MEG3 Enhances Survival of Developing Human Neurons with CLCN4 -Linked Autophagy Impairment

Genetic variations in CLCN4 , encoding the H ⁺ /Cl ^- exchanger CLC-4, are associated with human neurodevelopmental disorders with highly variable phenotypes. A lack of physiologically relevant models has hampered molecular understanding of pathogenic mechanisms. We now establish engineered brain organoid and neuronal cell systems to examine impacts of patient-relevant CLCN4 genetic variations. We find that CLCN4 variants reduced excitatory neuron numbers due to early-stage cell death, accompanied by altered endo-lysosomal dynamics and disrupted autophagic flux. Transcriptomic profiling showed significant downregulation of long non-coding RNA MEG3 in CLCN4 -variant neurons. Restoring MEG3 expression is sufficient to rescue cellular defects and improve survival of CLCN4 -variant neurons. These findings link CLCN4 dysfunction with impaired autophagy and neuronal cell death, highlighting MEG3 as a potential therapeutic target for neurodevelopmental disorders involving autophagic dysfunction.