LAT2转运体的消融导致肌肉内谷氨酰胺积累并抑制禁食诱导的蛋白水解。

Ablation of LAT2 Transporter Causes Intramuscular Glutamine Accumulation and Inhibition of Fasting-Induced Proteolysis.

作者信息

Espino-Guarch Meritxell, Huang Susie Shih Yin, Vilches Clara, Prat Esther, El Nahas Rana, Missous Ghalia, Bodoy Susanna, Sathappan Abbirami, Al-Aghbar Mohammad Ameen, Mayayo Clara, Olivé Montse, Busquets-Rius Silvia, Sebastián David, Zorzano Antonio, Palacin Manuel, van Panhuys Nicholas, Nunes Virginia

机构信息

Laboratory of Immunoregulation, Research Department, Sidra Medicine, Doha, Qatar.

Washington University School of Medicine, St. Louis, USA.

出版信息

J Cachexia Sarcopenia Muscle. 2025 Jun;16(3):e13847. doi: 10.1002/jcsm.13847.

DOI:10.1002/jcsm.13847

PMID:40546137

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12183528/

Abstract

BACKGROUND

The neutral amino acid transporter SLC7A8 (LAT2) has been described as a key regulator of metabolic adaptation. LAT2 mutations in human populations have been linked to the early onset of age-related hearing loss and cataract growth. As LAT2 was previously found to be highly expressed in skeletal muscle, here we characterised its role in the regulation of skeletal muscle amino acid flux and metabolic adaptation to fasting.

METHODS

Wild-type (WT) and LAT2 knock-out (LAT2KO) mice were exposed to short- and long-periods of fasting (16 and 48 h). The impact of the absence of LAT2 on amino acid content, gene expression, proteolysis activity, muscle tone, and histology was measured. To characterise the impact on muscle degradation, we tested LAT2 KO mice in cancer-associated cachexia, streptozocin-induced Type-1 diabetes, and ageing models.

RESULTS

LAT2KO mice experienced a notable reduction in body weight during fasting (WT:14% and LAT2KO:18%, p = 0.02), with a greater reduction in fat mass (0.5-fold, p = 0.013) and a higher relative retention of muscle mass (1.3-fold, p = 0.0003) compared with WT. The absence of LAT2 led to increased intramuscular glutamine (Gln) accumulation (6.3-fold, p < 0.0001), accompanied by a reduction in skeletal muscle proteolysis during fasting (0.61-fold, p = 0.0004) primarily due to decreased proteasomal and autophagic activity (0.45-fold, p = 0.016 and 0.7-fold, p = 0.002, respectively). Ex vivo incubation of LAT2KO muscle with rapamycin recovered proteolysis function, demonstrating a mTORC1-dependent pathway. Decreased proteolysis in LAT2KO animals was associated with increased mTORC1 translocation to the lysosome (mTORC1-Lamp1 colocalization in fasted LAT2KO muscles was 1.23-fold, p < 0.0001). Of the three muscle loss models tested, differences were observed only during ageing. Young LAT2KO mice (3 M) exhibited muscle tone and MurF1 expression levels comparable to those of older WT mice (12 M) (0.44-fold, p = 0.02 and 0.48-fold, p = 0.04, respectively).

CONCLUSION

LAT2 has a critical role in regulating Gln efflux from skeletal muscle. The absence of LAT2 led to elevated intracellular Gln levels, impairing muscle proteolysis by inducing mTORC1 recruitment to the lysosome. Further, chronic Gln accumulation and decreased proteolysis were found to induce the early onset of an age-related muscle phenotype.

摘要

背景

中性氨基酸转运体SLC7A8（LAT2）被认为是代谢适应的关键调节因子。人群中的LAT2突变与年龄相关性听力损失和白内障的早期发生有关。由于之前发现LAT2在骨骼肌中高表达，因此我们在此研究了其在调节骨骼肌氨基酸通量和禁食代谢适应中的作用。

方法

将野生型（WT）和LAT2基因敲除（LAT2KO）小鼠暴露于短期和长期禁食（16小时和48小时）。测量LAT2缺失对氨基酸含量、基因表达、蛋白水解活性、肌张力和组织学的影响。为了确定对肌肉降解的影响，我们在癌症相关性恶病质、链脲佐菌素诱导的1型糖尿病和衰老模型中对LAT2基因敲除小鼠进行了测试。

结果

LAT2基因敲除小鼠在禁食期间体重显著下降（野生型：14%，LAT2基因敲除型：18%，p = 0.02），与野生型相比，脂肪量下降幅度更大（0.5倍，p = 0.013），肌肉量的相对保留率更高（1.3倍，p = 0.0003）。LAT2的缺失导致肌肉内谷氨酰胺（Gln）积累增加（6.3倍，p < 0.0001），同时禁食期间骨骼肌蛋白水解减少（0.61倍，p = 0.0004），这主要是由于蛋白酶体和自噬活性降低（分别为0.45倍，p = 0.016和0.7倍，p = 0.002）。用雷帕霉素对LAT2基因敲除小鼠的肌肉进行体外孵育可恢复蛋白水解功能，表明这是一条mTORC1依赖性途径。LAT2基因敲除动物中蛋白水解减少与mTORC1向溶酶体的转位增加有关（禁食的LAT2基因敲除小鼠中mTORC1-Lamp1共定位为1.23倍，p < 0.0001）。在所测试的三种肌肉损失模型中，仅在衰老过程中观察到差异。年轻的LAT2基因敲除小鼠（3月龄）的肌张力和MurF1表达水平与老年野生型小鼠（12月龄）相当（分别为0.44倍，p = 0.02和0.48倍，p = 0.04）。