Inhibition of aquaporin-3 water channel in the colon induces diarrhea.

Aquaporin (AQP) 3, which is predominantly expressed in the colon, is considered to play an important role in regulating the fecal water content in the colon. In this study, the role of AQP3 in the colon was examined using HgCl(2) and CuSO(4), which are known to inhibit AQP3 function. The fecal water content was measured up to 1 h after the rectal administration of HgCl(2) or CuSO(4) to rats. The results showed that the fecal water content in the HgCl(2) administration group increased significantly to approximately 4 times that in the control group, and severe diarrhea was observed. However, no changes were observed in the mRNA expression level of the osmoregulatory genes (sodium myo-inositol transporter and taurine transporter) and the level and distribution of AQP3 protein expression, as determined 1 h after the administration of HgCl(2). Comparable results were observed in the CuSO(4) administration group. The results of this study indicated that the inhibition of AQP3 function in the colon caused diarrhea. Therefore, it has been revealed that the fecal water content in the colon is controlled by the transport of water from the luminal side to the vascular side, which is mediated by AQP3. Our findings suggest that a drug that modulates the function or expression of AQP3 in the colon may represent a new target for the development of laxatives.

The concomitant use of an osmotic laxative, magnesium sulphate, and a stimulant laxative, bisacodyl, does not enhance the laxative effect.

Patients with severe constipation are treated with combinations of several different laxatives. The purpose of this study is to examine whether the concomitant use of different laxatives enhances the laxative effect, using an osmotic laxative, magnesium sulphate (MgSO4), and a stimulant laxative, bisacodyl. The faecal water content of rats, to which MgSO4 and bisacodyl were coadministered, was lower than that in the MgSO4 group, while the change in the faecal water content over time was very similar to that in the bisacodyl group. The mRNA expression of the osmotic pressure marker, sodium/myo-inositol transporter, in the coadministration group 5h after the administration was significantly higher than that in the control group and almost equal to that in the MgSO4 group. The protein expression level of aquaporin-3 (AQP3), which plays an important role in water transfer, in the coadministration group decreased compared to the control group, as was the case in the bisacodyl group. The results of this study indicates that the coadministration of MgSO4 and bisacodyl does not enhance the laxative effect because the expression level of AQP3 in the colon in the coadministration group was almost equal to that in the bisacodyl group.