TY - JOUR
T1 - Hippocampal subfield transcriptome analysis in schizophrenia psychosis
AU - Perez, Jessica Marie
AU - Berto, Stefano
AU - Gleason, Kelly
AU - Ghose, Subroto
AU - Tan, Chunfeng
AU - Kim, Tae Kyung
AU - Konopka, Genevieve
AU - Tamminga, Carol A.
N1 - Funding Information:
Acknowledgements We wish to thank the next of kin of the brain tissue donors who made this study possible, the Dallas County Medical Examiners’ Office, UT Southwestern Transplant Service and Willed Body Program for assistance with procurement of tissue. This project could not have been performed without the support and generosity of Dr Kenneth Altshuler. This project was performed with funding from the Stanton Sharp Distinguished Chair Endowment and T32 MH076690 Basic Science Training Program in Neurobiology of Mental Illness.
Publisher Copyright:
© 2020, The Author(s), under exclusive licence to Springer Nature Limited.
PY - 2021/6
Y1 - 2021/6
N2 - We have previously demonstrated functional and molecular changes in hippocampal subfields in individuals with schizophrenia (SZ) psychosis associated with hippocampal excitability. In this study, we use RNA-seq and assess global transcriptome changes in the hippocampal subfields, DG, CA3, and CA1 from individuals with SZ psychosis and controls to elucidate subfield-relevant molecular changes. We also examine changes in gene expression due to antipsychotic medication in the hippocampal subfields from our SZ ON- and OFF-antipsychotic medication cohort. We identify unique subfield-specific molecular profiles in schizophrenia postmortem samples compared with controls, implicating astrocytes in DG, immune mechanisms in CA3, and synaptic scaling in CA1. We show a unique pattern of subfield-specific effects by antipsychotic medication on gene expression levels with scant overlap of genes differentially expressed by SZ disease effect versus medication effect. These hippocampal subfield changes serve to confirm and extend our previous model of SZ and can explain the lack of full efficacy of conventional antipsychotic medication on SZ symptomatology. With future characterization using single-cell studies, the identified distinct molecular profiles of the DG, CA3, and CA1 in SZ psychosis may serve to identify further potential hippocampal-based therapeutic targets.
AB - We have previously demonstrated functional and molecular changes in hippocampal subfields in individuals with schizophrenia (SZ) psychosis associated with hippocampal excitability. In this study, we use RNA-seq and assess global transcriptome changes in the hippocampal subfields, DG, CA3, and CA1 from individuals with SZ psychosis and controls to elucidate subfield-relevant molecular changes. We also examine changes in gene expression due to antipsychotic medication in the hippocampal subfields from our SZ ON- and OFF-antipsychotic medication cohort. We identify unique subfield-specific molecular profiles in schizophrenia postmortem samples compared with controls, implicating astrocytes in DG, immune mechanisms in CA3, and synaptic scaling in CA1. We show a unique pattern of subfield-specific effects by antipsychotic medication on gene expression levels with scant overlap of genes differentially expressed by SZ disease effect versus medication effect. These hippocampal subfield changes serve to confirm and extend our previous model of SZ and can explain the lack of full efficacy of conventional antipsychotic medication on SZ symptomatology. With future characterization using single-cell studies, the identified distinct molecular profiles of the DG, CA3, and CA1 in SZ psychosis may serve to identify further potential hippocampal-based therapeutic targets.
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U2 - 10.1038/s41380-020-0696-6
DO - 10.1038/s41380-020-0696-6
M3 - Article
C2 - 32152472
AN - SCOPUS:85081691716
SN - 1359-4184
VL - 26
SP - 2577
EP - 2589
JO - Molecular Psychiatry
JF - Molecular Psychiatry
IS - 6
ER -