The short-chain fatty acid butyrate was readily taken up by Caco-2 cells. Transport exhibited saturation kinetics, was enhanced by low extracellular pH, and was Na(+) independent. Butyrate uptake was unaffected by DIDS; however, alpha-cyano-4-hydroxycinnamate and the butyrate analogs propionate and L-lactate significantly inhibited uptake. These results suggest that butyrate transport by Caco-2 cells is mediated by a transporter belonging to the monocarboxylate transporter family. We identified five isoforms of this transporter, MCT1, MCT3, MCT4, MCT5, and MCT6, in Caco-2 cells by PCR, and MCT1 was found to be the most abundant isoform by RNase protection assay. Transient transfection of MCT1, in the antisense orientation, resulted in significant inhibition of butyrate uptake. The cells fully recovered from this inhibition by 5 days after transfection. In conclusion, our data showed that the MCT1 transporter may play a major role in the transport of butyrate into Caco-2 cells.
A family of anion exchangers (AEs) including AE1, AE2 and AE3 has been described. AE3 gene has been shown to encode two alternatively spliced isoforms termed as bAE3 (brain subtype) and cAE3 (cardiac subtype). The identity of the AE(s) involved in the human intestinal NaCl absorption is not fully understood. Current studies were undertaken to identify the AE isoforms expressed in the human intestine, to define their regional and vertical axis (crypt vs. surface cells) distribution, and to elucidate their membrane localization in the epithelial cells along the entire length of the human intestine. Our studies utilizing reverse transcription (RT)-PCR with total RNA extracted from pinch biopsies from various regions of the human intestine demonstrate that AE2 and bAE3 but not AE1 or cAE3 were expressed in all the regions of the human intestine. Utilizing in situ RT-PCR, we demonstrated that the message of AE2 was expressed throughout the vertical surface--crypt axis of the colon. Our Western blotting studies demonstrated that AE2 and bAE3 are localized to the basolateral but not the apical membranes of the intestinal epithelial cells from the human ileum and colon. In conclusion, our results demonstrated that in the human intestine, AE2 and bAE3, but not AE1 or cAE3, are expressed throughout the tract with the highest expression in the colon compared to the ileum and jejunum. Both the isoforms were found to be localized to the basolateral but not the apical membranes of the epithelial cells. We speculate that, in the human intestine, AE2 and bAE3 may be the 'housekeeping' isoforms, and the apical AE, the potential candidate for chloride absorption, remains to be identified.
Mammalian small intestinal apolipoprotein B (apo B) mRNA undergoes posttranscriptional cytidine deamination with the production of an In frame stop codon and the translation of apo B48. We have isolated a cDNA from human jejunum which mediates In vitro editing of a synthetic apo B RNA template upon compiementation with chicken Intestinal S100 extracts.
Butyrate, a short-chain fatty acid, is the major energy fuel for the colonocytes. We have previously reported that monocarboxylate transporter isoform 1 (MCT1) mediates uptake of butyrate by human colonic Caco-2 cells. To better understand the mechanisms of MCT1 expression and regulation in the human intestine, we examined the activity and regulation of MCT1 promoter in Caco-2 cells. The transcription initiation site in the MCT1 promoter was identified as a guanine nucleotide 281 bp upstream from the translation initiation site and is surrounded by a guanine-cytosine-rich area. The promoter was found to be highly active when transfected into Caco-2 cells, and its activity decreased with deletions at its 5Ј-end. Gel mobility shift experiments showed binding of the transcription factors upstream stimulatory factor (USF)1 and 2 to the site Ϫ114 to Ϫ119 of the MCT1 promoter. With the use of site-directed mutagenesis and promoter activity in Caco-2 cells, the USF proteins appeared to have a repressor role on the MCT1 promoter, which was further confirmed by cotransfecting expression vectors encoding USF1 and 2 in Caco-2 cells and determining endogenous MCT1 expression in USF2 overexpressed cells. The two potential SP1 binding sites found in the same region of the promoter were found not to be involved in its regulation.short-chain fatty acids; transcriptional regulation; cis elements; mutagenesis; upstream stimulatory factors
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