Li Jinxin, Niu Wenquan, Qi Yue, Mayila Wufuer, Zhu Pengcheng, Cheng Zuheng, Qiu Changchun
Cardiology Department, The First Affiliated Hospital of Xinjiang Medical University, Urumqi, Xinjiang, China.
Transl Res. 2009 Nov;154(5):257-64. doi: 10.1016/j.trsl.2009.08.002. Epub 2009 Sep 4.
Mounting evidence suggests that all organisms at the cellular level respond to stress by synthesizing heat shock proteins at the expense of other proteins, and the ability of human cells to respond to heat stress decreases with aging. We thus investigate the association of 3 variants (A1267G in HSPA1B, G190C in HSPA1A, and T2437C in HSPA1L) in the heat shock protein 70 (Hsp70) family with natural longevity in a Xinjiang Hetian Uygur population. A case-control study was conducted in 191 healthy individuals greater than 90 years of age, and 53 naturally died persons 65-70 years of age. Promoter activity was evaluated by luciferase reporter assays. The data were analyzed using an EH/EH+ program for haplotype prediction and MDR software for gene-gene interaction. All studied variants satisfied the Hardy-Weinberg equilibrium in each group. In single-locus analysis, no significant differences were found between long-lived people and short-lived people in the genotype/allele distributions of all variants. In contrast, haplotype analysis indicated that haplotypes A-G-C and A-C-T were more prevalent in long-lived people than short-lived people (P=0.026 and 0.017), and the analysis conferred a 3.46- and 4.51-fold increased tendency for longevity, respectively (P=0.025 and 0.016). The haplotype results were strengthened by interaction analysis, which suggests an optimal model in which G190C and T2437C exert an interacting effect on longevity. No functional significance was observed between 190G and 190C alleles in both control and heat-inducible A549 cells (P>0.05). Taken together, our findings suggested that common genetic variants in Hsp70 family might contribute interactively to longevity the Xinjiang Hetian Uygur population.
越来越多的证据表明,所有细胞水平的生物体都会通过以牺牲其他蛋白质为代价合成热休克蛋白来应对压力,而人类细胞对热应激的反应能力会随着衰老而降低。因此,我们研究了热休克蛋白70(Hsp70)家族中的3个变体(HSPA1B中的A1267G、HSPA1A中的G190C和HSPA1L中的T2437C)与新疆和田维吾尔族人群自然长寿的关联。对191名年龄大于90岁的健康个体和53名65 - 70岁自然死亡的个体进行了病例对照研究。通过荧光素酶报告基因检测评估启动子活性。使用EH/EH +程序进行单倍型预测分析数据,使用MDR软件进行基因 - 基因相互作用分析。所有研究的变体在每组中均符合哈迪 - 温伯格平衡。在单基因座分析中,所有变体的基因型/等位基因分布在长寿人群和短寿人群之间未发现显著差异。相比之下,单倍型分析表明,单倍型A - G - C和A - C - T在长寿人群中比短寿人群更普遍(P = (此处原文可能有误,推测应为P = 0.026和0.017)),并且该分析分别使长寿倾向增加了3.46倍和4.51倍(P = 0.025和0.016)。相互作用分析加强了单倍型结果,这表明存在一个最佳模型,其中G190C和T2437C对长寿发挥相互作用效应。在对照细胞和热诱导的A549细胞中,190G和190C等位基因之间均未观察到功能差异(P>0.05)。综上所述,我们的研究结果表明,Hsp70家族中的常见基因变体可能通过相互作用对新疆和田维吾尔族人群的长寿产生影响。
