Hangalapura B N, Nieuwland M G B, Buyse J, Kemp B, Parmentier H K
Adaptation Physiology Group, Wageningen Institute of Animal Sciences, Wageningen University, P.O. Box 338, 6700 AH Wageningen, The Netherlands.
Poult Sci. 2004 Oct;83(10):1644-9. doi: 10.1093/ps/83.10.1644.
There is increasing evidence that stress affects various immune processes. Some of these changes are due to hormonal changes involving corticosterone (CORT), triiodothyronine (T3), and thyroxine (T4). Effects of stress depend on the nature of specific stressors (e.g., thermal extremes, diet, pollutants), and stress-modifiers (e.g., genetic make-up, duration and severity of the stressors). We studied the effects of a specific stress (cold stress) with stress-modifiers (duration of stress and genotype of the bird) on immune responses and plasma adrenal and thyroid hormone levels in 3 layer-type chicken lines. Two lines were divergently selected for high (H line) or low (L line) antibody responses to SRBC, and the third line was a randombred control (C) line. Growing chicks (3- to 4-wk-old) of the 3 lines were feed-restricted at 80% of ad libitum consumption, and subjected to cold stress (CS) at 10 degrees C continuously for 7, 5, 3, 1, or 0 d before immunization with keyhole limpet hemocyanin (KLH). Specific antibody titers to KLH, and in vitro lymphocyte proliferation (LP) upon mitogen stimulation were measured. In addition, adrenal and thyroid hormone levels were measured in the plasma samples collected at the end of CS. No significant effect of duration of CS on specific antibody titers was found in the 3 lines. A significant enhancing effect of CS was found on LP. A significant dose-dependent suppressive effect of CS was found on plasma CORT levels. One day of CS had a significant enhancing effect on T3 levels. There was no significant effect of duration of CS on T4 levels. We conclude that CS does not affect specific antibody responses, but may have a modulating effect on cellular immunity and plasma CORT levels, depending on the duration of the stress. The present study suggests an inverse relationship between LP and CORT. This is the first study that reveals an absence of significant differences in adrenal and thyroid hormone levels in the described selection lines.
越来越多的证据表明,应激会影响各种免疫过程。其中一些变化是由于涉及皮质酮(CORT)、三碘甲状腺原氨酸(T3)和甲状腺素(T4)的激素变化所致。应激的影响取决于特定应激源的性质(如极端温度、饮食、污染物)以及应激调节因素(如基因组成、应激源的持续时间和严重程度)。我们研究了一种特定应激(冷应激)以及应激调节因素(应激持续时间和鸡的基因型)对3个蛋鸡品系免疫反应、血浆肾上腺和甲状腺激素水平的影响。两个品系分别针对对绵羊红细胞(SRBC)的高(H系)或低(L系)抗体反应进行了定向选择,第三个品系是随机交配对照(C)系。3个品系的生长鸡(3至4周龄)自由采食受限为随意采食量的80%,并在免疫钥孔戚血蓝蛋白(KLH)前于10℃连续进行7、5、3、1或0天的冷应激(CS)。检测了针对KLH的特异性抗体滴度以及丝裂原刺激后的体外淋巴细胞增殖(LP)。此外,在冷应激结束时采集的血浆样本中检测肾上腺和甲状腺激素水平。在3个品系中未发现冷应激持续时间对特异性抗体滴度有显著影响。发现冷应激对LP有显著增强作用。发现冷应激对血浆CORT水平有显著的剂量依赖性抑制作用。一天的冷应激对T3水平有显著增强作用。冷应激持续时间对T4水平无显著影响。我们得出结论,冷应激不影响特异性抗体反应,但可能根据应激持续时间对细胞免疫和血浆CORT水平有调节作用。本研究表明LP和CORT之间存在负相关关系。这是第一项揭示在所描述的选择品系中肾上腺和甲状腺激素水平不存在显著差异的研究。