Curcumin Inhibited Podocyte Cell Apoptosis and Accelerated Cell Autophagy in Diabetic Nephropathy via Regulating Beclin1/UVRAG/Bcl2

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.

An increasing body of research on autophagy provides overwhelming evidence for its connection to diverse biological functions and human diseases. Beclin 1, the first mammalian autophagy protein to be described, appears to act as a nexus point between autophagy, endosomal, and perhaps also cell death pathways. Beclin 1 performs these roles as part of a core complex that contains vacuolar sorting protein 34 (VPS34), a class III phosphatidylinositol-3 kinase. The precise mechanism of Beclin 1-mediated regulation of these cellular functions is unclear, but substantial progress has recently been made in identifying new players and their functions in Beclin 1-VSP34 complexes. Here we review emerging studies that are beginning to unveil the physiological functions of Beclin 1-VPS34 in the central control of autophagic activity and other trafficking events through the formation of distinct Beclin 1-VPS34 protein complexes. (c) 2010 Elsevier Ltd. All rights reserved.

Type 2 diabetic kidney disease (DKD) is the most common cause of CKD and ESRD worldwide, and carries with it enormous human and societal costs. The goal of this review is to provide an update on the diagnosis and management of DKD based on a comprehensive review of the medical literature. Topics addressed include the evolving presentation of DKD, clinical differentiation of DKD from non-DKD, a state-of-the-art evaluation of current treatment strategies, and promising emerging treatments. It is expected that the review will help clinicians to diagnose and manage patients with DKD.