Sexually dimorphic myeloid inflammatory and metabolic responses to diet-induced obesity

Griffin, Cameron; Lanzetta, Nicholas; Eter, Leila; Singer, Kanakadurga

doi:10.1152/ajpregu.00136.2016

Cited by 35 publications

(28 citation statements)

References 63 publications

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“…Several animal models of obesity described in the literature are somehow heterogeneous, since they exploit spontaneous mutations or diet-induced obesity in rodents; however, these latter models are often used to study polygenic causes of obesity and are believed by several investigators to better mimic the state of common obesity in humans, and may be the best choice for testing prospective therapeutics. These animal models may also show some of the most frequent comorbidities of obesity, such as hyperglycemia, insulin resistance, or diabetes-like syndromes (Lutz and Wood, 2012;Reyes, 2012;Habbout et al, 2013;Griffin et al, 2016;Heydemann, 2016); similar metabolic and immunologic alterations are observed in our model as well (Supplemental Material; Table 3). In synthesis, the three conditions (human type-2 diabetes, mouse high-fat diet/overfeeding syndrome, and our stress model of type-2 diabetes) share a number of similar alterations, as shown in Table 3, and we speculate that all three syndromes may also share some of the neuroendocrine pathogenetic mechanisms described in the present paper (Table 3).…”

Section: Tablesupporting

confidence: 52%

Etiopathogenesis and Pharmacological Prevention of a Type-2 Diabetes Model in Male Mice

Loizzo

Spampinato

Campana

et al. 2017

J Pharmacol Exp Ther

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We describe a stress-derived type-2 diabetes model in male mice, and formulate new hypotheses on how the model was induced, how diabetes-like alterations were prevented through specific pharmacological treatments, and how its possible neuroendocrine pathogenesis could be hypothesized. Pregnant females arrived in our laboratory on their 14th day of conceptional age. After birth, control mice never showed any apparent behavioral-metabolic-endocrine alterations. However, application of postnatal stress (brief mother deprivation, plus sham injection, daily from birth to weaning), was followed in adult male mice by two series of diabetes-like alterations. Some alterations (e.g., body overweight, immune, neurophysiologic, neurobehavioral alterations) were selectively prevented by opioid antagonist naloxone daily administered during nursing period. The aforementioned alterations plus several others (e.g., hyperglycemia, neuroendocrine alterations) were prevented by administration of specific antisense oligodeoxinucleotide, which modulated synthesis-hyperfunction of proopiomelanocortin-derived corticotropin (ACTH)-corticosterone and endorphins in the pituitary. Surprisingly, together with metabolic alterations, enduring increment of neurophysiologic/neurobehavioral brain performances were observed, accompanied by energy compensative reactions, and brain mitochondria hyperfunction. Thus, increased glycemia/lipidemia appeared to furnish fuel necessary to cope with increased request of energy. Diabetes-like alterations were accompanied by enduring hyperfunction of opioid- and ACTH-corticosterone-endogenous structures in the brain, which were apparently due to failure of negative feedback hormone mechanisms in the pituitary, for the control of the hypothalamus-pituitary-adrenal axis. In conclusion, for the first time we can hypothesize that a diabetes-like syndrome is produced by enduring hyperfunction of two proopiomelanocortin-dependent endogenous systems (brain opioid- and ACTH-corticosterone systems), following failure of pituitary feedback hormonal control, after complex stress procedures.

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Section: Tablesupporting

confidence: 52%

Etiopathogenesis and Pharmacological Prevention of a Type-2 Diabetes Model in Male Mice

Loizzo

Spampinato

Campana

et al. 2017

J Pharmacol Exp Ther

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“…Studies remain controversial about the gender differences in these ATMs and are limited by predominant sampling of subcutaneous adipose tissue in clinical sampling. Clinical studies implicate more ATMs in men and women with PCOS compared to premenopausal women [106•, 107]. …”

Section: Clinical Studies Of Gender Differences In Adipose Tissue Biomentioning

confidence: 99%

Gender and Sex Differences in Adipose Tissue

2018

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There is evidence related to the sex dichotomy in obesity in a variety of areas including adipocyte function, sex hormone effects, genetics, and metabolic inflammation leading to critical differences in adipose tissue biology. The sex and gender difference in adipose tissue is a factor that should be considered when studying an individuals' risk for obesity and metabolic dysfunction. This understanding is important for strategizing treatment and prevention measures.

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“…Male LDLR−/− mice also develop more severe hypertriglyceridemia 74 and hepatic steatosis when challenged with high fat diets 75 ; whether these differences 72–74 are responsible for gender-specific responses to atheroma modulation by PPAR-gamma agonists remains to be determined 74 . The enhanced myeloid adipo-inflammatory response of male mice to high fat diet feeding may be responsible, and these sexually dimorphic metabolic responses have been recently reviewed in detail 76 .…”

Section: Preclinical Models Of Arterial Calcification In the Setmentioning

confidence: 99%

Arterial Calcification in Diabetes Mellitus

Stabley

Towler

2017

ATVB

108

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Diabetes increasingly afflicts our aging and dysmetabolic population. Type 2 diabetes (T2D) and the antecedent metabolic syndrome (MetS) represent the vast majority of the disease burden –increasingly prevalent in children as well as older adults. However, type 1 diabetes (T1D) is also advancing in preadolescent children. As such, a crushing wave of cardiometabolic disease burden now faces our society. Arteriosclerotic calcification is increased in MetS, T2D, and T1D – impairing conduit vessel compliance and function, thereby increasing the risk for dementia, stroke, heart attack, limb ischemia, renal insufficiency and lower extremity amputation. Preclinical models of these dysmetabolic settings have provided insights into the pathobiology of arterial calcification. Osteochondrogenic morphogens in the BMP-Wnt signaling relay and transcriptional regulatory programs driven by Msx and Runx gene families are entrained to innate immune responses – responses activated by the dysmetabolic state – to direct arterial matrix deposition and mineralization. Recent studies implicate the endothelial-mesenchymal transition (EndMT) in contributing to the phenotypic drift of mineralizing vascular progenitors. In this brief overview, we discuss preclinical disease models that provide mechanistic insights – and point to the emerging potential for translating these insights into new therapeutic strategies for our patients challenged with diabetes and its arteriosclerotic complications.

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Sexually dimorphic myeloid inflammatory and metabolic responses to diet-induced obesity

Cited by 35 publications

References 63 publications

Etiopathogenesis and Pharmacological Prevention of a Type-2 Diabetes Model in Male Mice

Etiopathogenesis and Pharmacological Prevention of a Type-2 Diabetes Model in Male Mice

Gender and Sex Differences in Adipose Tissue

Arterial Calcification in Diabetes Mellitus

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