Molecular and cellular processes disrupted in the early postnatal Down syndrome prefrontal cortex
Summary
Down syndrome is a genetic condition that causes intellectual disability and is characterized by early-onset delays in motor, cognitive, and language development. The molecular mechanisms underlying these neurodevelopmental impairments remain poorly understood. We used single-nucleus multiomic sequencing to simultaneously profile gene expression and chromatin accessibility in the Down syndrome prefrontal cortex during early postnatal development, a critical period for synaptogenesis, neura
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# Molecular and cellular processes disrupted in the early postnatal Down syndrome prefrontal cortex
*Published: 2026 Apr 23*
Down syndrome is a genetic condition that causes intellectual disability and is
characterized by early-onset delays in motor, cognitive, and language
development. The molecular mechanisms underlying these neurodevelopmental
impairments remain poorly understood. We used single-nucleus multiomic
sequencing to simultaneously profile gene expression and chromatin accessibility
in the Down syndrome prefrontal cortex during early postnatal development, a
critical period for synaptogenesis, neural maturation, and developmental
neuroimmune interactions. Our findings reveal widespread dysregulation of
chromatin accessibility and gene expression, with deficits spanning metabolic
and synaptic pathways, oligodendrocyte lineage progression, and a pronounced
neuroinflammatory signature. We present a molecular atlas of Down syndrome
neuropathology at a critical stage of brain development, highlighting convergent
neurodevelopmental and neurodegenerative pathways and informing potential
targeted therapies for Down syndrome-associated neuroinflammation.
DOI: 10.1126/science.aea1549