Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0406810 (NAME)
 13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

GABAergic regulation of intestinal motility through the modulation of non-adrenergic non-cholinergic (NANC) neurons remains poorly understood especially in rat colon where very few studies have been undertaken. Therefore, the effects of GABA on circular preparations of rat distal colon were investigated using classical organ bath chambers to record spontaneous mechanical activities (SMA). SMA was characterized by the occurrence of rhythmic phasic contractions (type-I) or by spontaneously occurring large contractions superimposed on small rhythmic contractions (type-II). In the presence of atropine and guanethidine (NANC conditions), these large contractions were inhibited by bicuculline, a GABA(A)-receptor antagonist as well as by TTX, L-NAME and apamin together, or L 732-138, a NK1-receptor antagonist. In NANC conditions, GABA induced a transient monophasic relaxation or a biphasic effect characterized by a relaxation followed by a tonic contraction in both type-I and -II preparations. Both the inhibitory and excitatory effects of GABA were blocked by TTX and L-NAME + apamin; the GABA-induced contraction was also sensitive to L 732-138. The responses to GABA were mimicked by the GABA(A)-receptor agonist, muscimol, whereas baclofen and CACA, respectively GABA(B) and GABA(C)-receptors agonists showed no effect. These results demonstrated that only GABA(A)-receptors seem to be involved in the regulation of SMA in rat distal colon in NANC conditions. Release of NANC inhibitory transmitter (NO and probably ATP) and NANC excitatory transmitter (maybe substance P) might be involved.
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PMID:Effects of GABA on circular smooth muscle spontaneous activities of rat distal colon. 1208 88

In the enteric nervous system, activation of neuronal GABA(A)- and GABA(B)-receptors has been shown to modulate neuronal activity. The consequences of this modulation depend on the location in the gastrointestinal tract or the animal species studied. These data illustrate the complexity of GABA-induced effects. Furthermore, the GABA(C)-receptor has been identified in a neuroendocrine cell line suggesting a modulating role of this third type of GABA receptor in intestinal functions. Therefore, the modulating role of GABA-receptor agonists was determined in circular preparations of rat distal colon during electrical nerve stimulation (NS) in vitro. Mechanical response to NS was characterized by a relaxation followed at the end of the stimulation by an off-contraction. In normal Krebs solution (basal conditions), muscimol and baclofen, respectively GABA(A)- and GABA(B)-agonists, induced a significant increase of the electrically induced off-contraction. The GABA(C) agonist, CACA, showed no significant effect on the response to NS. Excitatory effects of muscimol on the off-contraction were abolished in the presence of atropine. Furthermore, in the presence of atropine, muscimol increased the amplitude of the electrically induced relaxation; similarly the baclofen-induced increase of off-contraction amplitude was significantly lower than that observed in control conditions. Baclofen and muscimol effects on the off-contraction were abolished in the presence of hexamethonium or guanethidine. Furthermore, muscimol and baclofen did not induce any significant change on the response to NS in the presence of L-NAME and apamin together. Thus, it seems that in rat distal colon, GABA regulates significantly both excitatory (through GABA(A)- and GABA(B)-receptors) and inhibitory (through GABA(A)-receptors) neuronal activities. We also gave evidence for a possible interplay between GABAergic intrinsic neurons and adrenergic nerve terminals. Finally, it is shown for the first time the presence of the GABA vesicular transporter (VIAAT) around myenteric ganglia of rat colon.
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PMID:Functional evidence for a role of GABA receptors in modulating nerve activities of circular smooth muscle from rat colon in vitro. 1253 16