克氏锥虫:热休克对细胞外 ATP 酶活性的影响。
Trypanosoma cruzi: effects of heat shock on ecto-ATPase activity.
机构信息
Instituto de Bioquímica Médica, Universidade Federal do Rio de Janeiro-UFRJ, Brazil.
出版信息
Exp Parasitol. 2013 Apr;133(4):434-41. doi: 10.1016/j.exppara.2012.12.014. Epub 2013 Jan 4.
In this work, we demonstrate that Trypanosoma cruzi Y strain epimastigotes exhibit Mg2+-dependent ecto-ATPase activity that is stimulated by heat shock. When the epimastigotes were incubated at 37°C for 2h, the ecto-ATPase activity of the cells was 43.95±0.97 nmol Pi/h×10(7) cells, whereas the ecto-ATPase activity of cells that were not exposed to heat shock stress was 16.97±0.30 nmol Pi/h×10(7) cells. The ecto-ATPase activities of cells, that were exposed or not exposed to heat shock stress had approximately the same Km values (2.25±0.26 mM ATP and 1.55±0.23 mM ATP, respectively) and different Vmax values. The heat-shocked cells had higher Vmax values (54.38±3.07 nmol Pi/h×10(7) cells) than the cells that were not exposed to heat shock (19.38±1.76 nmol Pi/h×10(7) cells). We also observed that the ecto-phosphatase and ecto-5'nucleotidase activities of cells that had been incubated at 28°C or 37°C were the same. Interestingly, cycloheximide, an inhibitor of protein synthesis, suppressed the heat shock effect of ecto-ATPase activity on T. cruzi. The Mg2+-dependent ecto-ATPase activity from the Y strain (high virulence) was approximately 2-fold higher than that of Dm28c (a clone with low virulence). In addition, these two strains presented different responses to heat shock with regard to their ecto-ATPase activities; Y strain epimastigotes had a stimulation of 2.52-fold while the Dm28c strain had a 1.71-fold stimulation. In this context, the virulent trypomastigote form of T. cruzi, Dm28c, had an ecto-ATPase activity that was more than 7-fold higher (66.67±5.98 nmol Pi/h×10(7) cells) than that of the insect epimastigote forms (8.91±0.76 nmol Pi/h×10(7) cells). This difference increased to approximately 10-fold when both forms were subjected to heat shock stress (181.14±16.48 nmol Pi/h×10(7) cells for trypomastigotes and 16.71±1.17 nmol Pi/h×10(7) cells for epimastigotes at 37°C). The ecto-ATPase activity of a plasma membrane-enriched fraction obtained from T. cruzi epimastigotes was not increased by heat treatment, which suggested that cytoplasmic components had an influence on enzyme activation by heat shock stress.
在这项工作中,我们证明了 Trypanosoma cruzi Y 株的无鞭毛体表现出依赖于镁离子的外核苷酸酶活性,该活性受到热休克的刺激。当无鞭毛体在 37°C 下孵育 2 小时时,细胞的外核苷酸酶活性为 43.95±0.97 nmol Pi/h×10(7)个细胞,而未暴露于热休克应激的细胞的外核苷酸酶活性为 16.97±0.30 nmol Pi/h×10(7)个细胞。暴露或未暴露于热休克应激的细胞的外核苷酸酶活性具有相似的 Km 值(分别为 2.25±0.26 mM ATP 和 1.55±0.23 mM ATP)和不同的 Vmax 值。热休克细胞的 Vmax 值(54.38±3.07 nmol Pi/h×10(7)个细胞)高于未暴露于热休克的细胞(19.38±1.76 nmol Pi/h×10(7)个细胞)。我们还观察到,在 28°C 或 37°C 孵育的细胞的外磷酸酶和外 5'-核苷酸酶活性相同。有趣的是,蛋白合成抑制剂环己酰亚胺抑制了 T. cruzi 外核苷酸酶活性的热休克效应。Y 株(高毒力)的 Mg2+-依赖性外核苷酸酶活性约为 Dm28c(低毒力克隆)的 2 倍。此外,这两种菌株在外核苷酸酶活性方面对热休克的反应不同;Y 株无鞭毛体的刺激倍数为 2.52 倍,而 Dm28c 株的刺激倍数为 1.71 倍。在这种情况下,T. cruzi 的毒力锥虫形式 Dm28c 的外核苷酸酶活性超过昆虫无鞭毛体形式的 7 倍(66.67±5.98 nmol Pi/h×10(7)个细胞)(8.91±0.76 nmol Pi/h×10(7)个细胞)。当两种形式都受到热休克应激时,这种差异增加到约 10 倍(锥虫形式的 181.14±16.48 nmol Pi/h×10(7)个细胞和无鞭毛体形式的 16.71±1.17 nmol Pi/h×10(7)个细胞,在 37°C)。从 T. cruzi 无鞭毛体中获得的富含质膜的级分的外核苷酸酶活性未因热处理而增加,这表明细胞质成分对外核苷酸酶活性的热休克应激激活有影响。
Zotero 插件