饮食限制通过调节瘦素和抑制T细胞mTORC1预防实验性脑型疟疾。

Dietary restriction protects against experimental cerebral malaria via leptin modulation and T-cell mTORC1 suppression.

作者信息

Mejia Pedro, Treviño-Villarreal J Humberto, Hine Christopher, Harputlugil Eylul, Lang Samantha, Calay Ediz, Rogers Rick, Wirth Dyann, Duraisingh Manoj T, Mitchell James R

机构信息

Department of Genetics and Complex Diseases, Harvard School of Public Health, 655 Huntington Avenue, Boston, MA 02115 USA.

Department of Environmental Health, Harvard School of Public Health, 655 Huntington Avenue, Boston, MA 02115 USA.

出版信息

Nat Commun. 2015 Jan 30;6:6050. doi: 10.1038/ncomms7050.

DOI:10.1038/ncomms7050

PMID:25636003

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4313624/

Abstract

Host nutrition can affect the outcome of parasitic diseases through metabolic effects on host immunity and/or the parasite. Here we show that modulation of mouse immunometabolism through brief restriction of food intake (dietary restriction, DR) prevents neuropathology in experimental cerebral malaria (ECM). While no effects are detected on parasite growth, DR reduces parasite accumulation in peripheral tissues including the brain, and increases clearance in the spleen. Leptin, a host-derived adipokine linking appetite, energy balance and immune function, is required for ECM pathology and its levels are reduced upon DR. Recombinant leptin abrogates DR benefits, while pharmacological or genetic inhibition of leptin signalling protects against ECM. DR reduces mTORC1 activity in T cells, and this effect is abrogated upon leptin administration. Furthermore, mTORC1 inhibition with rapamycin prevents ECM pathology. Our results suggest that leptin and mTORC1 provide a novel mechanistic link between nutrition, immunometabolism and ECM pathology, with potential therapeutic implications for cerebral malaria.

摘要

宿主营养可通过对宿主免疫和/或寄生虫的代谢作用影响寄生虫病的结局。在此我们表明，通过短暂限制食物摄入（饮食限制，DR）来调节小鼠免疫代谢可预防实验性脑型疟疾（ECM）中的神经病理学。虽然未检测到对寄生虫生长有影响，但DR减少了包括脑在内的外周组织中的寄生虫积累，并增加了脾脏中的清除率。瘦素是一种源自宿主的脂肪因子，它将食欲、能量平衡和免疫功能联系起来，是ECM病理学所必需的，并且其水平在DR时会降低。重组瘦素消除了DR的益处，而对瘦素信号的药理学或基因抑制则可预防ECM。DR降低了T细胞中的mTORC1活性，而给予瘦素后这种作用被消除。此外，用雷帕霉素抑制mTORC1可预防ECM病理学。我们的结果表明，瘦素和mTORC1在营养、免疫代谢和ECM病理学之间提供了一种新的机制联系，对脑型疟疾具有潜在的治疗意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/80e3/4313624/54eb24743ecc/nihms-647388-f0001.jpg

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Rapamycin-mediated lifespan increase in mice is dose and sex dependent and metabolically distinct from dietary restriction.雷帕霉素介导的小鼠寿命延长具有剂量和性别依赖性，且在代谢方面与饮食限制不同。

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饮食限制通过调节瘦素和抑制T细胞mTORC1预防实验性脑型疟疾。

Dietary restriction protects against experimental cerebral malaria via leptin modulation and T-cell mTORC1 suppression.

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