CAMKK2-AMPK axis endows dietary calcium and phosphorus levels with regulatory effects on lipid metabolism in weaned piglets.

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Zhenyan Miao, Yanjie Sun, Zhangjian Feng, Qiwen Wu, Xuefen Yang, Li Wang, Zongyong Jiang, Ying Li, Hongbo Yi
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Abstract

Background: In the realm of swine production, optimizing body composition and reducing excessive fat accumulation is critical for enhancing both economic efficiency and meat quality. Despite the acknowledged impact of dietary calcium (Ca) and phosphorus (P) on lipid metabolism, the precise mechanisms behind their synergistic effects on fat metabolism remain elusive.

Results: Research observations have shown a decreasing trend in the percentage of crude fat in carcasses with increased calcium and phosphorus content in feed. Concurrently, serum glucose concentrations significantly decreased, though differences in other lipid metabolism-related indicators were not significant across groups. Under conditions of low calcium and phosphorus, there is a significant suppression in the expression of FABPs, CD36 and PPARγ in the jejunum and ileum, leading to inhibited intestinal lipid absorption. Concurrently, this results in a marked increase in lipid accumulation in the liver. Conversely, higher levels of dietary calcium and phosphorus promoted intestinal lipid absorption and reduced liver lipid accumulation, with these changes being facilitated through the activation of the CAMKK2/AMPK signaling pathway by high-calcium-phosphorus diets. Additionally, the levels of calcium and phosphorus in the diet significantly altered the composition of liver lipids and the gut microbiota, increasing α-diversity and affecting the abundance of specific bacterial families related to lipid metabolism.

Conclusion: The evidence we provide indicates that the levels of calcium and phosphorus in the diet alter body fat content and lipid metabolism by modulating the response of the gut-liver axis to lipids. These effects are closely associated with the activation of the CAMKK2/AMPK signaling pathway.

CAMKK2-AMPK 轴赋予日粮钙磷水平对断奶仔猪脂质代谢的调节作用。
背景:在猪生产领域,优化体成分和减少脂肪过度积累对于提高经济效益和肉质至关重要。尽管日粮中的钙(Ca)和磷(P)对脂肪代谢的影响已得到公认,但它们对脂肪代谢产生协同作用的确切机制仍难以确定:研究观察表明,随着饲料中钙和磷含量的增加,胴体中粗脂肪的百分比呈下降趋势。与此同时,血清葡萄糖浓度显著下降,但其他与脂肪代谢相关的指标在各组间的差异并不明显。在低钙低磷条件下,空肠和回肠中 FABPs、CD36 和 PPARγ 的表达受到明显抑制,导致肠道脂质吸收受到抑制。同时,这也导致肝脏中的脂质积累明显增加。相反,较高水平的膳食钙和磷促进了肠道脂质吸收,减少了肝脏脂质积累,这些变化是通过高钙磷膳食激活 CAMKK2/AMPK 信号通路而促进的。此外,膳食中的钙磷水平显著改变了肝脏脂质和肠道微生物群的组成,增加了α的多样性,并影响了与脂质代谢相关的特定细菌家族的丰度:我们提供的证据表明,膳食中的钙和磷水平会通过调节肠道-肝脏轴对脂质的反应来改变体内脂肪含量和脂质代谢。这些影响与 CAMKK2/AMPK 信号通路的激活密切相关。
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来源期刊
CiteScore
10.30
自引率
0.00%
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822
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