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1.
J Vis Exp ; (140)2018 10 23.
Article in English | MEDLINE | ID: mdl-30417869

ABSTRACT

Hepatocytes are parenchymal cells of the liver and engage multiple metabolic functions, including synthesis and secretion of proteins essential for systemic energy homeostasis. Primary hepatocytes isolated from the murine liver constitute a valuable biological tool to understand the functional properties or alterations occurring in the liver. Herein we describe a method for the isolation and culture of primary mouse hepatocytes by performing a two-step collagenase perfusion technique and discuss their utilization for investigating protein metabolism. The liver of an adult mouse is sequentially perfused with ethylene glycol-bis tetraacetic acid (EGTA) and collagenase, followed by the isolation of hepatocytes with the density gradient buffer. These isolated hepatocytes are viable on culture plates and maintain the majority of endowed characteristics of hepatocytes. These hepatocytes can be used for assessments of protein metabolism including nascent protein synthesis with non-radioactive reagents. We show that the isolated hepatocytes are readily controlled and comprise a higher quality and volume stability of protein synthesis linked to energy metabolism by utilizing the chemo-selective ligation reaction with a Tetramethylrhodamine (TAMRA) protein detection method and western blotting analyses. Therefore, this method is valuable for investigating hepatic nascent protein synthesis linked to energy homeostasis. The following protocol outlines the materials and methods for the isolation of high-quality primary mouse hepatocytes and detection of nascent protein synthesis.


Subject(s)
Alanine/analogs & derivatives , Hepatocytes/metabolism , Proteins/metabolism , Alanine/metabolism , Animals , Cells, Cultured , Hepatocytes/cytology , Mice
2.
Nat Commun ; 9(1): 3658, 2018 09 10.
Article in English | MEDLINE | ID: mdl-30201950

ABSTRACT

RNA silencing inhibits mRNA translation. While mRNA translation accounts for the majority of cellular energy expenditure, it is unclear if RNA silencing regulates energy homeostasis. Here, we report that hepatic Argonaute 2 (Ago2)-mediated RNA silencing regulates both intrinsic energy production and consumption and disturbs energy metabolism in the pathogenesis of obesity. Ago2 regulates expression of specific miRNAs including miR-802, miR-103/107, and miR-148a/152, causing metabolic disruption, while simultaneously suppressing the expression of genes regulating glucose and lipid metabolism, including Hnf1ß, Cav1, and Ampka1. Liver-specific Ago2-deletion enhances mitochondrial oxidation and ATP consumption associated with mRNA translation, which results in AMPK activation, and improves obesity-associated pathophysiology. Notably, hepatic Ago2-deficiency improves glucose metabolism in conditions of insulin receptor antagonist treatment, high-fat diet challenge, and hepatic AMPKα1-deletion. The regulation of energy metabolism by Ago2 provides a novel paradigm in which RNA silencing plays an integral role in determining basal metabolic activity in obesity-associated sequelae.


Subject(s)
AMP-Activated Protein Kinases/metabolism , Argonaute Proteins/metabolism , Obesity/enzymology , RNA Interference , Animals , Diet, High-Fat , Eukaryotic Initiation Factors/metabolism , Gene Deletion , Genotype , Glucose/metabolism , Glucose Tolerance Test , Glycolysis , Humans , Hyperglycemia/metabolism , Liver/metabolism , Mice , Mice, Inbred C57BL , Mice, Knockout , MicroRNAs/metabolism , Mitochondria/metabolism , Oxygen/metabolism , Pyruvic Acid/metabolism
3.
Sci Rep ; 8(1): 430, 2018 01 11.
Article in English | MEDLINE | ID: mdl-29323138

ABSTRACT

Obesity and type 2 diabetes are frequently associated with peripheral neuropathy. Though there are multiple methods for diagnosis and analysis of morphological changes of peripheral nerves and blood vessels, three-dimensional high-resolution imaging is necessary to appreciate the pathogenesis with an anatomically recognizable branching morphogenesis and patterning. Here we established a novel technique for whole-mount imaging of adult mouse ear skin to visualize branching morphogenesis and patterning of peripheral nerves and blood vessels. Whole-mount immunostaining of adult mouse ear skin showed that peripheral sensory and sympathetic nerves align with large-diameter blood vessels. Diet-induced obesity (DIO) mice exhibit defective vascular smooth muscle cells (VSMCs) coverage, while there is no significant change in the amount of peripheral nerves. The leptin receptor-deficient db/db mice, a severe obese and type 2 diabetic mouse model, exhibit defective VSMC coverage and a large increase in the amount of smaller-diameter nerve bundles with myelin sheath and unmyelinated nerve fibers. Interestingly, an increase in the amount of myeloid immune cells was observed in the DIO but not db/db mouse skin. These data suggest that our whole-mount imaging method enables us to investigate the neuro-vascular and neuro-immune phenotypes in the animal models of obesity and diabetes.


Subject(s)
Blood Vessels/diagnostic imaging , Diabetes Mellitus, Type 2/complications , Ear/diagnostic imaging , Obesity/complications , Peripheral Nerves/diagnostic imaging , Peripheral Nervous System Diseases/diagnostic imaging , Animals , Disease Models, Animal , Ear/blood supply , Ear/innervation , Imaging, Three-Dimensional , Mice , Microscopy, Confocal/methods , Morphogenesis , Receptors, Leptin/genetics , Skin/blood supply , Skin/innervation
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