Department of Functional Genomics, Major of Innovative Medical Science Research, Yamagata University School of Medicine/Research Center for Molecular Genetics, Institute for Promotion of Medical Science Research, Yamagata University Faculty of Medicine, Iida-Nishi 2-2-2 Yamagata, Yamagata, 990-9585, Japan.
Department of Orthopaedic Surgery, Yamagata University Faculty of Medicine, Yamagata, Japan.
Sci Rep. 2024 Sep 27;14(1):22147. doi: 10.1038/s41598-024-73049-9.
Heme serves as a prosthetic group in hemoproteins, including subunits of the mammalian mitochondrial electron transfer chain. The first enzyme in vertebrate heme biosynthesis, 5-aminolevulinic acid synthase 1 (ALAS1), is ubiquitously expressed and essential for producing 5-aminolevulinic acid (ALA). We previously showed that Alas1 heterozygous mice at 20-35 weeks (aged-A1s) manifested impaired glucose metabolism, mitochondrial malformation in skeletal muscle, and reduced exercise tolerance, potentially linked to autophagy dysfunction. In this study, we investigated autophagy in A1s and a sarcopenic phenotype in A1s at 75-95 weeks (senile-A1s). Senile-A1s exhibited significantly reduced body and gastrocnemius muscle weight, and muscle strength, indicating an accelerated sarcopenic phenotype. Decreases in total LC3 and LC3-II protein and Map1lc3a mRNA levels were observed in aged-A1s under fasting conditions and in Alas1 knockdown myocyte-differentiated C2C12 cells (A1KD-C2C12s) cultured in high- or low-glucose medium. ALA treatment largely reversed these declines. Reduced AMP-activated protein kinase (AMPK) signaling was associated with decreased autophagy in aged-A1s and A1KD-C2C12s. AMPK modulation using AICAR (activator) and dorsomorphin (inhibitor) affected LC3 protein levels in an AMPK-dependent manner. Our findings suggest that heme deficiency contributes to accelerated sarcopenia-like defects and reduced autophagy in skeletal muscle, primarily due to decreased AMPK signaling.
亚铁血红素作为血红素蛋白的辅基,包括哺乳动物线粒体电子传递链的亚基。脊椎动物血红素生物合成的第一个酶,5-氨基酮戊酸合酶 1(ALAS1),广泛表达,对于产生 5-氨基酮戊酸(ALA)是必不可少的。我们之前表明,杂合 Alas1 小鼠在 20-35 周龄(年龄 A1s)表现出葡萄糖代谢受损、骨骼肌中线粒体畸形和运动耐量降低,可能与自噬功能障碍有关。在这项研究中,我们研究了 A1s 中的自噬和 75-95 周龄(老年 A1s)中的肌肉减少症表型。老年 A1s 表现出明显的体重和比目鱼肌重量减轻,以及肌肉力量下降,表明加速的肌肉减少症表型。在禁食条件下和在高糖或低糖培养基中培养的 Alas1 敲低肌细胞分化的 C2C12 细胞(A1KD-C2C12s)中,观察到总 LC3 和 LC3-II 蛋白以及 Map1lc3a mRNA 水平的显著降低。在老龄 A1s 和 A1KD-C2C12s 中,自噬减少与 AMP 激活的蛋白激酶(AMPK)信号降低有关。使用 AICAR(激活剂)和 Dorsomorphin(抑制剂)调节 AMPK 会以 AMPK 依赖性方式影响 LC3 蛋白水平。我们的研究结果表明,血红素缺乏导致骨骼肌中加速的类肌肉减少症缺陷和自噬减少,主要是由于 AMPK 信号降低。
