Abstract Sodium-glucose co-transporter 2 (SGLT2) inhibitors have been developed as a new class of anti-diabetic drug, and shown cardio- and renal-protective effects in patients with diabetes, heart failure, and chronic kidney diseases. Also, there's evidence that canagliflozin, one of the SGLT2 inhibitors has expanded lifespan in aged mice, but their detailed protective machinery is still to be clarified. Here we demonstrate that canagliflozin has a effect to eliminate senescent cells from pathological tissues, so-called "senolysis" in some murine disease models and alleviates their pathology. We treated canagliflozin mixed in food at 0.03% (w/w) to high-fat-diet(HFD)-fed obese mice and found that canagliflozin reduced senescent cells in visceral adipose tissue within 1 week. Also, we found that senolytic effect of canagliflozin was provided through enhancing endogenous senolytic function by NK or T cells. This machinery was mediated by enhanced AMPK signaling, which leads to the downregulation of PD-L1 expression on senescent cells. Furthermore, we treated canagliflozin to ApoE-knockout atherosclerotic mice with western diet feeding, progeroid mice and chronological aged mice. Canagliflozin reduced their senescent cell burden, resulting in alleviation of atherosclerosis, extended lifespan of progeroid, and altered physical function due to chronological aging. Our results would be promising evidence that SGLT2 inhibitors can be used as not only cardio- or renal-protective drugs but also anti-aging drugs.
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