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conferenceseries

.com

June 26-27, 2017 San Diego, USA

13

th

International conference on

Pathology and Molecular Diagnosis

Volume 7, Issue 2 (Suppl)

J Clin Exp Pathol, an open access journal

ISSN:2161-0681

Pathology and Molecular Diagnosis 2017

June 26-27, 2017

Expression of G-protein coupled receptors in the basal region of the gastrointestinal epithelium

Elena Kleymenova, William Benson Jr

and

Jean-Louis Klein

GlaxoSmithKline, USA

G

-protein coupled receptors (GPCRs) regulate gastrointestinal food intake making them attractive targets for therapeutic

interventions of the metabolic syndrome and type II diabetes as well as nutritional control. Basal insulin release and

insulin-mediated glucose uptake and dispensation are in part controlled by fatty acids. FFAR1-3 are among principal receptors

to free fatty acids and have been proposed as chemo sensors of short/medium (FFAR1) and long (FFAR2-3) free fatty acids in

the gut content. Operating in concert with FFARs, GPR 119 is believed to act as a chemo sensor of locally fat-derived molecules

in the gut lumen. The luminal chemo sensing hypothesis was largely based on expression of these GPCRs in the gastrointestinal

enteroendocrine cells. By IHC, we have also detected expression of FFARs and GPR119 in the basal compartment of

enteroendocrine cells. In addition, we have observed expression of these GPCRs at the basolateral aspect of the cell plasma

membrane of human and rodent enterocytes. GPR 39, a member of ghrelin/neurotensin receptor subfamily involved in Zn-

mediated insulin secretion and gastric emptying was also detected by IHC in enteroendocrine cells and enterocytes at the

basolateral aspect of the cell plasma membrane. In polarized CaCo-2 cells used to

in vitro

model gastrointestinal nutrient

uptake GPR 39 was expressed at the basolateral aspect of the cell plasma membrane as well. Expression of FFARs, GPR119

and GPR 39 at the basal region of the gastrointestinal epithelium highlights the complexity of the food intake regulation and

the need for revision of the luminal chemosensing model. The human biological samples were sourced ethically and their

research use was in accord with the terms of the informed consents. All studies were conducted in accordance with the GSK

Policy on the Care, Welfare and Treatment of Laboratory Animals and were reviewed by the Institutional Animal Care and Use

Committee either at GSK or by the ethical review process at the institution where the work was performed.

Biography

Elena Kleymenova holds Master’s Degree in Physics from M Lomonosov Moscow State University (Russia) and PhD in Biology from NN Blochin Cancer Research

Center of the Russian Academy of Medical Sciences (Russia). She has conducted Post-doctoral Research at MD Anderson Cancer Center in Texas and continued

her studies as a Research Associate at Hamner Institute for Health Sciences, North Carolina. She has authored more than 25 articles in reputed peer-reviewed Life

Science journals and served on several NIH Extramural Researches review panels. Currently, she is a Senior Scientific Investigator at the pharmaceutical company,

GlaxoSmithKline where she is involved in molecular profiling of new drug targets.

elena.v.kleymenova@gsk.com

Elena Kleymenova et al., J Clin Exp Pathol 2017, 7:2 (Suppl)

DOI: 10.4172/2161-0681-C1-035