Your search keyword '"Ye, Yuanchao"' showing total 9 results

1. Toll-like receptor 4 and myeloid differentiation factor 88 are required for gastric bypass-induced metabolic effects

Author

Abu El Haija, Marwa, Ye, Yuanchao, Chu, Yi, Herz, Hussein, Linden, Benjamin, Shahi, Shailesh K, Zarei, Kasra, Mangalam, Ashutosh K, Mcelroy, Steven J, and Mokadem, Mohamad

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Digestive Diseases, Obesity, Genetics, Nutrition, 2.1 Biological and endogenous factors, Aetiology, Oral and gastrointestinal, Inflammatory and immune system, Animals, Gastric Bypass, Gastrointestinal Microbiome, Mice, Myeloid Differentiation Factor 88, Toll-Like Receptor 4, TLR4, MyD88, Gastric bypass, Metabolic regulation, Gut microbiome, Public Health and Health Services, Surgery, Clinical sciences, Public health

Abstract

BackgroundToll-like receptor 4 (TLR4) has been suggested as one of the forefront cross-communicators between the intestinal bacteria and the host to regulate inflammatory signals and energy homeostasis. High-fat diet-induced inflammation is mediated by changes in gut microbiota and requires a functional TLR-4, the deficiency of which renders mice resistant to diet-induced obesity and its associated metabolic dysfunction. Furthermore, gut microbiota was suggested to play a key role in the beneficial effects of Roux-en-Y gastric bypass (RYGB), a commonly performed bariatric procedure.ObjectivesTo explore whether TLR4, myeloid differentiation factor 8 (MyD88; 1 of its key downstream signaling regulators) and gut microbiota play an integrative role in RYGB-induced metabolic outcomes.SettingAnimal- based study.MethodWe performed RYGB in TLR4 and MyD88 knock-out (KO) mice and used fecal microbiota transplant (FMT) from RYGB-operated animals to these genetic mouse models to address our questions.ResultsWe demonstrate that RYGB reduces TLR4 expression explicitly in the small and large intestine of C57Blc/6J mice. We also show that TLR4 KO mice have an attenuated glucoregulatory response to RYGB. In addition, we reveal that MyD88 KO mice fail to respond to all RYGB-induced metabolic effects. Finally, fecal microbiota transplant from RYGB-operated mice into TLR4 KO and MyD88 KO naïve recipients fails to induce a metabolic phenotype similar to that of the donors, as it does in wild-type recipients.ConclusionTLR4 and MyD88 are required for RYGB-induced metabolic response that is likely mediated by gut microbiome.

Published

2021

2. The effect of gender and obesity in modulating cross-bridge function in cardiac muscle fibers

Author

Xi, Jing, Ye, Yuanchao, Mokadem, Mohamad, Yuan, Jinxiang, and Kawai, Masataka

Published

2022

3. Gastric Bypass reprograms hepatic clock machinery and improves glucose flux independent of weight

Author

Mokadem, Mohamad, primary, Ye, Yuanchao, additional, Abu El Haija, Marwa, additional, Herz, Hussein, additional, Linden, Benjamin, additional, and Chu, Yi, additional

Published

2023

4. Gastric bypass alters diurnal feeding behavior and reprograms hepatic clock to regulate endogenous glucose flux

Author

Ye, Yuanchao, primary, Abu El Haija, Marwa, additional, Obeid, Reine, additional, Herz, Hussein, additional, Tian, Liping, additional, Linden, Benjamin, additional, Chu, Yi, additional, Guo, Deng Fu, additional, Levine, Daniel C., additional, Cedernaes, Jonathan, additional, Rahmouni, Kamal, additional, Bass, Joseph, additional, and Mokadem, Mohamad, additional

Published

2023

5. 152-OR: Evidence Linking Loss of Hypothalamic Perineuronal Nets to Obesity Pathogenesis

Author

ALONGE, KIMBERLY M., primary, DORFMAN, MAURICIO D., additional, SCARLETT, JARRAD M., additional, MELHORN, SUSAN J., additional, YE, YUANCHAO, additional, HU, SHANNON J.W., additional, FRANCIS, KENDRA L., additional, HENDRICKSON, AARUN, additional, CUI, KATHERINE, additional, MORTON, GREGORY J., additional, SCHUR, ELLEN, additional, THALER, JOSHUA, additional, and SCHWARTZ, MICHAEL W., additional

Published

2022

6. Blocking Gi/o-Coupled Signaling Eradicates Cancer Stem Cells and Sensitizes Breast Tumors to HER2-Targeted Therapies to Inhibit Tumor Relapse

Author

Lyu, Cancan, primary, Ye, Yuanchao, additional, Weigel, Ronald J., additional, and Chen, Songhai, additional

Published

2022

7. NSAID-Induced Enteropathy Affects Regulation of Hepatic Glucose Production by Decreasing GLP-1 Secretion

Author

Herz, Hussein, primary, Song, Yang, additional, Ye, Yuanchao, additional, Tian, Liping, additional, Linden, Benjamin, additional, Abu El Haija, Marwa, additional, Chu, Yi, additional, Grobe, Justin L., additional, Lengeling, Randall W., additional, and Mokadem, Mohamad, additional

Published

2021

8. NSAID-Induced Enteropathy Affects Regulation of Hepatic Glucose Production by Decreasing GLP-1 Secretion.

Author

Herz, Hussein, Song, Yang, Ye, Yuanchao, Tian, Liping, Linden, Benjamin, Abu El Haija, Marwa, Chu, Yi, Grobe, Justin L., Lengeling, Randall W., and Mokadem, Mohamad

Abstract

Background/Aim: Given their widespread use and their notorious effects on the lining of gut cells, including the enteroendocrine cells, we explored if chronic exposure to non-steroidal anti-inflammatory drugs (NSAIDs) affects metabolic balance in a mouse model of NSAID-induced enteropathy. Method: We administered variable NSAIDs to C57Blk/6J mice through intragastric gavage and measured their energy balance, glucose hemostasis, and GLP-1 levels. We treated them with Exendin-9 and Exendin-4 and ran a euglycemic-hyperinsulinemic clamp. Results: Chronic administration of multiple NSAIDs to C57Blk/6J mice induces ileal ulcerations and weight loss in animals consuming a high-fat diet. Despite losing weight, NSAID-treated mice exhibit no improvement in their glucose tolerance. Furthermore, glucose-stimulated (glucagon-like peptide -1) GLP-1 is significantly attenuated in the NSAID-treated groups. In addition, Exendin-9—a GLP-1 receptor antagonist—worsens glucose tolerance in the control group but not in the NSAID-treated group. Finally, the hyper-insulinemic euglycemic clamp study shows that endogenous glucose production, total glucose disposal, and their associated insulin levels were similar among an ibuprofen-treated group and its control. Exendin-4, a GLP-1 receptor agonist, reduces insulin levels in the ibuprofen group compared to their controls for the same glucose exchange rates. Conclusions: Chronic NSAID use can induce small intestinal ulcerations, which can affect intestinal GLP-1 production, hepatic insulin sensitivity, and consequently, hepatic glucose production. [ABSTRACT FROM AUTHOR]

Published

2022

9. Gastric bypass alters diurnal feeding behavior and reprograms the hepatic clock to regulate endogenous glucose flux.

Author

Ye Y, Abu El Haija M, Obeid R, Herz H, Tian L, Linden B, Chu Y, Guo DF, Levine DC, Cedernaes J, Rahmouni K, Bass J, and Mokadem M

Subjects

Mice, Animals, Glucose metabolism, Blood Glucose metabolism, Feeding Behavior, Liver metabolism, Gastric Bypass methods, Insulin Resistance physiology

Abstract

The molecular clock machinery regulates several homeostatic rhythms, including glucose metabolism. We previously demonstrated that Roux-en-Y gastric bypass (RYGB) has a weight-independent effect on glucose homeostasis and transiently reduces food intake. In this study we investigate the effects of RYGB on diurnal eating behavior as well as on the molecular clock and this clock's requirement for the metabolic effects of this bariatric procedure in obese mice. We find that RYGB reversed the high-fat diet-induced disruption in diurnal eating pattern during the early postsurgery phase of food reduction. Dark-cycle pair-feeding experiments improved glucose tolerance to the level of bypass-operated animals during the physiologic fasting phase (Zeitgeber time 2, ZT2) but not the feeding phase (ZT14). Using a clock gene reporter mouse model (mPer2Luc), we reveal that RYGB induced a liver-specific phase shift in peripheral clock oscillation with no changes to the central clock activity within the suprachiasmatic nucleus. In addition, we show that weight loss effects were attenuated in obese ClockΔ19 mutant mice after RYGB that also failed to improve glucose metabolism after surgery, specifically hepatic glucose production. We conclude that RYGB reprograms the peripheral clock within the liver early after surgery to alter diurnal eating behavior and regulate hepatic glucose flux.

Published

2023