Saito H, Hammond A T, Moses R E
Department of Molecular and Medical Genetics, Oregon Health Sciences University, Portland 97201, USA.
Exp Cell Res. 1995 Apr;217(2):272-9. doi: 10.1006/excr.1995.1087.
Human diploid fibroblasts (HDF) IMR90, starting at various population doubling levels (PDL), were serially cultured under four different oxygen conditions; the conventional atmospheric 20% O2 condition and three lower oxygen conditions (1, 6, and 12% O2). All cultures from different PDLs showed that a longer replicative life span was achieved under the lower oxygen conditions. When the starting culture PDL was between 33 and 62, the increased life span rate was constant (average 22%) at 1% O2, but the rate decreased when the starting PDL was higher. The growth advantage under the 1% O2 condition was also observed in the very late passages of cultures to some extent, but terminal cultures with senescent cells were not stimulated by the low oxygen condition. When cultures at an extended PDL under the 1% O2 condition were shifted back to the 20% O2 condition, the cells rapidly senesced. HDF from a subject with Werner syndrome, a premature aging disease, which are known to have reduced replicative potential in vitro, also showed 43% increase in life span under the lowest oxygen conditions. When SV40 large T-transformed IMR90 cells at preimmortal stages were tested, no significant growth differences were observed under different oxygen conditions, and all the cultures died out at a similar PDL. These results suggest: (1) The atmospheric 20% oxygen tension hastens HDF senescence. (2) Young cells are more resistant to oxygen tension than old cells. (3) SV40 large T transformation abolishes the oxygen effect on cellular aging.
人二倍体成纤维细胞(HDF)IMR90,从不同的群体倍增水平(PDL)开始,在四种不同的氧气条件下进行连续培养;传统的大气20% O₂条件和三种较低的氧气条件(1%、6%和12% O₂)。来自不同PDL的所有培养物都表明,在较低的氧气条件下可以实现更长的复制寿命。当起始培养PDL在33至62之间时,在1% O₂条件下寿命延长率是恒定的(平均22%),但当起始PDL较高时该速率会下降。在培养的很晚传代中也在一定程度上观察到了1% O₂条件下的生长优势,但具有衰老细胞的终末培养物未受到低氧条件的刺激。当在1% O₂条件下处于延长PDL的培养物转回20% O₂条件时,细胞迅速衰老。来自患有早老症Werner综合征的受试者的HDF,已知其在体外具有降低的复制潜能,在最低氧气条件下其寿命也增加了43%。当对处于永生前期的SV40大T抗原转化的IMR90细胞进行测试时,在不同氧气条件下未观察到显著的生长差异,并且所有培养物在相似的PDL时死亡。这些结果表明:(1)大气20%的氧张力会加速HDF衰老。(2)年轻细胞比衰老细胞对氧张力更具抗性。(3)SV40大T抗原转化消除了氧气对细胞衰老的影响。
