Aging is an inevitable process with senescence being one of its hallmarks. Recent advances have indicated that the elimination of senescent cells can reduce the signs of aging and increase healthy life span. Here, we identify a negative modulator of aging, Sprr1a, and in turn a negative modulator of Sprr1a, miR-130b. We show that reductions in Sprr1a levels, including via miR-130b expression, promotes cell senescence-like phenotype. We find that mediators of senescence, such as inflammatory cytokines and cell cycle regulators, are modulated by the miR-130b and Sprr1a-related pathway. For example, the levels of p16, p53 and p21 become decreased or increased upon the respective expression of Sprr1a versus miR-130b. Further, as shown in relation to p16 levels and β-galactosidase levels, cells expressing Sprr1a exhibit significant protection from senescence-inducing factors such as radiation or Doxorubicin, suggesting that Sprr1a might contribute to protection against age-related pathologies. Taken together, we introduce two modulators of properties associated with senescence-like phenotype.