Dysregulated Protocadherin-pathway Activity As an Intrinsic Defect in Induced Pluripotent Stem Cell-derived Cortical Interneurons from Subjects with Schizophrenia

Overview

Journal Nat Neurosci

Date 2019 Jan 22

PMID 30664768

Citations 56

Authors

Zhicheng Shao

Haneul Noh

Woong Bin Kim

Peiyan Ni

Christine Nguyen

Sarah E Cote

Elizabeth Noyes

Joyce Zhao

Teagan Parsons

James M Park

Kelvin Zheng

Joshua J Park

Joseph T Coyle

Daniel R Weinberger

Richard E Straub

Karen F Berman

Jose Apud

Dost Ongur

Bruce M Cohen

Donna L McPhie

Judith L Rapoport

Roy H Perlis

Thomas A Lanz

Hualin Simon Xi

Changhong Yin

Weihua Huang

Teruyoshi Hirayama

Emi Fukuda

Takeshi Yagi

Sulagna Ghosh

Kevin C Eggan

Hae-Young Kim

Leonard M Eisenberg

Alexander A Moghadam

Patric K Stanton

Jun-Hyeong Cho

Sangmi Chung

Affiliations

Soon will be listed here.

Abstract

We generated cortical interneurons (cINs) from induced pluripotent stem cells derived from 14 healthy controls and 14 subjects with schizophrenia. Both healthy control cINs and schizophrenia cINs were authentic, fired spontaneously, received functional excitatory inputs from host neurons, and induced GABA-mediated inhibition in host neurons in vivo. However, schizophrenia cINs had dysregulated expression of protocadherin genes, which lie within documented schizophrenia loci. Mice lacking protocadherin-α showed defective arborization and synaptic density of prefrontal cortex cINs and behavioral abnormalities. Schizophrenia cINs similarly showed defects in synaptic density and arborization that were reversed by inhibitors of protein kinase C, a downstream kinase in the protocadherin pathway. These findings reveal an intrinsic abnormality in schizophrenia cINs in the absence of any circuit-driven pathology. They also demonstrate the utility of homogenous and functional populations of a relevant neuronal subtype for probing pathogenesis mechanisms during development.

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