eIF2A‐knockout mice reveal decreased life span and metabolic syndrome

AbstractObjectiveTo assess the predictive values of various adiposity indices for metabolic syndrome (MetS) among adults using baseline data from the Healthy Aging in Neighborhoods of Diversity across the Life Span (HANDLS) cohort.DesignIn a cross-sectional study, BMI, waist circumference (WC), body composition by dual-energy X-ray absorptiometry (DEXA) and metabolic risk factors such as TAG, HDL cholesterol, blood pressure, fasting glucose and insulin, uric acid and C-reactive protein were measured. Receiver-operating characteristic (ROC) curves and logistic regression analyses were conducted.SettingBaltimore, Maryland.SubjectsWhite and African-American US adults (n 1981), aged 30–64 years.ResultsIn predicting risk of MetS using obesity-independent National Cholesterol Education Program Adult Treatment Panel III criteria, percentage total body fat mass (TtFM) assessed using DEXA measuring overall adiposity had no added value over WC. This was true among both men (area under the ROC curve (AUC) = 0·680 v. 0·733 for TtFM and WC, respectively; P < 0·05) and women (AUC = 0·581 v. 0·686). Percentage rib fat mass (RbFM) was superior to TtFM only in women for MetS (AUC = 0·701 and 0·581 for RbFM and TtFM, respectively; P < 0·05), particularly among African-American women. Elevated percentage leg fat mass (LgFM) was protective against MetS among African-American men. Among white men, BMI was inferior to WC in predicting MetS. Optimal WC cut-off points varied across ethnic–sex groups and differed from those recommended by the National Institutes of Health/North American Association for the Study of Obesity.ConclusionsThe study provides evidence that WC is among the most powerful tools to predict MetS, and that optimal cut-off points for various indices including WC may differ by sex and race.

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Abnormal lipid metabolism in metabolic syndrome: an epigenetic perspective

Revista Romana de Medicina de Laborator ◽

10.1515/rrlm-2016-0025 ◽

2016 ◽

Vol 24 (2) ◽

pp. 153-160 ◽

Cited By ~ 1

Author(s):

Ioana Brudașcă ◽

Mircea Cucuianu

Keyword(s):

Metabolic Syndrome ◽

Dna Methylation ◽

Life Span ◽

Maternal Obesity ◽

Maternal Nutrition ◽

Hdl Cholesterol ◽

Atherogenic Dyslipidemia ◽

Epigenetic Changes ◽

The Metabolic Syndrome ◽

Increased Risk

Abstract Metabolic syndrome is a complex pathology including central obesity, impaired glucose tolerance/diabetes, an atherogenic dyslipidemia and a prothrombotic state. A new perspective on understanding the mechanisms underlying metabolic syndrome is provided by the epigenetic changes (mainly DNA methylation and histone covalent modifications), which influence gene expression without changing of the DNA sequence. DNA methylation (mainly in carnitine palmitoyltransferase 1A gene) and histone modifications were shown to be associated with VLDL and LDL phenotypes, with hyperglycemia and reduced level of HDL cholesterol, with hypertriglyceridemic waist phenotype and with progression of atherosclerotic occlusion in peripheral arteries. The epigenetic changes can occur in the prenatal period, throughout the life span, and can be transmitted to the offspring. Both poor maternal nutrition and maternal obesity, diabetes and overfeeding can result in epigenetic alterations that amplify the risk of metabolic syndrome for the offspring. Throughout life span, environmental factors, such as nutrition and exercise can induce epigenetic changes influencing the evolution of the metabolic syndrome (through adipocyte metabolism and insulin signaling pathway). The epigenetic modifications are not completely erased during gametogenesis and embryogensis, resulting in a transgenerational transmission of an epigenetic state up to the fifth generation. Epigenetic mechanisms are an interface between environmental stimuli and resulting phenotype by inducing a certain transcriptional state, which may be also transmitted to the next generation(s) and which may predispose to an increased risk for developing metabolic syndrome in the context of a mismatched environment. Elucidating epigenetic modulation might provide additional information about risk evaluation and more targeted therapeutical intervention.

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Comparative assessment of estrogenic responses with relevance to the metabolic syndrome and to menopausal symptoms in wild-type and aromatase-knockout mice

The Journal of Steroid Biochemistry and Molecular Biology ◽

10.1016/j.jsbmb.2011.05.004 ◽

2011 ◽

Vol 127 (3-5) ◽

pp. 428-434 ◽

Cited By ~ 6

Author(s):

Manuela I. Bader ◽

Jannette Wober ◽

Georg Kretzschmar ◽

Oliver Zierau ◽

Günter Vollmer

Keyword(s):

Metabolic Syndrome ◽

Knockout Mice ◽

Comparative Assessment ◽

Menopausal Symptoms ◽

Wild Type ◽

The Metabolic Syndrome ◽

Estrogenic Responses

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Transduction of Full-length Dystrophin to Multiple Skeletal Muscles Improves Motor Performance and Life Span in Utrophin/Dystrophin Double Knockout Mice

Molecular Therapy ◽

10.1038/mt.2008.23 ◽

2008 ◽

Vol 16 (5) ◽

pp. 825-831 ◽

Cited By ~ 22

Author(s):

Ryoko Kawano ◽

Masatoshi Ishizaki ◽

Yasushi Maeda ◽

Yuji Uchida ◽

En Kimura ◽

...

Keyword(s):

Life Span ◽

Knockout Mice ◽

Motor Performance ◽

Skeletal Muscles ◽

Full Length ◽

Double Knockout

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Obesity and schizophrenia: New drugs, new hopes

Psihijatrija danas ◽

10.5937/psihdan2001113m ◽

2020 ◽

Vol 52 (1-2) ◽

pp. 113-130

Author(s):

Čedo Miljević ◽

Olivera Vuković

Keyword(s):

Metabolic Syndrome ◽

General Population ◽

Life Span ◽

New Drugs ◽

Population Prevalence ◽

Key Factor ◽

Schizophrenic Patients ◽

Prevalence Of Obesity ◽

Treatment Of Obesity

Obesity is one of the leading problems in our society. The spread of obesity in developed societies is reaching pandemic lengths. In schizophrenic patients obesity raises an important issue. Patients suffering from schizophrenia have a shorter life span compared to the general population. Prevalence of obesity in schizophrenic patients is high. Obesity is the key factor in developing a metabolic syndrome. Metabolic syndrome is a frequent somatic complication in schizophrenia. Nowadays, it is clear that metabolic syndrome shortens the lifespan of people who developed an illness. Because of this, the treatment of obesity represents a major problem. Review of currently approved medications for treatment of obesity is the goal of this paper.

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Effects of rapamycin on growth hormone receptor knockout mice

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1717065115 ◽

2018 ◽

Vol 115 (7) ◽

pp. E1495-E1503 ◽

Cited By ~ 20

Author(s):

Yimin Fang ◽

Cristal M. Hill ◽

Justin Darcy ◽

Adriana Reyes-Ordoñez ◽

Edwin Arauz ◽

...

Keyword(s):

Growth Hormone ◽

Life Span ◽

Knockout Mice ◽

Hormone Receptor ◽

Growth Hormone Receptor ◽

Opposite Effect ◽

Whole Body ◽

Lipid Homeostasis ◽

Drastic Reduction ◽

Glucose And Lipid Homeostasis

It is well documented that inhibition of mTORC1 (defined by Raptor), a complex of mechanistic target of rapamycin (mTOR), extends life span, but less is known about the mechanisms by which mTORC2 (defined by Rictor) impacts longevity. Here, rapamycin (an inhibitor of mTOR) was used in GHR-KO (growth hormone receptor knockout) mice, which have suppressed mTORC1 and up-regulated mTORC2 signaling, to determine the effect of concurrently decreased mTORC1 and mTORC2 signaling on life span. We found that rapamycin extended life span in control normal (N) mice, whereas it had the opposite effect in GHR-KO mice. In the rapamycin-treated GHR-KO mice, mTORC2 signaling was reduced without further inhibition of mTORC1 in the liver, muscle, and s.c. fat. Glucose and lipid homeostasis were impaired, and old GHR-KO mice treated with rapamycin lost functional immune cells and had increased inflammation. In GHR-KO MEF cells, knockdown of Rictor, but not Raptor, decreased mTORC2 signaling. We conclude that drastic reduction of mTORC2 plays important roles in impaired longevity in GHR-KO mice via disruption of whole-body homeostasis.

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1814-P: JAZF1 Knockout Mice Are Protected against Diet-Induced Metabolic Syndrome

Diabetes ◽

10.2337/db20-1814-p ◽

2020 ◽

Vol 69 (Supplement 1) ◽

pp. 1814-P

Author(s):

CHITRANGDA SRIVASTAVA ◽

KERRY DORR ◽

SARA GRIMM ◽

LAURA M. DEGRAFF ◽

ARTIOM GRUZDEV ◽

...

Keyword(s):

Metabolic Syndrome ◽

Knockout Mice

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Sugar causes obesity and metabolic syndrome in mice independently of sweet taste

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.00529.2019 ◽

2020 ◽

Vol 319 (2) ◽

pp. E276-E290

Author(s):

Ana Andres-Hernando ◽

Masanari Kuwabara ◽

David J. Orlicky ◽

Aurelie Vandenbeuch ◽

Christina Cicerchi ◽

...

Keyword(s):

Metabolic Syndrome ◽

Knockout Mice ◽

De Novo ◽

Sweet Taste ◽

De Novo Lipogenesis ◽

Fibroblast Growth Factor 21 ◽

Relative Role ◽

Double Knockout ◽

Metabolic Outcome

Intake of sugars, especially the fructose component, is strongly associated with the development of obesity and metabolic syndrome, but the relative role of taste versus metabolism in driving preference, intake, and metabolic outcome is not fully understood. We aimed to evaluate the preference for sweet substances and the tendency to develop metabolic syndrome in response to these sugars in mice lacking functional taste signaling [P2X2 (P2X purinoreceptor 2)/P2X3 (P2X purinoreceptor 3) double knockout mice (DKO)] and mice unable to metabolize fructose (fructokinase knockout mice). Of interest, our data indicate that despite their inability to taste sweetness, P2X2/3 DKO mice still prefer caloric sugars (including fructose and glucose) to water in long-term testing, although with diminished preference compared with control mice. Despite reduced intake of caloric sugars by P2X2/3 DKO animals, the DKO mice still show increased levels of the sugar-dependent hormone FGF21 (fibroblast growth factor 21) in plasma and liver. Despite lower sugar intake, taste-blind mice develop severe features of metabolic syndrome due to reduced sensitivity to leptin, reduced ability to mobilize and oxidize fats, and increased hepatic de novo lipogenesis. In contrast to P2X2/3 DKO and wild-type mice, fructokinase knockout mice, which cannot metabolize fructose and are protected against fructose-induced metabolic syndrome, demonstrate reduced preference and intake for all fructose-containing sugars tested but not for glucose or artificial sweeteners. Based on these observations, we conclude that sugar can induce metabolic syndrome in mice independently of its sweet properties. Furthermore, our data demonstrate that the metabolism of fructose is necessary for sugar to drive intake and preference in mice.

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Hexose-6-phosphate dehydrogenase: linking endocrinology and metabolism in the endoplasmic reticulum

Journal of Molecular Endocrinology ◽

10.1677/jme-08-0156 ◽

2008 ◽

Vol 42 (4) ◽

pp. 283-289 ◽

Cited By ~ 29

Author(s):

Gábor Bánhegyi ◽

Miklós Csala ◽

Angelo Benedetti

Keyword(s):

Metabolic Syndrome ◽

Endoplasmic Reticulum ◽

Knockout Mice ◽

Metabolic Regulation ◽

Nutrient Sensing ◽

Intermediary Metabolism ◽

Recent Developments

Hexose-6-phosphate dehydrogenase (H6PD) got into the focus of interest due to its role in the prereceptorial activation of glucocorticoids, which has been implicated in the pathomechanism of metabolic syndrome. Genetic observations, results gained in H6PD knockout mice, and studies on differentiating adipocytes demonstrated the importance of the enzyme in metabolic regulation. A nutrient-sensing function can be postulated for the enzyme, which links metabolism to endocrinology in the endoplasmic reticulum. This review provides an overview of the recent developments concerning the enzyme and its impact on various branches of the intermediary metabolism, which make it an important subject for the research on obesity, diabetes, and metabolic syndrome.

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