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GPER/GPR30 Estrogen Receptor: A Target for Pain Modulation

The G protein-coupled estrogen receptor GPER/GPER1, also known as GPR30, was originally cloned as an orphan receptor and later shown to be specifically activated by 17-ß-estradiol. This has led to its classification as an estrogen receptor and expanded the perspective on the mechanisms underlying the rapid estrogenic effects reported over the years. GPER is strongly expressed in the central nervous system and peripheral tissues and appears to be involved in a wide variety of physiological and pathological processes. Estrogens are known to alter the processing of nociceptive sensory information and analgesic responses in the central nervous system. Both analgesic and pro-nociceptive effects of estrogens have been reported. Some pro-algesic estrogenic responses have a short latency, suggesting a non-genomic mechanism of action. Immunohistochemical studies in rodents prove the existence of GPER in pain-relevant areas of the nervous system such as dorsal root ganglia, superficial dorsal horn of the spinal cord, periaqueductal gray (PAG), amygdala, trigeminal sensory nucleus and thalamus. In the periphery, activation of GPER results in pro-nociceptive effects. However, GPER involvement in pain processing at central levels is largely unexplored. Thus, the work presented in this thesis was aimed at investigating whether GPER modulates nociception at spinal and supraspinal sites. The behavioral response to GPER activation in the spinal cord and PAG was evaluated in an acute grooming test (scratching, biting and licking behavior) and in the hot plate test, respectively. Intrathecal challenge of mice with the GPER agonist G-1 (0.1-1 nmol) induced a dose-dependent increase in pain-related behaviors, that was abolished by pre-treatment with the GPER antagonist G15 (1-10 nmol), confirming GPER specificity of the response. Likewise, intra-PAG microinjection of G-1 (10-100 pmol) to rats reduced the nociceptive threshold in the hot plate test, an effect that was G15 sensitive. To obtain further insight on the mechanisms involved in the behavioral effects observed in whole animals, we tested the effect of GPER ligands on neuronal membrane potential, intracellular calcium concentration ([Ca2+]i) and reactive oxygen species (ROS) accumulation. The membrane depolarization and the increases in [Ca2+]i and ROS levels are markers of neuronal activation, underlying pain sensitization in the spinal cord and pain facilitation in the PAG. Electrophysiological recordings from superficial dorsal horn and lateral PAG neurons indicate neuronal depolarization upon G-1 application, an effect that was fully prevented by G15 pre-treatment. Both cultured spinal neurons and cultured PAG neurons responded to G-1 administration by elevating [Ca2+]i and mitochondrial and cytosolic ROS levels. In the presence of G15, G-1 did not elicit the calcium and ROS responses. Collectively, these results demonstrate that GPER modulates both the ascending and descending pain pathways to increase nociception via cytosolic calcium elevation and ROS accumulation in spinal and PAG neurons, respectively. These findings broaden the current knowledge on GPER involvement in physiology and pathophysiology, providing the first evidence of its pro-nociceptive effects at central levels and characterizing some of the mechanisms involved. Moreover, we show for the first time ROS accumulation downstream of GPER activation, extending the current understanding of GPER signaling. / Pharmacology

Identiferoai:union.ndltd.org:TEMPLE/oai:scholarshare.temple.edu:20.500.12613/1070
Date January 2012
CreatorsDeliu, Elena
ContributorsDun, Nae J., Abood, Mary Ellen, 1958-, Ashby, Barrie, Brailoiu, Eugen, Unterwald, Ellen M., Sapru, Hreday N.
PublisherTemple University. Libraries
Source SetsTemple University
LanguageEnglish
Detected LanguageEnglish
TypeThesis/Dissertation, Text
Format135 pages
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Relationhttp://dx.doi.org/10.34944/dspace/1052, Theses and Dissertations

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