Responses of mRNA expression of PepT1 in small intestine to graded duodenal soybean small peptides infusion in lactating goats.
5
Citation
9
Reference
20
Related Paper
Citation Trend
Abstract:
To study the effect of circulation small peptides concentration on mRNA expression in small intestine, graded amount of soybean small peptides (SSP) were infused into lactating goats through duodenal fistulas. Peptide-bound amino acid (PBAA) concentration in arterial plasma and the mRNA expression of PepT1 was detected in the current study. The results showed that concentrations of all peptidebound amino acids (PBAA) increased and the activity of PepT1 in duodenum tissue was enhanced by SSP infusion. The PepT1expression in duodenum tissue was significantly increased with the increment of amounts of SSP infusion (P<0.05). That in ileum tissue was increased with the increment of the amounts of SSP infusion; the increment of Pep T1 expression was significant only in the 180 g/d treatment (P<0.05). mRNA abundance of PepT1 in jejunum tissue was 1.1 to 1.8 to 2.4 times in SSP infusion group as compared with the control group. In the 120 and 180 g/d treatment, the difference of PepT1 expression in jejunum was significant (P<0.05). The data suggested Pep T1 expression in duodenum, ileum and jejunum tissue was enhanced by an increase in circulation small peptide concentration, and the duodenum might be a main position of small peptides absorption in intestine.Keywords:
Jejunum
The effect of neurotensin (NT) on the translocation of intraluminally administered lipid across the duodenum as well as across the entire length of the small intestine was studied in the rat. In the first series of experiments, the appearance in the lymph of [3H]oleic acid instilled as a bolus into a segment of the duodenum was followed for 3 h. Infusion of NT (0.6 pmol X kg-1 X min-1) via the superior mesenteric artery resulted in a significant increase in the appearance of label in the lymph when compared with saline infusion (17.3 +/- 3.1 vs. 8.6 +/- 1.4%, P less than 0.01, respectively). In the second series of experiments, lipid was infused into the entire length of the small intestine over 4 h, and the accumulation of label in the lymph was measured. The infusion of NT (1.0 pmol X kg-1 X min-1) into the femoral vein also significantly increased the appearance of label when compared with animals infused with saline (49.0 +/- 2.0 vs. 34.2 +/- 5.2%, P less than 0.05, respectively). In this study, the specific activity of the triglyceride recovered in the lymph was higher in the rats given NT than in the controls (P less than 0.05). No significant changes in lymph flow were observed as a consequence of NT infusion. These results indicate that NT infusion into the circulation increases the translocation of oleic acid from the intestinal lumen into the lymph of rats.
Bolus (digestion)
Mesenteric lymph nodes
Cite
Citations (54)
Sodium glucose cotransporter 1 (SGLT1) participates in the incorporation of glucose from the lumen to enterocytes in the small intestine. We examined whether dietary resistant starch (RS), an autoclaved high amylose starch that is digested more slowly than regular cornstarch in the small intestine, alters SGLT1 mRNA levels along the jejunum-ileum of rats. The SGLT1 mRNA level was lower in the upper jejunum in rats fed an RS diet than in those fed a regular cornstarch diet, whereas it was higher in the lower jejunum/upper ileum. Furthermore, using chromatin immunoprecipitation (ChIP) assay, we demonstrated that histone H3 acetylation on the promoter/enhancer and transcriptional regions was reduced in the upper jejunum and elevated in the lower jejunum/upper ileum by feeding rats an RS diet. On the other hand, HNF-1 binding on the region around transcription start site of the SGLT1 gene was not altered in each jejunoileal segment by feeding rats an RS diet. Our results suggest that a shift of the expressional peak of the SGLT1 gene from the upper jejunum toward the ileum by dietary RS is associated with a change of histone H3 acetylation rather than that of HNF-1 binding on the gene.
Jejunum
Cite
Citations (23)
Six healthy Tibetan piglets of at 28 day,with similar weight were chosen to slaughter.Small intestinal segments samples were collected from duodenum,proximal and distal jejunums,ileum for detection intestinal tissue distribution of oligopeptide transporter PepT1,anionic amino acid transporter EAAC1 and cationic amino acid transporter CAT1 mRNA abundance by Real-time PCR.The results show the abudance of PepT1 mRNA in distal jejunum was significantly higher than in duodenum,proximal jejunum and ileum and the Ileum had the lower expression abundance.There is an increased expression gradient of EAAC1 mRNA from proximal to distal intestine.It's significantly higher in ileum than in duodenum,proximal and distal jejunums.Intestinal tissue distribution of CAT1 mRNA is similar to EAAC1.Expression abudance of CAT1 mRNA in ileum is the highest in intestinal segment.
Jejunum
Amino acid transporter
Cite
Citations (0)
Jejunum
Villin
Cite
Citations (13)
Jejunum
Cite
Citations (18)
Twenty-four Holstein steer calves (88 ± 3kg) with abomasal catheters were randomly assigned within blocks to one of four treatments. The treatments consisted of four abomasal infusions: water (control), 4 g/kg BW.d-1 of partially hydrolyzed starch (SH), 0.6 g/kg BW.d-1 of casein, and a mix of SH + casein. The small intestine was collected and five equidistan, 1m sites were identified (duodenum, jejunum 1, jejunum 2 jejunum 3 and ileum). Maltase specific activity in mucosal homogenate and brush border membrane vesicles, SGLT1 protein abundance, and sodium-dependent glucose uptake in brush border membrane vesicles did not differ between the calves receiving different abomasal infusion treatments. However, maltase specific activity in homogenates and brush border membrane vesicles increased four-fold from the duodenum to the first jejunal site before declining steadily towards the ileum (p=0.0145 p=0.0020, respectively). The SGLT1 abundance differed by intestinal sampling site (p=0.0162). These data indicated that cattle might not have the ability to alter the capacity for glucose uptake when challenged with different substrates and that the regulation of SGLT1 expression could differ between bovine and other species.
Jejunum
Brush border
Maltase
Cite
Citations (12)
Digestion
Cite
Citations (11)
Intestinal phosphate (Pi) absorption across the apical membrane of small intestinal epithelial cells is mainly mediated by the type IIb Na-coupled phosphate co-transporter (NaPi-IIb), but its expression and regulation in the chicken remain unclear. In the present study, we investigated the mRNA and protein levels of NaPi-IIb in three regions of chicken small intestine, and related their expression levels to the rate of net phosphate absorption. Our results showed that maximal phosphate absorption occurs in the jejunum, however the highest expression levels of NaPi-IIb mRNA and protein occurs in the duodenum. In response to a low-Pi diet (TP 0.2%), there is an adaptive response restricted to the duodenum, with increased brush border membrane (BBM) Na-Pi transport activity and NaPi-IIb protein and mRNA abundance. However, when switched from a low- (TP 0.2%) to a normal diet (TP 0.6%) for 4 h, there is an increase in BBM NaPi-IIb protein abundance in the jejunum, but no changes in BBM NaPi-IIb mRNA. Therefore, our study indicates that Na-Pi transport activity and NaPi-IIb protein expression are differentially regulated in the duodenum vs the jejunum in the chicken.
Jejunum
Brush border
Cite
Citations (21)
Abstract Background Given the key role of methionine (Met) in biological processes like protein translation, methylation, and antioxidant defense, inadequate Met supply can limit performance. This study investigated the effect of different dietary Met sources on the expression profile of various Met transporters along the gastrointestinal tract (GIT) of pigs. Methods A total of 27 pigs received a diet supplemented with 0.21% DL-Met, 0.21% L-Met, or 0.31% DL-2-hydroxy-4-(methylthio)butanoic acid (DL-HMTBA). Changes in mRNA expression of B 0 AT1 , ATB 0,+ , rBAT , ASCT2 , IMINO , LAT4 , y + LAT1 , LAT2 , and SNAT2 were evaluated in the oral mucosa, cardia, fundus, pylorus, duodenum, proximal jejunum, middle jejunum, ileum, cecum, proximal colon, and distal colon, complemented by protein expression analysis of B 0 AT1, ASCT2, LAT2, and LAT4. Results Expression of all investigated transcripts differed significantly along the GIT. B 0 AT1 , rBAT , y + LAT1 , LAT2 , and LAT4 showed strongest mRNA expression in small intestinal segments. ASCT2, IMINO , and SNAT2 were similarly expressed along the small and large intestines but expression differed in the oral mucosa and stomach. ATB 0,+ showed highest mRNA expression in large intestinal tissues, cardia, and pylorus. In pigs fed DL-Met, mRNA expression of ASCT2 was higher than in pigs fed DL-HMTBA in small intestinal tissues and mRNA expression of IMINO was lower than in pigs fed L-Met in large intestinal tissues. Dietary DL-HMTBA induced a stronger mRNA expression of basolateral uptake systems either in the small ( LAT2 ) or large ( y + LAT1 ) intestine. Protein expression of B 0 AT1 was higher in the middle jejunum and ileum in pigs fed DL-Met when compared with the other Met supplements. LAT4 expression was higher in pigs fed DL-HMTBA when compared with DL-Met (small intestine) and L-Met (small intestine, oral mucosa, and stomach). Conclusion A high expression of several Met transporters in small intestinal segments underlines the primary role of these segments in amino acid absorption; however, some Met transporters show high transcript and protein levels also in large intestine, oral mucosa, and stomach. A diet containing DL-Met has potential to increase apical Met transport in the small intestine, whereas a diet containing DL-HMTBA has potential to increase basolateral Met transport in the small intestine and, partly, other gastrointestinal tissues.
Jejunum
Cecum
Cite
Citations (8)
Two experiments were conducted using 22-d-old Arbor Acres male broilers to study the kinetics of inorganic P absorption and the effect of P treatment on Type IIb sodium-phosphate cotransporter (NaP-IIb) mRNA and protein levels in ligated segments from different intestinal regions. In Exp. 1, the P absorption in different small intestinal segments at different postperfusion times (0, 2.5, 5, 10, 20, or 40 min) were compared. In Exp. 2, different small intestinal loops were perfused with solutions containing 0, 1.5, 3, 6, 12, 24, or 48 mmol P/L as KHPO, and P concentrations in perfusates were determined at 20 min after perfusion. The mRNA levels of NaP-IIb in different small intestinal loops and protein expression levels in the duodenums from the control group and the 6 or 48 mmol P/L group were analyzed. The results from Exp. 1 showed that P absorption increased in an asymptotic response to postperfusion time within 40 min in all the intestinal segments and P absorption was greater ( < 0.04) in the duodenum than in the other 2 segments at 20 min after perfusion, indicating that the duodenum is the main site of P absorption in the small intestine of chicks. In Exp. 2, the kinetic curves showed that P absorption in the duodenum was a saturated carrier mediated process and in the jejunum or ileum occurred with a nonsaturated diffusion process. In addition, the b mRNA levels were greater ( < 0.0001) in the duodenum than in the other 2 segments in the 3 groups (0, 6, or 48 mmol P/L), further indicating that P absorption in the duodenum occurred mainly by a saturated carrier mediated process. However, no significant differences ( = 0.20) in the NaP-IIb protein levels of the duodenum were observed among the 0, 6, and 48 mmol P/L groups. In conclusion, this study suggests by our criteria in ligated intestinal loops that the duodenum is the main site of P absorption and that P absorption may be a saturated carrier mediated process in the duodenum but a nonsaturated diffusion process in the jejunum or ileum of broilers.
Jejunum
Cite
Citations (22)