Browsing by Author "Chen, Hong"
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- Cloning, Expression, and Developmental and Dietary Regulations of a Chicken Intestinal Peptide Transporter and Characterization and Regulation of an Ovine Gastrointestinal Peptide Transporter Expressed in a Mammalian Cell LineChen, Hong (Virginia Tech, 2001-09-28)To study peptide absorption in chickens, an intestinal peptide transporter cDNA (cPepT1) was isolated from a chicken cDNA library. The cDNA was 2,914-bp and encoded a protein of 714 amino acid residues. Twenty-three di-, tri-, and tetra-peptides were used for functional analysis of cPepT1 in Xenopus oocytes and Chinese hamster ovary (CHO) cells. For most di- and tripeptides tested, the Kt was in the micromolar range, except Lys-Lys and Lys-Trp-Lys. Northern analysis demonstrated that cPepT1 is expressed strongly in the small intestine, and at lower levels in kidney and cecum. These results demonstrated the presence and functions of a peptide transporter in chickens. cPepT1 mRNA abundance was evaluated in response to developmental and dietary regulations. In Experiment 1, eggs at incubation day 18 (E18) and Cobb chicks after hatch (d 0) were sampled before treatments. Three groups of chicks were fed diets containing 12, 18, or 24% crude protein (CP). Feed intake of chicks fed the 18 or 24% CP diets was restricted to that of chicks fed the 12% CP diet. In Experiment 2, a fourth group with free access to the 24% CP diet was added. cPepT1 mRNA abundance was quantified from northern blots. By d 0, there was a 50-fold increase in cPepT1 mRNA abundance compared with E 18. In chicks fed the 12% CP diet, cPepT1 mRNA abundance decreased throughout the 35 d. Chicks fed 18 or 24% CP diets showed an increase in cPepT1 mRNA abundance with time. In chicks with free access to the 24% CP diet, cPepT1 mRNA decreased until d 14 but returned to an intermediate level at d 35. Our results indicate that cPepT1 mRNA is regulated by both dietary protein and developmental stage. To investigate the kinetics of an ovine peptide transporter (oPepT1), CHO cells were transfected with oPepT1 cDNA. Uptake of Gly-Sar by transfected cells was pH-dependent, concentration-dependent, and saturable. Competition studies showed that all di-, tri-, and tetra-peptides inhibited uptake of Gly-Sar. Pretreatment of the cells with staurosporine resulted in an increase in peptide transport. This increase was blocked by pretreatment with PMA. The results indicate that protein kinase plays a role in oPepT1 function.
- Tissue Distribution of a Peptide Transporter mRNA in Sheep, Dairy Cows, Pigs, and ChickensChen, Hong (Virginia Tech, 1998-07-20)To study the mRNA found in sheep omasal epithelium encoding for a peptide transport protein(s), a 446-bp cDNA fragment was cloned from sheep omasal epithelium RNA. The predicted amino acid sequence of this fragment was 85.8, 90.5, and 90.5 percent identical to rabbit, human, and rat PepT1, respectively. The fragment was radiolabeled for use as a probe to study the distribution of the mRNA in various tissues. Total RNA was extracted and mRNA was isolated from the epithelium of gastrointestinal segments and other tissues as indicated. Northern blot analysis was conducted using the radiolabeled probe. In sheep (5) and lactating Holstein cows (3), hybridization was observed with mRNA from the omasum, rumen, duodenum, jejunum, and ileum. The estimated size of mRNA was 2.8 kb. No hybridization was observed with mRNA from the abomasum, cecum, colon, liver, kidney, and semitendinosus and longissimus muscles of either species or the mammary gland of the dairy cows. In pigs (6), the probe hybridized with mRNA from the duodenum, jejunum, and ileum. There was no hybridization with mRNA from the stomach, large intestine, liver, kidney, and semitendinosus and longissimus muscles. Two bands, 3.5 and 2.9 kb were observed with northern blot analysis, indicating two RNA transcripts that may result from alternative mRNA processing. In both Leghorns (15) and broilers (20), the strongest hybridization was found in the duodenum while the jejunum and ileum showed faint bands. The size of mRNA in chickens was 1.9 kb. Other tissues, including the crop, proventriculus, gizzard, ceca, liver, kidney, and muscles showed no hybridization to the probe. In conclusion, mRNA for a peptide transport protein(s) is present in the small intestine of all animals examined and the omasal and ruminal epithelium of sheep and dairy cows. The size of the mRNA varied among species.