RhoA/ROCK pathway is the major molecular determinant of basal tone in intact human internal anal sphincter
S Rattan, J Singh - American Journal of Physiology …, 2012 - journals.physiology.org
S Rattan, J Singh
American Journal of Physiology-Gastrointestinal and Liver …, 2012•journals.physiology.orgThe knowledge of molecular control mechanisms underlying the basal tone in the intact
human internal anal sphincter (IAS) is critical for the pathophysiology and rational therapy
for a number of debilitating rectoanal motility disorders. We determined the role of
RhoA/ROCK and PKC pathways by comparing the effects of ROCK-and PKC-selective
inhibitors Y 27632 and Gö 6850 (10− 8 to 10− 4 M), respectively, on the basal tone in the
IAS vs. the rectal smooth muscle (RSM). Western blot studies were performed to determine …
human internal anal sphincter (IAS) is critical for the pathophysiology and rational therapy
for a number of debilitating rectoanal motility disorders. We determined the role of
RhoA/ROCK and PKC pathways by comparing the effects of ROCK-and PKC-selective
inhibitors Y 27632 and Gö 6850 (10− 8 to 10− 4 M), respectively, on the basal tone in the
IAS vs. the rectal smooth muscle (RSM). Western blot studies were performed to determine …
The knowledge of molecular control mechanisms underlying the basal tone in the intact human internal anal sphincter (IAS) is critical for the pathophysiology and rational therapy for a number of debilitating rectoanal motility disorders. We determined the role of RhoA/ROCK and PKC pathways by comparing the effects of ROCK- and PKC-selective inhibitors Y 27632 and Gö 6850 (10−8 to 10−4 M), respectively, on the basal tone in the IAS vs. the rectal smooth muscle (RSM). Western blot studies were performed to determine the levels of RhoA/ROCK II, PKC-α, MYPT1, CPI-17, and MLC20 in the unphosphorylated and phosphorylated forms, in the IAS vs. RSM. Confocal microscopic studies validated the membrane distribution of ROCK II. Finally, to confirm a direct relationship, we examined the enzymatic activities and changes in the basal IAS tone and p-MYPT1, p-CPI-17, and p-MLC20, before and after Y 27632 and Gö 6850. Data show higher levels of RhoA/ROCK II and related downstream signal transduction proteins in the IAS vs. RSM. In addition, data show a significant correlation between the active RhoA/ROCK levels, ROCK enzymatic activity, downstream proteins, and basal IAS tone, before and after ROCK inhibitor. From these data we conclude 1) RhoA/ROCK and downstream signaling are constitutively active in the IAS, and this pathway (in contrast with PKC) is the critical determinant of the basal tone in intact human IAS; and 2) RhoA and ROCK are potential therapeutic targets for a number of rectoanal motility disorders for which currently there is no satisfactory treatment.
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