| Literature DB >> 26443238 |
Kristin Elfers1, Mirja R Wilkens1, Gerhard Breves1, Alexandra S Muscher-Banse1.
Abstract
Feeding ruminants a reduced N diet is a common approach to reduce N output based on rumino-hepatic circulation. However, a reduction in N intake caused massive changes in Ca and inorganic phosphate (Pi) homoeostasis in goats. Although a single dietary Ca reduction stimulated intestinal Ca absorption in a calcitriol-dependent manner, a concomitant reduction of Ca and N supply led to a decrease in calcitriol, and therefore a modulation of intestinal Ca and Pi absorption. The aim of this study was to examine the potential effects of dietary N or Ca reduction separately on intestinal Ca and Pi transport in young goats. Animals were allocated to a control, N-reduced, Ca-reduced or combined N- and Ca-reduced diet for about 6-8 weeks, whereby N content was reduced by 25 % compared with recommendations. In Ussing chamber experiments, intestinal Ca flux rates significantly decreased in goats fed a reduced N diet, whereas Pi flux rates were unaffected. In contrast, a dietary Ca reduction stimulated Ca flux rates and decreased Pi flux rates. The combined dietary N and Ca reduction withdrew the stimulating effect of dietary Ca reduction on Ca flux rates. The expression of Ca-transporting proteins decreased with a reduced N diet too, whereas Pi-transporting proteins were unaffected. In conclusion, a dietary N reduction decreased intestinal Ca transport by diminishing Ca-transporting proteins, which became clear during simultaneous N and Ca reduction. Therefore, N supply in young ruminant nutrition is of special concern for intestinal Ca transport.Entities:
Keywords: BBM brush-border membranes; CP crude protein; CaBPD9Kzzm321990 zzm321990 Ca-binding protein D9K; CaRzzm321990 Ca-sensing receptor; Flux rates of calcium and phosphate; Goats; IGF1 insulin-like growth factor 1; IGF1-Rzzm321990 insulin-like growth factor 1 receptor; Na+-dependent P transporter IIb; NaPiIIbzzm321990 Na+-dependent Pi transporter IIb; PBST PBS containing 0·1 % Tween 20; PMCAzzm321990 plasma membrane Ca2+ ATPase; Pizzm321990 inorganic phosphate; PiT1zzm321990 Na+-dependent Pi transporter 1; TRPV6zzm321990 transient receptor potential vanilloid channel type 6; Transient receptor potential vanilloid channel type 6; Ussing chambers; VDR vitamin D receptor
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Year: 2015 PMID: 26443238 DOI: 10.1017/S000711451500375X
Source DB: PubMed Journal: Br J Nutr ISSN: 0007-1145 Impact factor: 3.718