Lipolysis pathways modulate lipid mediator release and endocannabinoid system signaling in dairy cows' adipocytes.

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Journal of Animal Science and Biotechnology Pub Date : 2024-08-03 DOI:10.1186/s40104-024-01062-z
Madison N Myers, Miguel Chirivi, Jeff C Gandy, Joseph Tam, Maya Zachut, G Andres Contreras
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Abstract

Background: As cows transition from pregnancy to lactation, free fatty acids (FFA) are mobilized from adipose tissues (AT) through lipolysis to counter energy deficits. In clinically healthy cows, lipolysis intensity is reduced throughout lactation; however, if FFA release exceeds tissue demands or the liver's metabolic capacity, lipid byproducts accumulate, increasing cows' risk of metabolic and infectious disease. Endocannabinoids (eCBs) and their congeners, N-acylethanolamines (NAEs), are lipid-based compounds that modulate metabolism and inflammation. Their synthesis and release depend upon the availability of FFA precursors and the abundance of synthesizing and degrading enzymes and transporters. Therefore, we hypothesized that eCB production and transcription of endocannabinoid system components are modulated by lipolysis pathways in adipocytes. To test this hypothesis, we stimulated canonical (isoproterenol, 1 µmol/L; ISO) and inflammatory (lipopolysaccharide, 1 µg/mL; LPS) lipolysis pathways in adipocytes isolated from the AT of 5 Holstein dairy cows. Following, we assessed lipolysis intensity, adipocytes' release of eCBs, and transcription of endocannabinoid system components.

Results: We found that ISO and LPS stimulated lipolysis at comparable intensities. Exposure to either treatment tended to elevate the release of eCBs and NAEs by cultured adipocytes; however, specific eCBs and NAEs and the transcriptional profiles differed by treatment. On one hand, ISO enhanced adipocytes' release of 2-arachidonoylglycerol (2-AG) but reduced NAE production. Notably, ISO enhanced the cells' expression of enzymes associated with 2-AG biosynthesis (INPP5F, GDPD5, GPAT4), transport (CD36), and adipogenesis (PPARG). Conversely, LPS enhanced adipocytes' synthesis and release of N-arachidonoylethanolamide (AEA). This change coincided with enhanced transcription of the NAE-biosynthesizing enzyme, PTPN22, and adipocytes' transcription of genes related to eCB degradation (PTGS2, MGLL, CYP27B1). Furthermore, LPS enhanced adipocytes' transcription of eCB and NAE transporters (HSPA1A, SCP2) and the expression of the anti-adipogenic ion channel, TRPV3.

Conclusions: Our data provide evidence for distinct modulatory roles of canonical and inflammatory lipolysis pathways over eCB release and transcriptional regulation of biosynthesis, degradation, transport, and ECS signaling in cows' adipocytes. Based on our findings, we conclude that, within adipocytes, eCB production and ECS component expression are, at least in part, mediated by lipolysis in a pathway-dependent manner. These findings contribute to a deeper understanding of the molecular mechanisms underlying metabolic regulation in dairy cows' AT, with potential implications for prevention and treatment of inflammatory and metabolic disorders.

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脂肪分解途径可调节奶牛脂肪细胞中脂质介质的释放和内源性大麻素系统信号的传递。
背景:当奶牛从妊娠期过渡到泌乳期时,游离脂肪酸(FFA)会通过脂肪分解从脂肪组织(AT)中释放出来,以弥补能量不足。在临床健康奶牛中,脂肪分解的强度在整个泌乳期都会降低;但是,如果游离脂肪酸的释放量超过了组织需求或肝脏的代谢能力,脂质副产品就会累积,从而增加奶牛患代谢性和传染性疾病的风险。内源性大麻素(eCBs)及其同系物 N-酰乙醇胺(NAEs)是以脂质为基础的化合物,可调节新陈代谢和炎症反应。它们的合成和释放取决于是否存在脂肪酸前体以及合成和降解酶及转运体的丰度。因此,我们假设 eCB 的产生和内源性大麻素系统成分的转录受脂肪细胞中脂肪分解途径的调节。为了验证这一假设,我们刺激了从 5 头荷斯坦奶牛腹腔注射器中分离出来的脂肪细胞中的典型(异丙肾上腺素,1 µmol/L;ISO)和炎症(脂多糖,1 µg/mL;LPS)脂肪分解途径。随后,我们评估了脂肪分解强度、脂肪细胞释放的 eCBs 以及内源性大麻素系统成分的转录:结果:我们发现 ISO 和 LPS 对脂肪分解的刺激强度相当。暴露于这两种处理中的任何一种都会增加培养脂肪细胞释放的 eCBs 和 NAEs;但是,具体的 eCBs 和 NAEs 以及转录特征因处理而异。一方面,ISO 可促进脂肪细胞释放 2-阿 拉西酮酰甘油(2-AG),但会减少 NAE 的产生。值得注意的是,ISO 提高了细胞中与 2-AG 生物合成(INPP5F、GDPD5、GPAT4)、运输(CD36)和脂肪生成(PPARG)相关的酶的表达。相反,LPS 会增强脂肪细胞合成和释放 N-阿拉伯乙酰乙醇酰胺(AEA)。这一变化与 NAE 生物合成酶 PTPN22 的转录增强以及脂肪细胞与 eCB 降解相关基因(PTGS2、MGLL、CYP27B1)的转录增强相吻合。此外,LPS还增强了脂肪细胞对eCB和NAE转运体(HSPA1A、SCP2)的转录以及抗脂肪生成离子通道TRPV3的表达:我们的数据提供了证据,证明在奶牛脂肪细胞中,典型脂肪分解途径和炎症脂肪分解途径对 eCB 的释放以及生物合成、降解、运输和 ECS 信号转导的转录调控具有不同的调节作用。根据我们的研究结果,我们得出结论:在脂肪细胞内,eCB 的产生和 ECS 成分的表达至少部分是由脂肪分解以路径依赖的方式介导的。这些发现有助于加深人们对奶牛脂肪细胞代谢调节的分子机制的理解,对预防和治疗炎症和代谢紊乱具有潜在的意义。
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