Virology Area, Faculty of Veterinary Sciences, Universidad Nacional Del Centro De la Provincia de Buenos Aires (UNCPBA), Tandil, Veterinary Research Center (CIVETAN), CONICET-CICPBA, Arroyo Seco S/N, Campus Universitario, Tandil, 7000, Argentina.
Escuela de Educación Secundaria Agraria Nº1 "DR. RAMÓN SANTAMARINA", Pje La Porteña Ruta Pcial N° 30 KM 122.5, Tandil, Argentina.
Vet Immunol Immunopathol. 2021 May;235:110232. doi: 10.1016/j.vetimm.2021.110232. Epub 2021 Mar 19.
Heat stress is one of the environmental factors that most severely affects milk industry, as it has impact on production, immune responses and reproductive performance. The present study was conducted with high-performance Holando-Argentino cows. Our objective was to study TNF-α and its receptors pattern expression in cows from a region characterized by extreme climatic seasonality. Animals were evaluated in three periods: spring (n = 15), summer (n = 14) and autumn (n = 11). Meteorological records from a local station were used to estimate the temperature and humidity index (THI) by means of an equation previously defined. A THI higher than 68 is indicative of stressing conditions. During the summer period, the animals were exposed to 8.5 ± 1.09 h of heat stress, or THI > 68. In spring, stress hours were reduced to 1.4 ± 0.5 every day, while during the autumn, there were no recorded heat stress events. Expression of TNF-α, and its receptors was determined by qPCR. During the summer, TNF-α and its receptors expression diminished drastically compared to the rest of the year, when stressful conditions were infrequent. We conclude that animals that are not physiologically prepared to resist high temperatures might have a less efficient immune response, reinforcing the need to develop new strategies to improve animal welfare.
热应激是影响奶业的最严重的环境因素之一,因为它会影响生产、免疫反应和繁殖性能。本研究以高性能荷斯坦-阿根廷奶牛为研究对象。我们的目的是研究在气候季节性极强的地区奶牛中 TNF-α 及其受体的表达模式。动物在三个时期进行评估:春季(n=15)、夏季(n=14)和秋季(n=11)。使用当地气象站的记录,通过之前定义的方程来估算温度和湿度指数(THI)。THI 高于 68 表示处于应激状态。在夏季期间,动物暴露在 8.5±1.09 小时的热应激下,或 THI>68。在春季,每天的应激时间减少到 1.4±0.5 小时,而在秋季,没有记录到热应激事件。通过 qPCR 确定 TNF-α及其受体的表达。与一年中应激较少的其他时间相比,夏季 TNF-α及其受体的表达明显下降。我们得出结论,那些没有生理准备来抵抗高温的动物可能会有较低效的免疫反应,这加强了需要开发新策略来提高动物福利的必要性。
