Directory > Faculty
David Kreulen, Ph. D
 |
Professor of Physiology, Joint with
PM&R Center, College of Osteopathic Medicine
|
Kreulen
Lab Web Site
Areas
of Research Interest [PDF]
Regulation of the sympathetic nervous system; relationships between
sympathetic neuron properties and the regulation of blood vessels; neuromuscular
transmission in blood vessels.
In the autonomic nervous system the final neurons that innervate end
organs are grouped in autonomic ganglia. Ganglionic neurons are sites of
integration of efferent and sensory synaptic signals into a coordinated
regulation of multiple end organs whose function is often diverse. My research
interests are in the properties of sympathetic ganglia and the relationship
of the characteristics of individual neurons to the regulation of the cardiovascular
and gastrointestinal systems. To understand how the sympathetic ganglia
regulate and coordinate vascular and gastrointestinal function we are asking
the following questions:
-
What is the anatomical organization of the sympathetic ganglia innervating
the gastrointestinal tract and its blood supply?
-
Do individual neurons innervate multiple targets or just one type of tissue?
-
Do individual neurons innervate both arteries and veins?
-
Does a neuron that innervates an artery have properties that differentiate
it from a neuron that innervates a vein?
-
What are the membrane electrical properties of neurons that might distinguish
one functional type from another?
-
What transmitters are released from "artery neurons" or "vein neurons"?
-
What are the events in neuromuscular transmission in arteries and veins?
-
What are the developmental cues that neurotrophic factors from artery or
vein provide to determine the functional properties of sympathetic neurons?
PROJECTS
1.The organization of neurons in sympathetic ganglia based on innervation
target.
2.Electrophysiologic properties of different functional classes of
sympathetic neurons.
3.Interactions between primary sensory nerves and sympathetic ganglionic
neurons.
4.Trophic interactions between sympathetic ganglia and their target
tissues.
5.Comparison of neuromuscular transmission in artery and vein.
PUBLICATIONS:
Meehan, A.G. and Kreulen, D.L. Capsaicin-sensitive inhibitory reflex
from the gut to mesenteric arteries. J. Physiol. (London), 448: 153-159,
1992.
Morris, J.L., Gibbins, I.L., Kadowitz, P.J., Herzog, H., Kreulen,
D.L.,
Toda, N. and Claing, A. Roles of peptides and other substances in cotransmission
from vascular autonomic and sensory neurons. Canadian J. Physiology and
Pharmacology, 73: 521-532, 1995.
Zheng, Z.L., Shimamura, K., Anthony, T.L., Travagli, R.A., and
Kreulen,
D.L. Nitric oxide is a sensory nerve neurotransmitter to the mesenteric
artery of guinea pig. J. Autonomic Nervous System 67:137-144, 1997.
Browning, K.N., Zheng, Z.L., Kreulen, D.L. and Travagli, R.A. Effects
of nitric oxide in cultured prevertebral sympathetic ganglion neurons.J.
Pharm. Exp. Therap. 286: 1086-1093, 1998.
Browning, K.N., Zheng, Z.L., Kreulen, D.L. and Travagli, R.A. Two populations
of sympathetic neurons project selectively to mesenteric artery or vein.
In Press, Am. J. Physiol., 1999.
Other Publications
This will open a new browser window and connect you in to the NIH Entrez
search engine. Please, close the new window to come back to this page.
