MELK Downregulation in NPCs Disrupts Cortical Neurogenesis via G2/M Dysregulation: Autism Implications

  1. Liyang Zhao
  2. Xianjing Li
  3. Kang Yang
  4. Miaomiao Jiang
  5. Zhonghe Chen
  6. Yiqian Shao
  7. Tianlan Lu
  8. Dai Zhang
  9. Lifang Wang
  10. Jun Li
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Abstract

Maternal Embryonic Leucine Zipper Kinase (MELK) regulates cell cycle progression, but its role in neurodevelopmental disorders is unclear. We identified loss-of-function MELK variants in autism spectrum disorder (ASD) patients, suggesting MELK haploinsufficiency contributes to ASD pathogenesis. Single-cell analysis revealed preferential MELK expression in proliferating neural progenitors during neurodevelopment, correlating with the expression of G2/M-phase regulators. In vivo MELK knockdown induced neuronal mislocalization and premature cell cycle exit without concomitant differentiation. Additionally, MELK deficiency impaired neuronal polarity transition. Our findings establish MELK as a critical regulator of G2/M progression and neuronal maturation during cortical neurogenesis, providing mechanistic insights into ASD etiology.

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  1. Version published to 10.21203/rs.3.rs-7569882/v1 on Research Square