UNC Cancer Cell Biology Training Program, University of North Carolina, Chapel Hill, NC, 27599, USA.
Department of Neurology, UNC School of Medicine, University of North Carolina, Chapel Hill, NC, 27599, USA.
Cell Death Dis. 2021 Dec 6;12(12):1133. doi: 10.1038/s41419-021-04422-z.
Neurologic disorders often disproportionately affect specific brain regions, and different apoptotic mechanisms may contribute to white matter pathology in leukodystrophies or gray matter pathology in poliodystrophies. We previously showed that neural progenitors that generate cerebellar gray matter depend on the anti-apoptotic protein BCL-xL. Conditional deletion of Bcl-xL in these progenitors produces spontaneous apoptosis and cerebellar hypoplasia, while similar conditional deletion of Mcl-1 produces no phenotype. Here we show that, in contrast, postnatal oligodendrocytes depend on MCL-1. We found that brain-wide Mcl-1 deletion caused apoptosis specifically in mature oligodendrocytes while sparing astrocytes and oligodendrocyte precursors, resulting in impaired myelination and progressive white matter degeneration. Disabling apoptosis through co-deletion of Bax or Bak rescued white matter degeneration, implicating the intrinsic apoptotic pathway in Mcl-1-dependence. Bax and Bak co-deletions rescued different aspects of the Mcl-1-deleted phenotype, demonstrating their discrete roles in white matter stability. MCL-1 protein abundance was reduced in eif2b5-mutant mouse model of the leukodystrophy vanishing white matter disease (VWMD), suggesting the potential for MCL-1 deficiency to contribute to clinical neurologic disease. Our data show that oligodendrocytes require MCL-1 to suppress apoptosis, implicate MCL-1 deficiency in white matter pathology, and suggest apoptosis inhibition as a leukodystrophy therapy.
神经紊乱通常会不成比例地影响特定的大脑区域,不同的凋亡机制可能导致脑白质病变(如白质营养不良)或灰质病变(如脑桥小脑萎缩症)。我们之前曾表明,生成小脑灰质的神经前体细胞依赖于抗凋亡蛋白 BCL-xL。在这些前体细胞中条件性缺失 Bcl-xL 会导致自发的凋亡和小脑发育不全,而类似的 Mcl-1 条件性缺失则不会产生表型。在这里,我们发现,相反,少突胶质细胞在出生后依赖于 MCL-1。我们发现,脑内广泛的 Mcl-1 缺失会导致成熟的少突胶质细胞特异性凋亡,而星形胶质细胞和少突胶质前体细胞不受影响,导致髓鞘形成受损和进行性白质变性。通过 Bax 或 Bak 的共缺失来抑制凋亡可以挽救白质变性,表明内在凋亡途径在 Mcl-1 依赖性中起作用。Bax 和 Bak 的共缺失挽救了 Mcl-1 缺失表型的不同方面,证明了它们在白质稳定性中的不同作用。在白质营养不良性脑桥小脑萎缩症(VWMD)的 eif2b5 突变小鼠模型中,MCL-1 蛋白丰度降低,这表明 MCL-1 缺乏可能导致临床神经疾病。我们的数据表明,少突胶质细胞需要 MCL-1 来抑制凋亡,提示 MCL-1 缺乏与白质病变有关,并暗示抑制凋亡可能成为白质营养不良症的治疗方法。
