Expression analysis of genes associated with the metabolism of vitamin D3 and their association with meat tenderness in Nellore breed.

The tenderness of beef is the result of the process of myofibrillar proteolysis influenced by calpains (CAPN), enzymes activated by calcium. The calpastatin (CAST) is a regulator of calpains, acting as a substrate and degraded by the action of calpain itself. Supplementation with vitamin D3 in the diet has changed positively on meat tenderness, to obtain greater absorption and calcium deposition in muscle. Given the importance of these genes for meat tenderness in cattle and metabolism of vitamin D3, the objective of this study was to investigate the gene expression of 1-HYD, HYD-24, CAPN1, CAST (isoforms). We used 42 Nellore steers were divided into 6 treatments (seven animals per treatment). The animals were housed in individual pens and treatments were: T1) without vitamin D3 feeding + without shadow; T2) without vitamin D3 feeding + with black - 50% filtration of UV; T3) with 2x106UI of vitamin D3 for two days consecutive slaughter + without shadow; T4) with 2x106UI vitamin D3 for two days consecutive slaughter + with black - 50% filtration of UV; T5) with 2x106UI vitamin D3 for eight days consecutive slaughter + without shading; T6) 2x106UI with vitamin D3 for eight days consecutive slaughter + with black - 50% filtration of UV. Gene expression was analyzed by quantitative real-time. The 1-HYD gene was more expressed in the treatments with 2 and 8 days of supplementation with vitamin D3, independent of differential exposure to ultraviolet rays. The 24-HYD gene was more expressed in the treatment with 8 days of pre-slaughter supplementation compared to control treatment, the treatment did not differ with supplementation for 2 consecutive days pre-slaughter. These findings do not corroborate the mechanism for regulating the activities of enzymes modulated so diametrically opposite to regulate the circulating levels of 1,25- dihydroxy vitamin D3 (1,25 D). When there is an overproduction of 1,25 D regulation mechanism inactivates 1.25 D and promotes the reduction of the expression of 1-HYD. Thus we can infer that in this study, these factors did not influence the 1-HYD gene that had increased expression. The only way to verify the increase of gene expression of the enzyme 1-HYD seems to involve a secondary hyperparathyroidism due to hypocalcemia sometime in the experiment. Supplementation with vitamin D3 did not influence the mRNA expression of CAPN1, isoform I and isoform total of CAST. The isoform II of the calpastatin gene expression was higher in treatment with 8-day preslaughter supplementation, where it appears that increased expression is due to an intracellular signaling indicating that calpastatin is degraded by prolonged activation of calpain as a result of increased influx of calcium. The association analysis point to a possible mismatch between mRNA abundance and activity of the calpain system components in these physiological conditions. (AU)