scholarly journals Interleukin 1 Receptor 1 Knockout and Maternal High Fat Diet Exposure Induces Sex-Specific Effects on Adipose Tissue Adipogenic and Inflammatory Gene Expression in Adult Mouse Offspring

2020 ◽  
Vol 11 ◽  
Author(s):  
Pania E. Bridge-Comer ◽  
Jasmine F. Plows ◽  
Farha Ramzan ◽  
Rachna Patel ◽  
Thashma P. Ganapathy ◽  
...  
Keyword(s):  
Gene Expression ◽  
Adipose Tissue ◽  
High Fat Diet ◽  
Adult Mouse ◽  
Interleukin 1 ◽  
High Fat ◽  
Inflammatory Gene Expression ◽  
Inflammatory Gene ◽  
Specific Effects ◽  
Diet Exposure

scholarly journals Maternal high-fat diet induces sex-specific changes to glucocorticoid and inflammatory signaling in response to corticosterone and lipopolysaccharide challenge in adult rat offspring

2019 ◽  
Author(s):  
Sanoji Wijenayake ◽  
Mouly F. Rahman ◽  
Christine M.W. Lum ◽  
Wilfred C. De Vega ◽  
Aya Sasaki ◽  
...  
Keyword(s):  
Gene Expression ◽  
High Fat Diet ◽  
Maternal Obesity ◽  
Inflammatory Responses ◽  
Physiological Stress ◽  
High Fat ◽  
Inflammatory Gene Expression ◽  
Inflammatory Genes ◽  
Inflammatory Gene ◽  
Rat Offspring

ABSTRACTBackgroundAcute elevations in endogenous corticosterone (CORT) with psychosocial stress or exogenous administration potentiate inflammatory gene expression. Maternal obesity as a result of high-fat diet (HFD) consumption has been linked to higher basal levels of neuroinflammation, including increased expression of pro-inflammatory genes in the amygdala. These findings suggest that exposure to maternal HFD may elicit pro-inflammatory responses in the presence of an immune stressor such as lipopolysaccharide (LPS), a component of gram-negative bacteria, as well as acute elevated CORT.MethodsRat offspring were exposed to maternal HFD or control diet (CHD) throughout pre and postnatal development until weaning, when all offspring were provided CHD until adulthood. In adulthood, offspring were ‘challenged’ with administration of exogenous CORT, to simulate an acute physiological stress, LPS, to induce an immune stress, or both. qPCR was used to measure transcript abundance of CORT receptors and downstream inflammatory genes in the amygdala, hippocampus and prefrontal cortex, brain regions that mediate neuroendocrine and behavioral responses to stress.ResultsHFD female offspring exhibited elevations in anti-inflammatory transcripts, whereas HFD male offspring responded with greater pro-inflammatory gene expression to simultaneous CORT and LPS administration.ConclusionsThese findings suggest that exposure to maternal HFD leads to sex-specific alterations that may alter inflammatory responses in the brain, possibly as an adaptive response to basal inflammation.

scholarly journals Dietary Sodium Nitrite Causes Similar Modifications to Splenic Inflammatory Gene Expression as a High-Fat Diet

2021 ◽  
Vol 67 (6) ◽  
pp. 404-416
Author(s):  
Motoko OARADA ◽  
Yuushi OKUMURA ◽  
Katsuya HIRASAKA ◽  
Kosuke SUGIURA ◽  
Nobuhiko TACHIBANA ◽  
...  
Keyword(s):  
Gene Expression ◽  
Sodium Nitrite ◽  
High Fat Diet ◽  
Dietary Sodium ◽  
High Fat ◽  
Inflammatory Gene Expression ◽  
Inflammatory Gene

scholarly journals Maternal high-fat diet-induced programing of gut taste receptor and inflammatory gene expression in rat offspring is ameliorated by CLA supplementation

2015 ◽  
Vol 3 (10) ◽  
pp. e12588 ◽  
Author(s):  
Clare M. Reynolds ◽  
Stephanie A. Segovia ◽  
Xiaoyuan D. Zhang ◽  
Clint Gray ◽  
Mark H. Vickers
Keyword(s):  
Gene Expression ◽  
High Fat Diet ◽  
Taste Receptor ◽  
High Fat ◽  
Inflammatory Gene Expression ◽  
Inflammatory Gene ◽  
Rat Offspring

Abstract 6260: Up-Regulated Expression of MicroRNA-143 in Association with Obesity in the Adipose Tissue of Mice Fed High Fat Diet

Circulation ◽  
2008 ◽  
Vol 118 (suppl_18) ◽  
Author(s):  
Rieko Takanabe ◽  
Koh Ono ◽  
Tomohide Takaya ◽  
Takahiro Horie ◽  
Hiromichi Wada ◽  
...  
Keyword(s):  
Gene Expression ◽  
Insulin Resistance ◽  
Body Weight ◽  
Adipose Tissue ◽  
High Fat Diet ◽  
Control Cell ◽  
High Fat ◽  
Expression Levels ◽  
Mesenteric Fat ◽  
Regulated Expression

Obesity is the result of an expansion and increase in the number of individual adipocytes. Since changes in gene expression during adipocyte differentiation and hypertrophy are closely associated with insulin resistance and cardiovascular diseases, further insight into the molecular basis of obesity is needed to better understand obesity-associated diseases. MicroRNAs (miRNAs) are approximately 17–24nt single stranded RNA, that post-transcriptionally regulate gene expression. MiRNAs control cell growth, differentiation and metabolism, and may be also involved in pathogenesis and pathophysiology of diseases. It has been proposed that miR-143 plays a role in the differentiation of preadipocytes into mature adipocytes in culture. However, regulated expression of miR-143 in the adult adipose tissue during the development of obesity in vivo is unknown. To solve this problem, C57BL/6 mice were fed with either high-fat diet (HFD) or normal chow (NC). Eight weeks later, severe insulin resistance was observed in mice on HFD. Body weight increased by 35% and the mesenteric fat weight increased by 3.3-fold in HFD mice compared with NC mice. We measured expression levels of miR-143 in the mesenteric fat tissue by real-time PCR and normalized with those of 5S ribosomal RNA. Expression of miR-143 in the mesenteric fat was significantly up-regulated (3.3-fold, p<0.05) in HFD mice compared to NC mice. MiR-143 expression levels were positively correlated with body weight (R=0.577, p=0.0011) and the mesenteric fat weight (R=0.608, p=0.0005). We also measured expression levels in the mesenteric fat of PPARγ and AP2, whose expression are deeply involved in the development of obesity, insulin resistant and arteriosclerosis. The expression levels of miR-143 were closely correlated with those of PPARγ (R=0.600, p=0.0040) and AP2 (R=0.630, p=0.0022). These findings provide the first evidence for up-regulated expression of miR-143 in the mesenteric fat of HFD-induced obese mice, which might contribute to regulated expression of genes involved in the pathophysiology of obesity.

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