Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020672 (hypothermia)
 17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examined the ability of the anti-opioid Neuropeptide FF (NPFF) to modify the endogenous activity of nitric oxide (NO). Antinociceptive and hypothermic effects of 1DMe (D.Tyr-Leu-(n.Me)Phe-Gln-Pro-Gln-Arg-Phe-NH(2)), an NPFF agonist, and of L-NAME (N(omega)nitro-L-arginine methyl ester), an inhibitor of nitric oxide synthase, were investigated in mice. Intraperitoneal (i.p.) injection of L-NAME induced, in the hot plate test, a dose-dependent antinociception not reversed by naloxone, an opioid antagonist, but inhibited by L-Arg, the NO synthesis precursor. Intracerebroventricular (i.c.v.) injections of 1DMe inhibit the antinociceptive activity of L-NAME in a dose-dependent manner. On the contrary, L-NAME markedly potentiated hypothermia induced by 1DMe injected in the third ventricle. These data show that Neuropeptide FF receptors exert a dual effect on endogenous NO functions and could modulate pain transmission independently of opioids.
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PMID:Opposing interplay between Neuropeptide FF and nitric oxide in antinociception and hypothermia. 1103 7

The pharmacological effects of Neuropeptide FF (NPFF) analogs exhibiting different selectivities towards Neuropeptide FF1 (NPFF1) and Neuropeptide FF2 (NPFF2) receptors were investigated after supraspinal administration in mice. Injected into the third ventricle, VPNLPQRF-NH2, which is selective for Neuropeptide FF1 receptor induced a hypothermia while EFWSLAAPQRF-NH2 and SPAFLFQPQRF-NH2 which are selective for Neuropeptide FF2 receptor, did not. Furthermore, EFWSLAAPQRF-NH2 significantly increased the body temperature when compared to saline treated mice, indicating that Neuropeptide FF1 receptor could be responsible for hypothermia while Neuropeptide FF2 mediated an hyperthermic effect. After administration into the lateral ventricle, 1DMe ([D.Tyr1,(N.Me)Phe3]NPFF), a weakly selective Neuropeptide FF2 receptor agonist, exerted a clear anti-opioid effect in the tail flick test. The selective Neuropeptide FF1 receptor agonist VPNLPQRF-NH2 did not induce significant anti-opioid actions but rather increased, dose-dependently, morphine analgesia while EFWSLAAPQRF-NH2, the highest selective Neuropeptide FF2 receptor analog, induced the same pharmacological effect as VPNLPQRF-NH2 at comparable doses. These features indicate that the pro- and anti-opioid actions are not strictly related to the selectivity towards Neuropeptide FF2 or Neuropeptide FF1 receptor. Our data demonstrate that Neuropeptide FF1 and Neuropeptide FF2 receptors differently modulate nervous system functions.
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PMID:Comparison of pharmacological activities of Neuropeptide FF1 and Neuropeptide FF2 receptor agonists. 1568 Feb 60

Neuropeptide FF (NPFF) belongs to a neuropeptide family including two precursors (pro-NPFF A and pro-NPFF B) and two receptors (NPFF1 and NPFF2). Very recently, the novel compound RF9 was reported as the truly selective antagonist on NPFF receptors. The present study examined the effects of RF9 on the hypothermia and anti-morphine action induced by NPFF in mice. (1) RF9 injected into the third ventricle was devoid of any residual agonist activity, but it completely antagonized the hypothermic effects of NPFF (30 or 45 nmol) after cerebral administration in mice; (2) RF9 did not alter the tail-flick latency and morphine analgesia in nociceptive test, however, co-administration of RF9 prevented the anti-morphine action of intracerebroventricularly applied NPFF (10 nmol, i.c.v.) in the mouse tail-flick assay. Collectively, our data indicate that RF9, behaving as a truly pure NPFF receptors antagonist, prevents NPFF-induced drops of the body temperature and morphine analgesia in mice. In addition, it further confirms that the hypothermia and anti-morphine action of NPFF are mediated directly by NPFF receptors.
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PMID:Inhibition of neuropeptide FF (NPFF)-induced hypothermia and anti-morphine analgesia by RF9, a new selective NPFF receptors antagonist. 1827 24