Murphy P A, Hanson D F, Guo Y N, Angster D E
Yale J Biol Med. 1985 Mar-Apr;58(2):115-23.
We studied the responses of unpurified mouse thymocytes and of peanut agglutinin-negative mouse thymocytes to the pI 7.3 form of rabbit Interleukin-1. We found that small increases of temperature strongly enhanced the mitogenic effect of this form of IL-1, and that the apparent temperature optimum was 37 degrees C. In both these respects the behavior of the pI 7.3 IL-1 resembled the previously described behavior of pI 5.0 IL-1. We suspected that the low apparent temperature optimum for IL-1 action was due to inadequate pH control by the bicarbonate-buffered medium. Experiments showed that small decreases in medium pH strongly inhibited the mitogenic action of both forms of IL-1. Furthermore, if thymocytes were stimulated with either form of IL-1 in strongly buffered media, the temperature optimum was at least 39 degrees C. The pI 7.3 and pI 5.0 forms of IL-1 are known to differ both biochemically and immunologically. Our experimental discovery that their temperature sensitivities are much the same suggests that temperature sensitivity is a property of the T cell rather than of the IL-1 molecules themselves.
我们研究了未纯化的小鼠胸腺细胞以及花生凝集素阴性的小鼠胸腺细胞对兔白细胞介素-1(IL-1)pI 7.3形式的反应。我们发现,温度的小幅升高强烈增强了这种形式的IL-1的促有丝分裂作用,且明显的最适温度为37摄氏度。在这两个方面,pI 7.3的IL-1的行为类似于先前描述的pI 5.0的IL-1的行为。我们怀疑IL-1作用的明显低最适温度是由于碳酸氢盐缓冲培养基对pH的控制不足。实验表明,培养基pH的小幅降低强烈抑制了两种形式的IL-1的促有丝分裂作用。此外,如果在强缓冲培养基中用任何一种形式的IL-1刺激胸腺细胞,最适温度至少为39摄氏度。已知IL-1的pI 7.3和pI 5.0形式在生化和免疫方面都存在差异。我们的实验发现它们的温度敏感性大致相同,这表明温度敏感性是T细胞的特性,而不是IL-1分子本身的特性。