Lakowski B, Hekimi S
Department of Biology, McGill University, 1205 Dr. Penfield Avenue, Montréal, Québec, Canada H3A 1B1.
Proc Natl Acad Sci U S A. 1998 Oct 27;95(22):13091-6. doi: 10.1073/pnas.95.22.13091.
Low caloric intake (caloric restriction) can lengthen the life span of a wide range of animals and possibly even of humans. To understand better how caloric restriction lengthens life span, we used genetic methods and criteria to investigate its mechanism of action in the nematode Caenorhabditis elegans. Mutations in many genes (eat genes) result in partial starvation of the worm by disrupting the function of the pharynx, the feeding organ. We found that most eat mutations significantly lengthen life span (by up to 50%). In C. elegans, mutations in a number of other genes that can extend life span have been found. Two genetically distinct mechanisms of life span extension are known: a mechanism involving genes that regulate dauer formation (age-1, daf-2, daf-16, and daf-28) and a mechanism involving genes that affect the rate of development and behavior (clk-1, clk-2, clk-3, and gro-1). We find that the long life of eat-2 mutants does not require the activity of DAF-16 and that eat-2; daf-2 double mutants live even longer than extremely long-lived daf-2 mutants. These findings demonstrate that food restriction lengthens life span by a mechanism distinct from that of dauer-formation mutants. In contrast, we find that food restriction does not further increase the life span of long-lived clk-1 mutants, suggesting that clk-1 and caloric restriction affect similar processes.
低热量摄入(热量限制)能够延长多种动物甚至可能包括人类的寿命。为了更好地理解热量限制是如何延长寿命的,我们运用遗传学方法和标准来研究其在秀丽隐杆线虫中的作用机制。许多基因(eat基因)发生突变会破坏作为摄食器官的咽的功能,从而导致线虫部分饥饿。我们发现,大多数eat基因突变会显著延长寿命(延长幅度高达50%)。在秀丽隐杆线虫中,还发现了一些其他能够延长寿命的基因突变。已知有两种在基因层面不同的寿命延长机制:一种涉及调控滞育形成的基因(age-1、daf-2、daf-16和daf-28),另一种涉及影响发育和行为速率的基因(clk-1、clk-2、clk-3和gro-1)。我们发现,eat-2突变体的长寿并不依赖DAF-16的活性,并且eat-2;daf-2双突变体比寿命极长的daf-2突变体活得更长。这些发现表明,食物限制通过一种不同于滞育形成突变体的机制来延长寿命。相比之下,我们发现食物限制并不会进一步延长长寿的clk-1突变体的寿命,这表明clk-1和热量限制影响相似的过程。