Upper cortical layer–driven network impairment in schizophrenia

Mykhailo Y. Batiuk(University of Copenhagen), Teadora Tyler(Semmelweis University), Katarina Dragičević(University of Copenhagen), Shenglin Mei(Harvard University), Rasmus Rydbirk(University of Copenhagen), Viktor Petukhov(University of Copenhagen), Ruslan Deviatiiarov(Kazan Federal University), Dora Sedmak(University of Zagreb), Erzsébet Frank(Semmelweis University), Virginia Feher(Semmelweis University), Nikola Habek(University of Zagreb), Qiwen Hu(Harvard University), Anna A. Igolkina(Harvard University), Lilla Roszik(Semmelweis University), Ulrich Pfisterer(University of Copenhagen), Diego García‐González(University of Copenhagen), Zdravko Petanjek(University of Zagreb), István Adorján(Semmelweis University), Peter V. Kharchenko(Harvard University), Konstantin Khodosevich(University of Copenhagen)
Science Advances
October 12, 2022
10.1126/sciadv.abn8367
Cited by 122Open Access
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Abstract

Schizophrenia is one of the most widespread and complex mental disorders. To characterize the impact of schizophrenia, we performed single-nucleus RNA sequencing (snRNA-seq) of >220,000 neurons from the dorsolateral prefrontal cortex of patients with schizophrenia and matched controls. In addition, >115,000 neurons were analyzed topographically by immunohistochemistry. Compositional analysis of snRNA-seq data revealed a reduction in abundance of GABAergic neurons and a concomitant increase in principal neurons, most pronounced for upper cortical layer subtypes, which was substantiated by histological analysis. Many neuronal subtypes showed extensive transcriptomic changes, the most marked in upper-layer GABAergic neurons, including down-regulation in energy metabolism and up-regulation in neurotransmission. Transcription factor network analysis demonstrated a developmental origin of transcriptomic changes. Last, Visium spatial transcriptomics further corroborated upper-layer neuron vulnerability in schizophrenia. Overall, our results point toward general network impairment within upper cortical layers as a core substrate associated with schizophrenia symptomatology.

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