Department of Biology, Concordia University, Montreal H4B 1R6, Canada.
Department of Anatomy and Cell Biology, McGill University, Montreal H3A 0C7, Canada.
Dis Model Mech. 2024 Jun 1;17(6). doi: 10.1242/dmm.050662. Epub 2024 Jun 5.
TANGO2 deficiency disease (TDD) is a rare genetic disorder estimated to affect ∼8000 individuals worldwide. It causes neurodegeneration often accompanied by potentially lethal metabolic crises that are triggered by diet or illness. Recent work has demonstrated distinct lipid imbalances in multiple model systems either depleted for or devoid of the TANGO2 protein, including human cells, fruit flies and zebrafish. Importantly, vitamin B5 supplementation has been shown to rescue TANGO2 deficiency-associated defects in flies and human cells. The notion that vitamin B5 is needed for synthesis of the lipid precursor coenzyme A (CoA) corroborates the hypothesis that key aspects of TDD pathology may be caused by lipid imbalance. A natural history study of 73 individuals with TDD reported that either multivitamin or vitamin B complex supplementation prevented the metabolic crises, suggesting this as a potentially life-saving treatment. Although recently published work supports this notion, much remains unknown about TANGO2 function, the pathological mechanism of TDD and the possible downsides of sustained vitamin supplementation in children and young adults. In this Perspective, we discuss these recent findings and highlight areas for immediate scientific attention.
TANGO2 缺陷病(TDD)是一种罕见的遗传疾病,据估计,全球约有 8000 人受到影响。它会导致神经退行性变,通常伴有潜在致命的代谢危机,这些危机可由饮食或疾病引发。最近的研究表明,在缺乏或不存在 TANGO2 蛋白的多种模型系统中,包括人类细胞、果蝇和斑马鱼,都存在明显的脂质失衡。重要的是,维生素 B5 的补充已被证明可以挽救果蝇和人类细胞中与 TANGO2 缺乏相关的缺陷。维生素 B5 是合成脂质前体辅酶 A(CoA)所必需的这一观点,证实了 TDD 病理学的关键方面可能是由脂质失衡引起的假设。一项对 73 名 TDD 患者的自然病史研究报告称,多种维生素或复合维生素 B 的补充可预防代谢危机,这表明这是一种潜在的救生治疗方法。尽管最近发表的研究支持这一观点,但 TANGO2 功能、TDD 的病理机制以及在儿童和年轻人中持续进行维生素补充的可能负面影响,仍有许多未知之处。在这篇观点文章中,我们讨论了这些最新发现,并强调了需要立即关注的科学领域。
