Role of HSP and Leptin in Dairy Animals during Thermal Stress: A Review

M. Vaidya, S. Dhenge, V. Dongre, S. Singh
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Abstract

Thermal stress is a unique and complex process which alters the normal physiological mechanisms. Heat shock proteins (HSPs) are known to be highly conserved and ubiquitous proteins synthesized in response to several stimuli. The HSP inducers have been categorized as environmental (heat shock, UV radiation, heavy metals, amino acids, oxidative stress, etc.) pathological (bacterial or parasitic infections, fever, inflammation, etc.) and physiological (growth factors, cell differentiation, hormonal stimulation or tissue development, caloric restriction, etc.). The HSPs play an important role for maintaining cellular functioning under environmental challenges and protein denaturation conditions. There is a great potential for using HSP72 expression to detect natural adaptation and exposure to stress in natural populations. Leptin is a 16 kDa polypeptide hormone secreted primarily from the cells of white adipose tissue. Leptin acts through both central and peripheral mechanisms to affect feeding behaviour, lipid and glucose metabolism, thermogenesis, reproductive and endocrine functions. Leptin also plays an important role in the regulation of body weight and composition, e.g. reduction in feed intake and increase in energy expenditure. Bovine lymphocytes express Ob-Rb gene (leptin receptor) and also express leptin. There are ample information on the central role of leptin in brain and neural tissue regulation. In dairy cattle, the increase in milk yield has been associated with a negative energy balance and a decrease in fertility during early lactation. The hormone leptin is involved in regulation of nutritional status and reproductive function.
热休克蛋白和瘦素在奶牛热应激中的作用研究进展
热应激是一个改变正常生理机制的独特而复杂的过程。热休克蛋白(HSPs)是一种高度保守且普遍存在的蛋白,可在多种刺激下合成。热休克蛋白诱导剂可分为环境(热休克、紫外线辐射、重金属、氨基酸、氧化应激等)、病理(细菌或寄生虫感染、发热、炎症等)和生理(生长因子、细胞分化、激素刺激或组织发育、热量限制等)。热休克蛋白在环境挑战和蛋白质变性条件下维持细胞功能发挥重要作用。利用HSP72表达来检测自然种群的自然适应性和应激暴露有很大的潜力。瘦素是一种16 kDa的多肽激素,主要由白色脂肪组织的细胞分泌。瘦素通过中枢和外周机制影响摄食行为、脂质和葡萄糖代谢、产热、生殖和内分泌功能。瘦素在调节体重和组成方面也起着重要作用,例如减少采食量和增加能量消耗。牛淋巴细胞表达Ob-Rb基因(瘦素受体),也表达瘦素。关于瘦素在大脑和神经组织调节中的核心作用有充分的信息。在奶牛中,产奶量的增加与哺乳期早期负能量平衡和生育力下降有关。瘦素激素参与营养状况和生殖功能的调节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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