Abstract
Phosphorus (P) is an important element of various metabolic and signalling processes, including bone metabolism and immune function. To elucidate the routes of P homeostasis and utilization, a five-week feeding study was conducted with weaned piglets receiving a diet with recommended amounts of P and Ca (M), or a diet with lower (L) or higher (H) P values and a constant Ca:P ratio. Routes of P utilization were deduced via bone characteristics (MicroCT), genome-wide transcriptomic profiles of peripheral blood mononuclear cells (PBMCs), and serum mineral levels. MicroCT revealed significantly lower bone mineral density, trabecular number, and mechanical fracture load in (L). Gene expression analyses showed transcripts of 276 and 115 annotated genes with higher or lower abundance in (H) than (L) that were related to basic cellular and metabolic processes as well as response to stimuli, developmental processes and immune system processes. This study shows the many molecular routes involved in P homeostasis that should be considered to improve endogenous mechanisms of P utilization.
Highlights
Phosphorus (P) and calcium (Ca) are essential elements for all living organisms
This study aims to identify the effects of dietary P and Ca imbalances on growth performance, bone characteristics, serum mineral levels, and expression data from peripheral blood mononuclear cells (PBMCs)
BWG and daily feed intake (DFI) were significantly decreased in the H group during weeks 3, 4, and 5 (Figure 2)
Summary
Phosphorus (P) and calcium (Ca) are essential elements for all living organisms. They play a vital role in growth processes, formation and stability of bones, and maintenance of a physiological cell metabolism. The homeostasis of P and Ca is largely maintained by a trifecta of absorption in the intestines, secretion/resorption in the kidneys and mobilization/storage in bones. Hormones like vitamin D (calcitriol), parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23), and calcitonin as well as corresponding mineral transporters, receptors, and transcription factors help maintain Ca and P mineral homeostasis [1]. The need for P and Ca is primarily dependent on bone formation requirements that are strongly associated with the health and welfare of the animals.
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