When cells are stimulated by free radicals, hypoxia, ultraviolet (UV) light, or radiation, etc., it could easily lead to cell aging, which is different from apoptosis. The characteristics of cellular senescence, include reduced telomere length and telomerase activity, a flat morphology, increased resistance to apoptosis, as well as elevated levels of inflammation, growth factors and senescence-associated β-galactosidase. DNA telomeres play an important role in cellular senescence. Telomere length in humans is emerging as a biomarker of senescence because its shortening is associated with aging. Many researches also indicate that reduced telomere length is correlated to the incidence and mortality of some diseases, as well as age-related tumors. A single high-intensity exercise does not have any effect on telomere, but regular exercise, long-term, can increase the protection of the telomere. This is especially true in the elderly population than in younger individuals, which can benefit from long-term exercise that will help with the maintenance of telomere length. In summary, regular exercise can increase the positive effect of telomere-protecting factors and decrease the levels of senescence-associated factors.