Autophagy increases lifespan of model organisms; however, its role in promoting mammalian longevity is less well-established 1,2 . Here, we report lifespan and healthspan extension in a mouse model with increased basal autophagy. To determine the effects of constitutively increased autophagy on mammalian health, we generated targeted mutant mice with a F121A (Becn1 F121A/F121A) mutation in beclin 1 that decreases its interaction with the negative regulator, Bcl-2. We demonstrate that beclin 1/Bcl-2 interaction is disrupted in multiple tissues in Becn1 F121A/F121A knock-in (KI) mice in association with higher levels of basal autophagic flux. Compared to wild-type (WT) littermates, the lifespan of both male and female KI mice is significantly increased. The healthspan of the KI mice also improves as aging-related phenotypes are diminished, including age-related renal and cardiac pathological changes and spontaneous tumorigenesis. Moreover, mice deficient in the anti-aging protein, Klotho 3 , have increased beclin 1/Bcl-2 interaction, decreased autophagy, premature lethality and infertility which are rescued by the beclin 1 F121A mutation. Taken together, our data demonstrate that disruption of the beclin 1/Bcl-2 complex is an effective mechanism to increase autophagy, prevent premature aging, improve healthspan and promote longevity in mammals.