Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0344307 (analgesia)
 28,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pharmacological interest in the tripeptide thyrotropin-releasing hormone (TRH) is due to the multiple effects it produces. In fact, apart from taking part in regulating the activity of the hypothalamo-pituitary-thyroid axis, TRH produces various neuropharmacological effects which indicate a biological role that is probably more important than that of a releasing hormone. Trials performed in animals have shown, for example, the dose-dependent capacity of TRH to induce analgesia, probably by interacting with the opioid peptide system. Motor activity is affected by TRH. In fact this tripeptide elicits an increase in spontaneous motor and explorative activities by interacting with the dopaminergic neurotransmitter system at the nucleus accumbens level. The neuropharmacological activities of TRH include an interesting arousal effect and an analeptic action on generalized depression of the CNS whether this depression is of natural origin, such as hibernation, or induced pharmacologically (barbiturates, ethanol) or of a traumatic origin (coma). This analeptic action is attributable to stimulation of cholinergic neurons in the septo-hippocampal area and to the presence of terminals containing TRH in the lateral septum and TRH receptors concentrated especially in the medial septum and diagonal band of Broca. It has also been suggested that TRH localized in the pineal gland has a part in activating the neuronal mechanisms of arousal. Associated with the arousal effect and especially evident in variously originated shock conditions are the activating effects of TRH on vegetative functions (body temperature, circulation, the gastrointestinal tract). These stimulatory activities on the CNS were the rationale for therapeutic use of TRH in the initial treatment of coma due to brain trauma and for the treatment of endogenous depression. A most interesting property of TRH is that of counteracting the neurological deficit due to experimental lesion of the spinal cord particularly with regard to spasticity and ataxia. Electrophysiological trials have shown that TRH depolarizes the motoneurons in frog spinal cord thereby increasing the monosynaptic reflex. Furthermore, TRH has recently been shown to have a trophic effect on cultures of rat fetus spinal cord. On this basis TRH has been used successfully for the treatment of amyotropic lateral sclerosis (Charcot's syndrome) and spinocerebellar degeneration. Further support for this therapeutic strategy is given by the demonstration that deafferentiation of rat spinal cord produces an increased density of TRH spinal receptors. Recent studies have also given encouraging results on the possible therapeutic use of TRH for the treatment of Alzheimer's disease.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Pharmacologic profile of protirelin tartrate]. 212 84

In addition to short-acting analgesic actions by itself and modulation of analgesic responses induced by endogenous opioids and neurotensin, central administration of thyrotropin-releasing hormone (TRH) potentiates footshock analgesia. The present study evaluated the effects of TRH upon the neurohormonally-mediated though nonopioid analgesia induced by swims in rats. Intracerebroventricular TRH (10 and 50 micrograms) dose-dependently potentiated swim (21, 15, 2 degrees C baths) analgesia on the tail-flick test, an effect which was not due to the hypothermic or basal pain threshold changes. Intravenous (8 mg/kg) TRH potentiated swim (21 degrees C) analgesia; the 600:1 difference in potency between routes strongly suggests central sites of neuromodulatory action. Intracerebroventricular diketopiperazine (50 micrograms), a TRH metabolite, and RX77368 (50 micrograms), a TRH analogue, also potentiated swim (21 degrees C) analgesia, effects also independent of hypothermia and basal reactivity to pain. Finally, given the excitatory interaction between TRH and acetylcholine as well as the cholinergic involvement in swim analgesia, intracerebroventricular TRH potentiated pilocarpine (10 mg/kg, IP) analgesia.
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PMID:Neuromodulatory effects of TRH upon swim and cholinergic analgesia. 310 67

A large number of neurotransmitters and neuropeptides are concentrated in the dorsal horn of the spinal cord, where they interact in a complex manner and modulate sensory mechanisms. Most studies are carried out in the rat, and little is known of other species. It is relevant to study mammals with a more complex central nervous system, because pain mechanisms are central in both human and veterinary medicine. Immunoreactivity for neuropeptide FF, an amidated octapeptide originally isolated from bovine brain, was found immunocytochemically at all levels of porcine spinal cord. In contrast to other species studied so far, the peptide immunoreactivity in porcine spinal cord was confined to the intermediolateral gray matter, especially to the intermediolateral cell column and lamina X of the gray matter. This distribution was remarkably different from that of substance P, proenkephalin A-derived peptides, thyrotropin-releasing hormone, serotonin, and neuropeptide Y. Pharmacologic administration of neuropeptide FF alters behavior in assays for analgesia. The distribution of neuropeptide FF immunoreactivity as revealed by this study suggests that there may be marked species differences in the distribution and function of the peptide.
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PMID:Distribution of neuropeptide FF in porcine spinal cord in comparison with other neuropeptides and serotonin. 752 61