Gene/Protein
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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0344307 (
analgesia
)
28,200
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Patients with cholestatic disease exhibit pruritus and
analgesia
, but the mechanisms underlying these symptoms are unknown. We report that bile acids, which are elevated in the circulation and tissues during cholestasis, cause itch and
analgesia
by activating the GPCR
TGR5
.
TGR5
was detected in peptidergic neurons of mouse dorsal root ganglia and spinal cord that transmit itch and pain, and in dermal macrophages that contain opioids. Bile acids and a
TGR5
-selective agonist induced hyperexcitability of dorsal root ganglia neurons and stimulated the release of the itch and
analgesia
transmitters gastrin-releasing peptide and leucine-enkephalin. Intradermal injection of bile acids and a
TGR5
-selective agonist stimulated scratching behavior by gastrin-releasing peptide- and opioid-dependent mechanisms in mice. Scratching was attenuated in Tgr5-KO mice but exacerbated in Tgr5-Tg mice (overexpressing mouse
TGR5
), which exhibited spontaneous pruritus. Intraplantar and intrathecal injection of bile acids caused
analgesia
to mechanical stimulation of the paw by an opioid-dependent mechanism. Both peripheral and central mechanisms of
analgesia
were absent from Tgr5-KO mice. Thus, bile acids activate
TGR5
on sensory nerves, stimulating the release of neuropeptides in the spinal cord that transmit itch and
analgesia
. These mechanisms could contribute to pruritus and painless jaundice that occur during cholestatic liver diseases.
...
PMID:The TGR5 receptor mediates bile acid-induced itch and analgesia. 2453 50
Bile acids (BAs) are digestive secretions that are necessary for the emulsification and absorption of dietary fats. Given the episodic nature of BA secretion and intestinal re-absorption, the circulating and tissue levels of BAs, like those of the gut hormones, fluctuate in fasting and fed states, and BA levels and forms are markedly affected by disease. BAs exert widespread hormonal-like effects by activating receptors in the nucleus and at the plasma membrane. The nuclear steroid receptors mediate the genomic actions of BAs on BA, glucose and lipid homeostasis. GPBA (
TGR5
) is a G-protein coupled plasma membrane receptor for BAs that mediates many of the rapid, non-genomic actions of BAs. GPBA has been implicated in the control of glucose homeostasis, inflammation and liver functions. Recent observations have revealed an unexpected role for GPBA in the nervous system. GPBA is expressed by enteric neurons and enterochromaffin cells that control peristalsis, and GPBA mediates the prokinetic actions of BAs in the colon that have been known for millennia. GPBA is also present on primary spinal afferent and spinal neurons that are necessary for sensory transduction. BA-induced activation of GPBA in the sensory nervous system promotes scratching behaviours and
analgesia
, which may contribute to the pruritus and painless jaundice that are observed in some patients with chronic cholestatic disease, where circulating BA concentrations are markedly increased. Thus, GPBA has emerged as an intriguing target for diverse metabolic, inflammatory, digestive and sensory disorders, where agonists and antagonists may be of value.
...
PMID:GPBA: a GPCR for bile acids and an emerging therapeutic target for disorders of digestion and sensation. 2411 23
