Interfaculty Institute of Biochemistry, University of Tübingen, 72076, Tübingen, Germany.
Department of Cellular Biochemistry, University Medical Center Göttingen, 37073, Göttingen, Germany.
J Mol Med (Berl). 2019 Feb;97(2):269-279. doi: 10.1007/s00109-018-1728-4. Epub 2019 Jan 3.
The yeast protein Taz1 is the orthologue of human Tafazzin, a phospholipid acyltransferase involved in cardiolipin (CL) remodeling via a monolyso CL (MLCL) intermediate. Mutations in Tafazzin lead to Barth syndrome (BTHS), a metabolic and neuromuscular disorder that primarily affects the heart, muscles, and immune system. Similar to observations in fibroblasts and platelets from patients with BTHS or from animal models, abolishing yeast Taz1 results in decreased total CL amounts, increased levels of MLCL, and mitochondrial dysfunction. However, the biochemical mechanisms underlying the mitochondrial dysfunction in BTHS remain unclear. To better understand the pathomechanism of BTHS, we searched for multi-copy suppressors of the taz1Δ growth defect in yeast cells. We identified the branched-chain amino acid transaminases (BCATs) Bat1 and Bat2 as such suppressors. Similarly, overexpression of the mitochondrial isoform BCAT2 in mammalian cells lacking TAZ improves their growth. Elevated levels of Bat1 or Bat2 did not restore the reduced membrane potential, altered stability of respiratory complexes, or the defective accumulation of MLCL species in yeast taz1Δ cells. Importantly, supplying yeast or mammalian cells lacking TAZ1 with certain amino acids restored their growth behavior. Hence, our findings suggest that the metabolism of amino acids has an important and disease-relevant role in cells lacking Taz1 function. KEY MESSAGES: Bat1 and Bat2 are multi-copy suppressors of retarded growth of taz1Δ yeast cells. Overexpression of Bat1/2 in taz1Δ cells does not rescue known mitochondrial defects. Supplementation of amino acids enhances growth of cells lacking Taz1 or Tafazzin. Altered metabolism of amino acids might be involved in the pathomechanism of BTSH.
酵母蛋白 Taz1 是人类 Tafazzin 的同源物,Tafazzin 是一种磷脂酰基转移酶,通过单酰基心磷脂 (MLCL) 中间产物参与心磷脂 (CL) 重塑。Tafazzin 突变导致 Barth 综合征 (BTHS),这是一种主要影响心脏、肌肉和免疫系统的代谢和神经肌肉疾病。类似于在 BTHS 患者的成纤维细胞和血小板或动物模型中观察到的情况,敲除酵母 Taz1 会导致总 CL 量减少、MLCL 水平升高和线粒体功能障碍。然而,BTHS 中线粒体功能障碍的生化机制仍不清楚。为了更好地理解 BTHS 的发病机制,我们在酵母细胞中寻找 Taz1Δ 生长缺陷的多拷贝抑制子。我们发现支链氨基酸转氨酶 (BCATs) Bat1 和 Bat2 是这种抑制子。同样,在缺乏 TAZ 的哺乳动物细胞中过表达线粒体同工型 BCAT2 可改善其生长。Bat1 或 Bat2 的水平升高并不能恢复降低的膜电位、呼吸复合物稳定性的改变或酵母 taz1Δ 细胞中 MLCL 物种的缺陷积累。重要的是,向缺乏 TAZ1 的酵母或哺乳动物细胞提供某些氨基酸可恢复其生长行为。因此,我们的发现表明,缺乏 Taz1 功能的细胞中氨基酸的代谢在疾病相关方面具有重要作用。关键信息:Bat1 和 Bat2 是 taz1Δ 酵母细胞生长迟缓的多拷贝抑制子。Bat1/2 在 taz1Δ 细胞中的过表达不能挽救已知的线粒体缺陷。氨基酸的补充增强了缺乏 Taz1 或 Tafazzin 的细胞的生长。氨基酸代谢的改变可能参与了 BTSH 的发病机制。
