必需氨基酸摄入会改变与人体骨骼肌中氨基酸感知、转运及mTORC1调节相关的基因表达。
Essential amino acid ingestion alters expression of genes associated with amino acid sensing, transport, and mTORC1 regulation in human skeletal muscle.
作者信息
Graber Ted G, Borack Michael S, Reidy Paul T, Volpi Elena, Rasmussen Blake B
机构信息
Division of Rehabilitation Sciences, University of Texas Medical Branch, 301 University Blvd, Galveston, TX 77555-1124 USA.
Present Address: Department of Physical Therapy, University of Utah, Salt Lake City, Utah USA.
出版信息
Nutr Metab (Lond). 2017 May 11;14:35. doi: 10.1186/s12986-017-0187-1. eCollection 2017.
BACKGROUND
Amino acid availability stimulates protein synthesis via the mTORC1 (mechanistic target of rapamycin complex 1) signaling pathway. In response to an increase in cellular amino acid availability, translocation of cytosolic mTORC1 to the lysosomal surface is required to stimulate mTORC1 kinase activity. However, research elucidating the amino acid responsive mechanisms have thus far only been conducted in in vitro models. Our primary objective was to determine whether an increase in amino acid availability within human skeletal muscle in vivo would alter the expression of genes associated with amino acid sensing, transport and mTORC1 regulation. Our secondary objective was to determine whether an acute perturbation in lysosomal function would disrupt the normal pattern of muscle amino acid responsive gene expression.
METHODS
We recruited 13 young adults into one of two groups: The first group ingested 10 g of essential amino acids (EAA). The second group ingested 10 g of EAA in the presence of chloroquine (CQ), a lysosomotropic agent. The subjects from each group had biopsies of the taken before and after EAA ingestion. We determined the relative mRNA expression of 51 potential amino acid responsive genes using RT-qPCR.
RESULTS
There was a differential mRNA expression for 22 genes, with 15 mRNAs significantly changing ( < 0.05) in response to EAA ingestion (e.g., REDD1: +209 ± 35%; SLC38A9: +31 ± 9%; SLC38A10: +57 ± 15%). In the CQ group, EAA ingestion resulted in a differential expression as compared to EAA alone (i.e., 11 out of the 22 genes were different ( < 0.05) between the two groups.).
CONCLUSIONS
Expression of several amino acid sensing, transport, and mTORC1 regulatory genes in human skeletal muscle are responsive to an increase in amino acid availability. Furthermore, potential acute disruption of lysosomal function by ingestion of chloroquine interferes with the normal pattern of gene expression following feeding. Our in vivo data in humans provide preliminary support for the in vitro work linking amino acid sensing pathways to mTORC1 translocation to the lysosome.
TRIAL REGISTRATION
NCT00891696. Registered 29 April 2009.
背景
氨基酸可用性通过mTORC1(雷帕霉素机制性靶蛋白复合物1)信号通路刺激蛋白质合成。为响应细胞内氨基酸可用性的增加,胞质mTORC1向溶酶体表面的转位是刺激mTORC1激酶活性所必需的。然而,迄今为止,阐明氨基酸反应机制的研究仅在体外模型中进行。我们的主要目标是确定体内人类骨骼肌中氨基酸可用性的增加是否会改变与氨基酸感知、转运和mTORC1调节相关的基因表达。我们的次要目标是确定溶酶体功能的急性扰动是否会破坏肌肉氨基酸反应性基因表达的正常模式。
方法
我们招募了13名年轻成年人,将其分为两组:第一组摄入10克必需氨基酸(EAA)。第二组在存在溶酶体促渗剂氯喹(CQ)的情况下摄入10克EAA。每组受试者在摄入EAA之前和之后进行肌肉活检。我们使用RT-qPCR确定了51个潜在氨基酸反应性基因的相对mRNA表达。
结果
22个基因存在差异mRNA表达,其中15种mRNA对EAA摄入有显著变化(P<0.05)(例如,REDD1:+209±35%;SLC38A9:+31±9%;SLC38A10:+57±15%)。在CQ组中,与单独摄入EAA相比,EAA摄入导致了差异表达(即22个基因中的11个在两组之间存在差异(P<0.05))。
结论
人类骨骼肌中几种氨基酸感知、转运和mTORC1调节基因的表达对氨基酸可用性的增加有反应。此外,摄入氯喹对溶酶体功能的潜在急性破坏会干扰进食后基因表达的正常模式。我们在人类中的体内数据为将氨基酸感知途径与mTORC1向溶酶体转位联系起来的体外研究提供了初步支持。
试验注册
NCT00891696。2009年4月29日注册。
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