Simon S. Evers scite author profile

Background: Animal models of non-alcoholic steatohepatitis (NASH) are important tools in preclinical research and drug discovery. Gubra-Amylin NASH (GAN) diet-induced obese (DIO) mice represent a model of fibrosing NASH. The present study directly assessed the clinical translatability of the model by head-to-head comparison of liver biopsy histological and transcriptome changes in GAN DIO-NASH mouse and human NASH patients. Methods: C57Bl/6 J mice were fed chow or the GAN diet rich in saturated fat (40%), fructose (22%) and cholesterol (2%) for ≥38 weeks. Metabolic parameters as well as plasma and liver biomarkers were assessed. Liver biopsy histology and transcriptome signatures were compared to samples from human lean individuals and patients diagnosed with NASH. Results: Liver lesions in GAN DIO-NASH mice showed similar morphological characteristics compared to the NASH patient validation set, including macrosteatosis, lobular inflammation, hepatocyte ballooning degeneration and periportal/perisinusoidal fibrosis. Histomorphometric analysis indicated comparable increases in markers of hepatic lipid accumulation, inflammation and collagen deposition in GAN DIO-NASH mice and NASH patient samples. Liver biopsies from GAN DIO-NASH mice and NASH patients showed comparable dynamics in several gene expression pathways involved in NASH pathogenesis. Consistent with the clinical features of NASH, GAN DIO-NASH mice demonstrated key components of the metabolic syndrome, including obesity and impaired glucose tolerance. Conclusions: The GAN DIO-NASH mouse model demonstrates good clinical translatability with respect to the histopathological, transcriptional and metabolic aspects of the human disease, highlighting the suitability of the GAN DIO-NASH mouse model for identifying therapeutic targets and characterizing novel drug therapies for NASH.

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The Physiology and Molecular Underpinnings of the Effects of Bariatric Surgery on Obesity and Diabetes

Evers

Sandoval

Seeley

2017

Annu. Rev. Physiol.

100

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Bariatric surgeries, such as Roux-en-Y gastric bypass and vertical sleeve gastrectomy, produce significant and durable weight loss in both humans and rodents. Recently, these surgical interventions have also been termed metabolic surgery because they result in profound metabolic improvements that often surpass the expected improvement due to body weight loss alone. In this review we focus on the weight-loss independent effects of bariatric surgery, which encompass energy expenditure and macronutrient preference, the luminal composition of the gut (i.e., the microbiota and bile acids), the transformation of the gastrointestinal lining, increases in postprandial gut hormone secretions, glycemic control, pancreas morphology, and micronutrient and mineral absorption. Taken together, these data point to several important physiological changes that contribute to the profound benefits of these surgical procedures. Identifying the underlying molecular mechanisms for these physiological effects will allow better utilization of these existing procedures to help patients and develop new treatments that harness these surgical effects with less invasive interventions.

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G-CSF partially mediates effects of sleeve gastrectomy on the bone marrow niche

Li¹,

Hardij²,

Evers³

et al. 2019

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Effects of sleeve gastrectomy on the composition and diurnal oscillation of gut microbiota related to the metabolic improvements

Shao

Shen

Hua

et al. 2018

Surgery for Obesity and Related Diseases

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Simon S. Evers

Calcitonin Receptor Neurons in the Mouse Nucleus Tractus Solitarius Control Energy Balance via the Non-aversive Suppression of Feeding

Human translatability of the GAN diet-induced obese mouse model of non-alcoholic steatohepatitis

The Physiology and Molecular Underpinnings of the Effects of Bariatric Surgery on Obesity and Diabetes

G-CSF partially mediates effects of sleeve gastrectomy on the bone marrow niche

Effects of sleeve gastrectomy on the composition and diurnal oscillation of gut microbiota related to the metabolic improvements

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