Caveolae: a regulatory platform for nutritional modulation of inflammatory diseases.

Layne J; Majkova Z; Smart E. J; Toborek M; Hennig B.

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Caveolae: a regulatory platform for nutritional modulation of inflammatory diseases.

机译：小窝：用于调节炎症性疾病的调控平台。

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Dietary intervention strategies have proven to be an effective means of decreasing several risk factors associated with the development of atherosclerosis. Endothelial cell dysfunction influences vascular inflammation and is involved in promoting the earliest stages of lesion formation. Caveolae are lipid raft microdomains abundant within the plasma membrane of endothelial cells and are responsible for modulating receptor-mediated signal transduction, thus influencing endothelial activation. Caveolae have been implicated in the regulation of enzymes associated with several key signaling pathways capable of determining intracellular redox status. Diet and plasma-derived nutrients may modulate an inflammatory outcome by interacting with and altering caveolae-associated cellular signaling. For example, omega-3 fatty acids and several polyphenolics have been shown to improve endothelial cell function by decreasing the formation of ROS and increasing NO bioavailability, events associated with altered caveolae composition. Thus, nutritional modulation of caveolae-mediated signaling events may provide an opportunity to ameliorate inflammatory signaling pathways capable of promoting the formation of vascular diseases, including atherosclerosis

机译：饮食干预策略已被证明是减少与动脉粥样硬化发展相关的几种危险因素的有效手段。内皮细胞功能障碍影响血管炎症，并参与促进病变形成的最早阶段。小窝是内皮细胞质膜中丰富的脂质筏微区，负责调节受体介导的信号转导，从而影响内皮的活化。小窝蛋白已经参与了与几种能够确定细胞内氧化还原状态的关键信号通路相关的酶的调节。饮食和血浆来源的营养物质可通过与小窝相关的细胞信号传导相互作用并改变其而调节炎症结果。例如，已证明omega-3脂肪酸和几种多酚可通过减少ROS的形成和增加NO的生物利用度来改善内皮细胞的功能，这与海绵体组成的改变有关。因此，对小窝介导的信号转导事件的营养调节可能为改善能够促进包括动脉粥样硬化在内的血管疾病形成的炎性信号通路提供机会。

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《The Journal of Nutritional Biochemistry》 |2011年第9期|共5页
作者
Layne J; Majkova Z; Smart E. J; Toborek M; Hennig B.;
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原文格式 PDF
正文语种 eng
中图分类生物化学;
关键词
DIET; DISEASES; HUMAN PHYSIOLOGY; NUTRIENTS; REVIEWS; HUMAN METABOLISM; INFLAMMATION; Food sciences; Compositional and nutritional aspects;

机译：饮食;疾病;人类生理学;营养学;评论;人类代谢;炎症;食品科学;组成和营养学方面;

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专利

1. Caveolae: a regulatory platform for nutritional modulation of inflammatory diseases. [J] . Layne J, Majkova Z, Smart E. J, The Journal of Nutritional Biochemistry . 2011,第9期

机译：小窝：用于调节炎症性疾病的调控平台。
2. Therapy with anti-TNFalpha antibody enhances number and function of Foxp3(+) regulatory T cells in inflammatory bowel diseases. [J] . Boschetti G, Nancey S, Sardi F, Inflammatory bowel diseases . 2011,第1期

机译：抗TNFalpha抗体治疗可增强炎症性肠病中Foxp3（+）调节性T细胞的数量和功能。
3. Characterization of interleukin-17-producing regulatory T cells in inflamed intestinal mucosa from patients with inflammatory bowel diseases. [J] . Hovhannisyan Z, Treatman J, Littman DR, Gastroenterology . 2011,第3期

机译：炎症性肠病患者发炎的肠粘膜中产生白介素17的调节性T细胞的特征。
4. Discovery of neighborhood relationships and regulatory patterns between breast cancer and inflammatory genes based on human co-expressed regulatory network [C] . Yanyan Zhou, Wan Li, Lina Chen, International Conference on Natural Computation;International Conference on Fuzzy Systems and Knowledge Discovery . 2015

机译：基于人类共同表达的调控网络发现乳腺癌和炎症基因之间的邻里关系和调控模式
5. Iron and the intestinal microbiota in inflammatory bowel diseases. [D] . Ellermann, Melissa. 2015

机译：铁和肠道菌群在炎症性肠病中。
6. Caveolae: a regulatory platform for nutritional modulation of inflammatory diseases [O] . Joseph Layne, Zuzana Majkova, Eric J. Smart, -1

机译：小窝：炎症性疾病的营养调节监管平台
7. Caveolae: A regulatory platform for nutritional modulation of inflammatory diseases [O] . Joseph Layne, Zuzana Majkova, Eric J. Smart, 2011

机译：Caveolae：炎症疾病营养调节的监管平台

Caveolae: a regulatory platform for nutritional modulation of inflammatory diseases.

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