White Rocio B, Wild Angela R, O'Leary Timothy P, Thompson Andrew J, Flibotte Stephane, Peng Angie, Rogalski Jason C, Mair Mila, Derhami Neeki, Bamji Shernaz X
Department of Cellular and Physiological Sciences, Life Sciences Institute and Djavad Mowafaghian Centre for Brain Health, University of British Columbia, Vancouver, British Columbia, Canada.
Life Sciences Institute Bioinformatics Facility, University of British Columbia, Vancouver, British Columbia, Canada.
Glia. 2025 Jul;73(7):1452-1466. doi: 10.1002/glia.70016. Epub 2025 Mar 19.
Two percent of patients with X-linked intellectual disability (XLID) exhibit loss-of-function mutations in the enzyme, ZDHHC9. One of the main anatomical deficits observed in these patients is a decrease in corpus callosum volume and a concurrent disruption in white matter integrity. In this study, we demonstrate that deletion of Zdhhc9 in mice disrupts the balance of mature oligodendrocyte subtypes within the corpus callosum. While overall mature oligodendrocyte numbers are unchanged, there is a marked increase in MOL5/6 cells that are enriched in genes associated with cell adhesion and synapses, and a concomitant decrease in MOL2/3 cells that are enriched in genes associated with myelination. In line with this, we observed a decrease in the density of myelinated axons and disruptions in myelin compaction in the corpus callosum of Zdhhc9 knockout mice. RNA sequencing and proteomic analysis further revealed a reduction in genes and proteins essential for lipid metabolism, cholesterol synthesis, gene expression, and myelin compaction, offering insights into the underlying mechanisms of the pathology. These findings reveal a previously underappreciated and fundamental role for ZDHHC9 and protein palmitoylation in regulating oligodendrocyte subtype determination and myelinogenesis, offering mechanistic insights into the deficits observed in white matter volume in patients with mutations in ZDHHC9.
2%的X连锁智力障碍(XLID)患者在酶ZDHHC9中表现出功能丧失突变。在这些患者中观察到的主要解剖学缺陷之一是胼胝体体积减小以及白质完整性同时受到破坏。在本研究中,我们证明在小鼠中删除Zdhhc9会破坏胼胝体内成熟少突胶质细胞亚型的平衡。虽然成熟少突胶质细胞的总体数量没有变化,但富含与细胞粘附和突触相关基因的MOL5/6细胞显著增加,而富含与髓鞘形成相关基因的MOL2/3细胞则相应减少。与此一致,我们在Zdhhc9基因敲除小鼠的胼胝体中观察到有髓轴突密度降低以及髓鞘致密化受到破坏。RNA测序和蛋白质组学分析进一步揭示了脂质代谢、胆固醇合成、基因表达和髓鞘致密化所必需的基因和蛋白质减少,从而为该病理学的潜在机制提供了见解。这些发现揭示了ZDHHC9和蛋白质棕榈酰化在调节少突胶质细胞亚型确定和髓鞘形成中以前未被充分认识的重要作用,为ZDHHC9突变患者白质体积缺陷的观察结果提供了机制性见解。
