Deficiency of peroxisomal NUDT7 stimulates de novo lipogenesis in hepatocytes.

Here, we found that heterozygous null of peroxisomal Nudt7 (Nudt7 +/- ) induced the typical NAFLD features, i.e. increased levels of hepatic triglyceride (TG) and fatty acid (FA), infiltration of inflammatory cells, impaired glucose tolerance and insulin sensitivity, and stimulation of lipolysis from adipose tissue. Particularly, in Nudt7 +/- hepatocytes, de novo lipogenesis (DNL) was significantly increased. Ingenuity pathway analysis (IPA) and KEGG pathway analysis of RNA sequencing data suggested the activation of PPAR signaling in the liver of Nudt7 +/- mice. Moreover, accumulation of palmitic acid in Nudt7 +/- hepatocyte increased the level of H3K4me3 on the promoters of PPARγ resulting in the activation of PPARγ and induced the DNL in the hepatocytes of Nudt7 +/- mice. Moreover, we found that liraglutide significantly reduced typical NAFLD features induced by NUDT7 deficiency. Our data suggest that dysregulation of peroxisomal NUDT7 is responsible for upregulation of hepatic DNL by accumulation of palmitic acid and PPARγ activation.

BNIP3-Dependent Mitophagy via PGC1α Promotes Cartilage Degradation.

Since mitochondria are suggested to be important regulators in maintaining cartilage homeostasis, turnover of mitochondria through mitochondrial biogenesis and mitochondrial degradation may play an important role in the pathogenesis of osteoarthritis (OA). Here, we found that mitochondrial dysfunction is closely associated with OA pathogenesis and identified the peroxisome proliferator-activated receptor-gamma co-activator 1-alpha (PGC1α) as a potent regulator. The expression level of PGC1α was significantly decreased under OA conditions, and knockdown of PGC1α dramatically elevated the cartilage degradation by upregulating cartilage degrading enzymes and apoptotic cell death. Interestingly, the knockdown of PGC1α activated the parkin RBR E3 ubiquitin protein ligase (PRKN)-independent selective mitochondria autophagy (mitophagy) pathway through the upregulation of BCL2 and adenovirus E1B 19-kDa-interacting protein 3 (BNIP3). The overexpression of BNIP3 stimulated mitophagy and cartilage degradation by upregulating cartilage-degrading enzymes and chondrocyte death. We identified microRNA (miR)-126-5p as an upstream regulator for PGC1α and confirmed the direct binding between miR-126-5p and 3' untranslated region (UTR) of PGC1α. An in vivo OA mouse model induced by the destabilization of medial meniscus (DMM) surgery, and the delivery of antago-miR-126 via intra-articular injection significantly decreased cartilage degradation. In sum, the loss of PGC1α in chondrocytes due to upregulation of miR-126-5p during OA pathogenesis resulted in the activation of PRKN-independent mitophagy through the upregulation of BNIP3 and stimulated cartilage degradation and apoptotic death of chondrocytes. Therefore, the regulation of PGC1α:BNIP3 mitophagy axis could be of therapeutic benefit to cartilage-degrading diseases.

NUDT7 Loss Promotes KrasG12D CRC Development.

Studies have suggested that dysregulation of peroxisomal lipid metabolism might play an important role in colorectal cancer (CRC) development. Here, we found that KrasG12D-driven CRC tumors demonstrate dysfunctional peroxisomal b-oxidation and identified Nudt7 (peroxisomal coenzyme A diphosphatase NUDT7) as one of responsible peroxisomal genes. In KrasG12D-driven CRC tumors, the expression level of Nudt7 was significantly decreased. Treatment of azoxymethane/dextran sulfate sodium (AOM/DSS) into Nudt7 knockout (Nudt7-/-) mice significantly induced lipid accumulation and the expression levels of CRC-related genes whereas xenografting of Nudt7-overexpressed LS-174T cells into mice significantly reduced lipid accumulation and the expression levels of CRC-related genes. Ingenuity pathway analysis of microarray using the colon of Nudt7-/- and Nudt7+/+ mice treated with AOM/DSS suggested Wnt signaling as one of activated signaling pathways in Nudt7-/- colons. Upregulated levels of ß-catenin were observed in the colons of KrasG12D and AOM/DSS-treated Nudt7-/- mice and downstream targets of ß-catenin such as Myc, Ccdn1, and Nos2, were also significantly increased in the colon of Nudt7-/- mice. We observed an increased level of palmitic acid in the colon of Nudt7-/- mice and attachment of palmitic acid-conjugated chitosan patch into the colon of mice induced the expression levels of b-catenin and CRC-related genes. Overall, our data reveal a novel role for peroxisomal NUDT7 in KrasG12D-driven CRC development.