Hepatic Autophagy Is Suppressed in the Presence of Insulin Resistance and Hyperinsulinemia

Liu, Huiyu; Han, Jing; Cao, Sophia Y.; Hong, Tao; Zhuo, Degen; Shi, Jianbo; Liu, Zhenqi; Cao, Wenhong

doi:10.1074/jbc.m109.033936

Cited by 344 publications

(284 citation statements)

References 49 publications

(53 reference statements)

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“…3c,d). This finding suggests that the highfat diet reduced autophagic flux in the liver as previously suggested [10,11], which was confirmed with another marker, p62/SQSTM1 (sequestosome 1), which is cleared in lysosomes and thus correlates inversely with autophagy. p62/SQSTM1 staining in the liver was increased (consistent with reduced autophagic flux) by both chloroquine treatment and a high-fat diet (ESM Fig.…”

Section: Resultssupporting

confidence: 71%

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High-fat diet increases autophagic flux in pancreatic beta cells in vivo and ex vivo in mice

et al. 2015

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Aims/hypothesis Defective beta cell function during lipid oversupply and type 2 diabetes is associated with dysregulation of lysosomal function and autophagy. Whether this dysregulation represents augmentation or inhibition is unclear because of technical limitations in assaying autophagy. The current aim was to determine the effects of high-fat feeding on true autophagic flux in beta cells in vivo in mice, and to establish the relationship between autophagy, endoplasmic reticulum (ER) stress and apoptosis. Methods Green fluorescent protein-microtubule-associated protein 1 light chain 3 (GFP-LC3) mice were fed chow or high-fat diets for 8-10 weeks and injected with 100 mg kg −1 day −1 chloroquine for 5 days, prior to being killed, to block clearance of autophagic markers. Pancreases and livers were fixed and GFP-LC3 aggregates or autophagosomes were detected by fluorescence or electron microscopy, respectively. Independently, islets isolated from chow or high-fat-fed mice were treated for 2 h with chloroquine ex vivo, and immunoblotting was performed for markers of autophagy (LC3 lipidation -LC3II and p62/SQSTM1), ER stress (C/EBP homology protein [CHOP], phosphorylated eukaryotic initiation factor 2α [p-eIFα] and inositol requiring enzyme 1α ) and apoptosis (cleaved caspase-3). Results Numbers of autophagosomes and GFP puncta were increased in beta cells by combined high-fat feeding and chloroquine injection, indicative of enhanced autophagic flux. By contrast, GFP puncta were attenuated in liver under the same conditions. Relative to chow-fed controls, islets isolated from fat-fed mice exhibited higher LC3II levels when treated ex vivo with chloroquine. The combination of high-fat feeding and acute chloroquine treatment induced CHOP, p-eIF2α and caspase-3, but not either treatment alone. Conclusions/interpretation We provide the first in vivo demonstrations that high-fat feeding increases autophagic flux in pancreatic beta cells, and that this serves to protect against induction of terminal ER stress. We also highlight an approach for monitoring dietary alterations in autophagic flux using ex vivo manipulation of isolated islets.

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Section: Resultssupporting

confidence: 71%

“…Although LC3 can also associate with lipid droplets [10] these were not detected in beta cells under conditions in which GFP-LC3 puncta were readily observable. The specificity of our approach is further underscored by the contrast with liver, where autophagic flux was inhibited by high-fat feeding, consistent with previous work [10,11].…”

Section: Discussionsupporting

confidence: 74%

High-fat diet increases autophagic flux in pancreatic beta cells in vivo and ex vivo in mice

et al. 2015

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“…35,36 SQSTM1 encodes a multifunctional protein that besides binding ubiquitin and regulating activation of the nuclear factor kappa-B (NF-kB) signaling pathway, has also effects related to impairment of autophagic flux, 37 thereby contributing to hepatic insulin sensitivity. [38][39][40] Moreover, correlations of NASH-associated CpG sites with mRNA expression of CEACAM1, SH3BP4 (encoding transferrin receptor-trafficking protein), and NAT2 also support a role for our findings relating differential DNA methylation in NASH with impaired insulin signaling/action. [41][42][43][44][45][46][47] The mechanisms that could alter DNA methylation in the insulin-resistant liver remain to be elucidated.…”

Section: Discussionmentioning

confidence: 52%

Human liver epigenetic alterations in non-alcoholic steatohepatitis are related to insulin action

et al. 2017

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Both genetic and lifestyle factors contribute to the risk of non-alcoholic steatohepatitis (NASH). Additionally, epigenetic modifications may also play a key role in the pathogenesis of NASH. We therefore investigated liver DNA methylation, as a marker for epigenetic alterations, in individuals with simple steatosis and NASH, and further tested if these alterations were associated with clinical phenotypes. Liver biopsies obtained from 95 obese individuals (age: 49.5 § 7.7 years, BMI: 43 § 5.7 kg/m 2 , type 2 diabetes [T2D]: 35) as a wedge biopsy during a Roux-en-Y gastric bypass operation were investigated. Thirty-four individuals had a normal liver phenotype, 35 had simple steatosis, and 26 had NASH. Genome-wide DNA methylation pattern was analyzed using the Infinium HumanMethylation450 BeadChip. mRNA expression was analyzed from 42 individuals using the HumanHT-12 Expression BeadChip. We identified 1,292 CpG sites representing 677 unique genes differentially methylated in liver of individuals with NASH (q < 0.001), independently of T2D, age, sex, and BMI. Focusing on the top-ranking 30 and another 37 CpG sites mapped to genes enriched in pathways of metabolism (q D 0.0036) and cancer (q D 0.0001) all together, 59 NASH-associated CpG sites correlated with fasting insulin levels independently of age, fasting glucose, or T2D. From these, we identified 30 correlations between DNA methylation and mRNA expression, for example LDHB (r D ¡0.45, P D 0.003). We demonstrated that NASH, more than simple steatosis, associates with differential DNA methylation in the human liver. These epigenetic alterations in NASH are linked with insulin metabolism.

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“…Expression of a constitutive form of FoxO3 induces autophagy in adult mouse skeletal muscle. Recently, another member of the FoxO protein family, FoxO1, has been shown to regulate the expression of key autophagy genes Pik3c3, Atg12, and Gabarapl1 in hepatocytes in an insulin-dependent manner [151]. p53 p53 is a pivotal factor involved in regulating cell death and survival, and in regulating metabolism [152].…”

Section: Nf-κbmentioning

confidence: 99%

Overview of macroautophagy regulation in mammalian cells

et al. 2010

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Macroautophagy is a multistep, vacuolar, degradation pathway terminating in the lysosomal compartment, and it is of fundamental importance in tissue homeostasis. In this review, we consider macroautophagy in the light of recent advances in our understanding of the formation of autophagosomes, which are double-membrane-bound vacuoles that sequester cytoplasmic cargos and deliver them to lysosomes. In most cases, this final step is preceded by a maturation step during which autophagosomes interact with the endocytic pathway. The discovery of AuTophaGyrelated genes has greatly increased our knowledge about the mechanism responsible for autophagosome formation, and there has also been progress in the understanding of molecular aspects of autophagosome maturation. Finally, the regulation of autophagy is now better understood because of the discovery that the activity of Atg complexes is targeted by protein kinases, and owing to the importance of nuclear regulation via transcription factors in regulating the expression of autophagy genes.

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Hepatic Autophagy Is Suppressed in the Presence of Insulin Resistance and Hyperinsulinemia

Cited by 344 publications

References 49 publications

High-fat diet increases autophagic flux in pancreatic beta cells in vivo and ex vivo in mice

High-fat diet increases autophagic flux in pancreatic beta cells in vivo and ex vivo in mice

Human liver epigenetic alterations in non-alcoholic steatohepatitis are related to insulin action

Overview of macroautophagy regulation in mammalian cells

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