Peroxisome dynamics during HSV-1 life cycle in human neurons
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HSV-1 is increasingly implicated in Alzheimer’s disease, yet the mechanisms by which it reshapes neuronal metabolism remain incompletely understood. Here, we demonstrate that HSV-1 co-opts peroxisomal biogenesis and lipid metabolic pathways to promote its replication across human neuronal models. In SH-SY5Y cells, infection triggers a marked expansion of the peroxisomal compartment and alters organelle morphology through upregulation of PGC-1α and PEX13/14/19. Pharmacological stimulation of peroxisome proliferation enhances viral production, whereas inhibition of PEX3–PEX19-dependent biogenesis almost completely suppresses infection. Lipidomic profiling reveals a selective increase in peroxisome-derived plasmalogens and sphingolipids, supporting a role for peroxisomes as a metabolic hub for viral envelopment. This remodeling is recapitulated in hiPSC-derived neurons and human brain organoids, where it is strictly dependent on productive replication and re-emerges upon viral reactivation, but not during latency. Collectively, these findings identify peroxisomes as essential replication-permissive organelles exploited by HSV-1 and suggest that recurrent virus-driven peroxisomal and ether-lipid reprogramming may contribute to neuronal vulnerability in neurodegenerative disease.