.K., Grossfeld R.M., Lieberman E.M. (2001) N- acetylaspartylglutamate (NAAG) is the probable mediator of axon-to-glia signaling in the crayfish medial giant nerve fiber. Neuroscience 106(1): 227-235.

Gafurov B.S., Urazaev A.K., Grossfeld R.M., and Lieberman E.M. (2002) Mechanism of NMDA receptor contribution to axon-to-glia signaling in the crayfish medial giant nerve fiber. Glia 38:80-86

Urazaev A.K., Grossfeld R.M., and Lieberman E.M. (2005) Regulation of glutamate carboxypeptidase II hydrolysis of N-acetylaspartylglutamate (NAAG) in crayfish nervous tissue is mediated by glial glutamate and acetylcholine receptors. J Neurochem. 93(3): 605-610

Beshay, J.E., Hahn, P., Beshay, V.E., Hargittai, P.T. and Lieberman, E.M. (2005) Activity-dependent change in the morphology of the glial tubular lattice of the crayfish medial giant nerve fiber. Glia 51:121-131

More Publications:

Stewart, W.C., Pekala, P.H. and Lieberman, E.M. Acute and Chronic Regulation of Na+/K+- ATPase Transport Activity In The RN22 Schwann Cell Line. GLIA 23: 349-360 (1998)

Urazaev A.K., Buttram J.G., Deen J.P., Gafurov B.S., Slusher B.S., Grossfeld R.M., Lieberman E.M. (2001) Mechanisms for clearance of released N-acetylaspartylglutamate in crayfish nerve fibers: Implications for axon-glia signaling. Neuroscience 107(4):697-703.

Malomouzh A.I., Mukhtarov M.R., Nikolsky E.E., Vyskočil F., Lieberman E.M., Urazaev A.Kh. (2003) Glutamate regulation of non-quantal release of acetylcholine in the rat neuromuscular junction. J.Neurochem. 85:206-213.

Malomouzh, A.I., Nikolsky, E.E., Lieberman, E.M., Sherman, J.A., Lubischer, J., Grossfeld,

R.M. and Urazaev, A.K. (2005) Effect of n-acetylaspartylglutamate (naag) on non-quantal and spontaneous quantal release of acetylcholine at the neuromuscular synapse of rat. J. Neurochemistry 94:257-267

Olanrewaju HA, Gafurov BS, and Lieberman EM, (2002) Adenosine A_2A and A_2B receptors-mediated hyperpolarization in porcine coronary artery endothelial cells. J. Cardiovasc. Pharm. 40:43-49.

For more publications written by Dr. Lieberman, visit the following website:

Additional Publications at PubMed

Personal Interest

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