Liu Ya-Lin, Lu Wan-Chih, Brummel Theodore J, Yuh Chiou-Hwa, Lin Pei-Ting, Kao Tzu-Yu, Li Fang-Yi, Liao Pin-Chao, Benzer Seymour, Wang Horng-Dar
Department of Life Science and Institute of Biotechnology, National Tsing Hua University, HsinChu, Taiwan.
Aging Cell. 2009 Aug;8(4):370-9. doi: 10.1111/j.1474-9726.2009.00471.x. Epub 2009 Mar 16.
Exposure to sub-lethal levels of stress, or hormesis, was a means to induce longevity. By screening for mutations that enhance resistance to multiple stresses, we identified multiple alleles of alpha-1,2-mannosidase I (mas1) which, in addition to promoting stress resistance, also extended longevity. Longevity enhancement is also observed when mas1 expression is reduced via RNA interference in both Drosophila melanogaster and Caenorhabditis elegans. The screen also identified Edem1 (Edm1), a gene downstream of mas1, as a modulator of lifespan. As double mutants for both mas1 and Edm1 showed no additional longevity enhancement, it appeared that both mutations function within a common pathway to extend lifespan. Molecular analysis of these mutants revealed that the expression of BiP, a putative biomarker of dietary restriction (DR), is down-regulated in response to reductions in mas1 expression. These findings suggested that mutations in mas1 may extend longevity by modulating DR.
暴露于亚致死水平的应激,即兴奋效应,是诱导长寿的一种方式。通过筛选增强对多种应激抗性的突变,我们鉴定出了α-1,2-甘露糖苷酶I(mas1)的多个等位基因,这些等位基因除了促进应激抗性外,还延长了寿命。当通过RNA干扰在黑腹果蝇和秀丽隐杆线虫中降低mas1表达时,也观察到了寿命延长。该筛选还鉴定出mas1下游的一个基因Edem1(Edm1)作为寿命的调节因子。由于mas1和Edm1的双突变体没有显示出额外的寿命延长增强,似乎这两种突变都在一个共同的途径中发挥作用以延长寿命。对这些突变体的分子分析表明,作为饮食限制(DR)假定生物标志物的BiP的表达,会响应mas1表达的降低而下调。这些发现表明,mas1中的突变可能通过调节饮食限制来延长寿命。