BACKGROUND AND AIMS: Interstitial cells of Cajal (ICC) have been shown to be involved in nitrergic neurotransmission of the lower oesophageal sphincter and pylorus. Here we studied the role of ICC and nitric oxide (NO) in the inhibitory neurotransmission of the murine internal anal sphincter (IAS). METHODS: The rectoanal inhibitory reflex, rectal compliance, and relaxation of the isolated IAS to electrical stimulation were measured in controls, KIT (W)/KIT (Wv) mice, and neuronal NO synthase (nNOS) deficient mice. In addition, we evaluated the effect of blockade of nNOS using N-nitro-L-arginine methyl ester. Distribution of nNOS positive neurones and ICC in the IAS was assessed immunohistochemically. RESULTS: KIT positive ICC were present in a dense network in the IAS of controls but not in KIT (W)/KIT(Wv) mice. Relaxation of IAS muscle strips induced by electrical stimulation was diminished in nNOS-/- mice but not in KIT (W)/KIT (Wv) mice. Blockade of NOS reduced the relaxation of IAS muscle strips in both mice. Relaxation of the IAS to rectal distension was significantly diminished in KIT (W)/KIT (Wv) mice and nNOS deficient mice. In concert, in vivo blockade of NOS attenuated the relaxation of the IAS in controls. No significant difference in compliance was found. CONCLUSION: The inhibitory innervation of the IAS and the rectoanal inhibitory reflex are mediated by NO and the rectoanal inhibitory reflex requires an intact network of ICC in the IAS. Thus both loss of nitrergic innervation and deficiency of ICC lead to impaired anal relaxation and may play an important role in rectal evacuation disorders.
BACKGROUND AND AIMS: Interstitial cells of Cajal (ICC) have been shown to be involved in nitrergic neurotransmission of the lower oesophageal sphincter and pylorus. Here we studied the role of ICC and nitric oxide (NO) in the inhibitory neurotransmission of the murine internal anal sphincter (IAS). METHODS: The rectoanal inhibitory reflex, rectal compliance, and relaxation of the isolated IAS to electrical stimulation were measured in controls, KIT (W)/KIT (Wv) mice, and neuronal NO synthase (nNOS) deficient mice. In addition, we evaluated the effect of blockade of nNOS using N-nitro-L-arginine methyl ester. Distribution of nNOS positive neurones and ICC in the IAS was assessed immunohistochemically. RESULTS:KIT positive ICC were present in a dense network in the IAS of controls but not in KIT (W)/KIT(Wv) mice. Relaxation of IAS muscle strips induced by electrical stimulation was diminished in nNOS-/- mice but not in KIT (W)/KIT (Wv) mice. Blockade of NOS reduced the relaxation of IAS muscle strips in both mice. Relaxation of the IAS to rectal distension was significantly diminished in KIT (W)/KIT (Wv) mice and nNOS deficient mice. In concert, in vivo blockade of NOS attenuated the relaxation of the IAS in controls. No significant difference in compliance was found. CONCLUSION: The inhibitory innervation of the IAS and the rectoanal inhibitory reflex are mediated by NO and the rectoanal inhibitory reflex requires an intact network of ICC in the IAS. Thus both loss of nitrergic innervation and deficiency of ICC lead to impaired anal relaxation and may play an important role in rectal evacuation disorders.
Authors: S E Kenny; J M Vanderwinden; R J Rintala; M G Connell; D A Lloyd; J J Vanderhaegen; M H De Laet Journal: J Pediatr Surg Date: 1998-01 Impact factor: 2.545
Authors: C A Cobine; G W Hennig; Y R Bayguinov; W J Hatton; S M Ward; K D Keef Journal: Am J Physiol Gastrointest Liver Physiol Date: 2010-02-11 Impact factor: 4.052