βIV spectrin abundancy, cellular distribution and sensitivity to AKT/GSK3 regulation in schizophrenia

Jessica Di Re; Michela Marini; Syed Ibrar Hussain; Aditya K. Singh; Akshaya Venkatesh; Musaad A. Alshammari; Tahani K. Alshammari; Abdul Rizaq Ali Hamoud; Ali Sajid Imami; Zahra Haghighijoo; Nickolas Fularcyzk; Laura Stertz; Derek Hawes; Angela Mosebarger; Jordan Jernigan; Claire Chaljub; Ralda Nehme; Consuelo Walss-Bass; Anton Schulmann; Marquis P. Vawter; Robert McCullumsmith; Robert D. Damoiseaux; Agenor Limon; Demetrio Labate; Michael F. Wells; Fernanda Laezza

doi:10.1038/s41380-025-02917-1

βIV spectrin abundancy, cellular distribution and sensitivity to AKT/GSK3 regulation in schizophrenia

Jessica Di Re, Michela Marini, Syed Ibrar Hussain, Aditya K. Singh, Akshaya Venkatesh, Musaad A. Alshammari, Tahani K. Alshammari, Abdul Rizaq Ali Hamoud, Ali Sajid Imami, Zahra Haghighijoo, Nickolas Fularcyzk, Laura Stertz, Derek Hawes, Angela Mosebarger, Jordan Jernigan, Claire Chaljub, Ralda Nehme, Consuelo Walss-Bass, Anton Schulmann, Marquis P. VawterRobert McCullumsmith, Robert D. Damoiseaux, Agenor Limon, Demetrio Labate, Michael F. Wells, Fernanda Laezza

Research output: Contribution to journal › Article › peer-review

Abstract

Schizophrenia (SCZ) is a complex psychiatric disorder with unclear biological mechanisms. Spectrins, cytoskeletal proteins linked to neurodevelopmental disorders, are regulated by the AKT/GSK3 pathway, which is implicated in SCZ. However, the impact of SCZ-related dysregulation of this pathway on spectrin expression and distribution remains unexplored. Here, we show that βIV spectrin protein levels were reduced in neurons of the dorsolateral prefrontal cortex in SCZ postmortem samples compared to healthy control (HC) from the Human Brain Collection Core (HBCC). To investigate potential links between βIV spectrin and the AKT/GSK3 pathway, we analyzed the PsychEncode dataset, revealing elevated SPTBN4 and AKT2 mRNA levels with correlated gene transcription in both HCs and individuals with SCZ. Next, computational tools were employed to identify potential AKT and GSK3 phosphorylation sites on βIV spectrin, and two GSK3 sites were validated through in vitro assays. To assess whether βIV spectrin distribution and sensitivity to AKT/GSK3 are altered in SCZ, we used iPSC-derived neurons from two independent cohorts of patients with significantly increased familial genetic risk for the disorder. Alteration in βIV spectrin levels and sensitivity to AKT/GSK3 inhibitors were consistently observed across both cohorts. Importantly, a Random Forest classifier applied to βIV spectrin imaging achieved up to 98% accuracy in classifying cells by diagnosis in postmortem samples, and by diagnosis or diagnosis × perturbation in iPSC samples. These findings reveal altered βIV spectrin levels and AKT/GSK3 sensitivity in SCZ, identifying βIV spectrin image-based endophenotypes as robust, generalizable predictive biomarkers of SCZ, with the potential for scalable clinical applications.

Original language	English (US)
Article number	5854
Journal	Molecular Psychiatry
DOIs	https://doi.org/10.1038/s41380-025-02917-1
State	Accepted/In press - 2025
Externally published	Yes

ASJC Scopus subject areas

Molecular Biology
Cellular and Molecular Neuroscience
Psychiatry and Mental health

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10.1038/s41380-025-02917-1

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Di Re, J., Marini, M., Hussain, S. I., Singh, A. K., Venkatesh, A., Alshammari, M. A., Alshammari, T. K., Hamoud, A. R. A., Imami, A. S., Haghighijoo, Z., Fularcyzk, N., Stertz, L., Hawes, D., Mosebarger, A., Jernigan, J., Chaljub, C., Nehme, R., Walss-Bass, C., Schulmann, A., ... Laezza, F. (Accepted/In press). βIV spectrin abundancy, cellular distribution and sensitivity to AKT/GSK3 regulation in schizophrenia. Molecular Psychiatry, Article 5854. https://doi.org/10.1038/s41380-025-02917-1

Di Re, J, Marini, M, Hussain, SI, Singh, AK, Venkatesh, A, Alshammari, MA, Alshammari, TK, Hamoud, ARA, Imami, AS, Haghighijoo, Z, Fularcyzk, N, Stertz, L, Hawes, D, Mosebarger, A, Jernigan, J, Chaljub, C, Nehme, R, Walss-Bass, C, Schulmann, A, Vawter, MP, McCullumsmith, R, Damoiseaux, RD, Limon, A, Labate, D, Wells, MF & Laezza, F 2025, 'βIV spectrin abundancy, cellular distribution and sensitivity to AKT/GSK3 regulation in schizophrenia', Molecular Psychiatry. https://doi.org/10.1038/s41380-025-02917-1

@article{a6fd5315164245bea904bca53be50034,

title = "βIV spectrin abundancy, cellular distribution and sensitivity to AKT/GSK3 regulation in schizophrenia",

abstract = "Schizophrenia (SCZ) is a complex psychiatric disorder with unclear biological mechanisms. Spectrins, cytoskeletal proteins linked to neurodevelopmental disorders, are regulated by the AKT/GSK3 pathway, which is implicated in SCZ. However, the impact of SCZ-related dysregulation of this pathway on spectrin expression and distribution remains unexplored. Here, we show that βIV spectrin protein levels were reduced in neurons of the dorsolateral prefrontal cortex in SCZ postmortem samples compared to healthy control (HC) from the Human Brain Collection Core (HBCC). To investigate potential links between βIV spectrin and the AKT/GSK3 pathway, we analyzed the PsychEncode dataset, revealing elevated SPTBN4 and AKT2 mRNA levels with correlated gene transcription in both HCs and individuals with SCZ. Next, computational tools were employed to identify potential AKT and GSK3 phosphorylation sites on βIV spectrin, and two GSK3 sites were validated through in vitro assays. To assess whether βIV spectrin distribution and sensitivity to AKT/GSK3 are altered in SCZ, we used iPSC-derived neurons from two independent cohorts of patients with significantly increased familial genetic risk for the disorder. Alteration in βIV spectrin levels and sensitivity to AKT/GSK3 inhibitors were consistently observed across both cohorts. Importantly, a Random Forest classifier applied to βIV spectrin imaging achieved up to 98% accuracy in classifying cells by diagnosis in postmortem samples, and by diagnosis or diagnosis × perturbation in iPSC samples. These findings reveal altered βIV spectrin levels and AKT/GSK3 sensitivity in SCZ, identifying βIV spectrin image-based endophenotypes as robust, generalizable predictive biomarkers of SCZ, with the potential for scalable clinical applications.",

author = "{Di Re}, Jessica and Michela Marini and Hussain, {Syed Ibrar} and Singh, {Aditya K.} and Akshaya Venkatesh and Alshammari, {Musaad A.} and Alshammari, {Tahani K.} and Hamoud, {Abdul Rizaq Ali} and Imami, {Ali Sajid} and Zahra Haghighijoo and Nickolas Fularcyzk and Laura Stertz and Derek Hawes and Angela Mosebarger and Jordan Jernigan and Claire Chaljub and Ralda Nehme and Consuelo Walss-Bass and Anton Schulmann and Vawter, {Marquis P.} and Robert McCullumsmith and Damoiseaux, {Robert D.} and Agenor Limon and Demetrio Labate and Wells, {Michael F.} and Fernanda Laezza",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

doi = "10.1038/s41380-025-02917-1",

language = "English (US)",

journal = "Molecular Psychiatry",

issn = "1359-4184",

publisher = "Springer Nature",

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TY - JOUR

T1 - βIV spectrin abundancy, cellular distribution and sensitivity to AKT/GSK3 regulation in schizophrenia

AU - Di Re, Jessica

AU - Marini, Michela

AU - Hussain, Syed Ibrar

AU - Singh, Aditya K.

AU - Venkatesh, Akshaya

AU - Alshammari, Musaad A.

AU - Alshammari, Tahani K.

AU - Hamoud, Abdul Rizaq Ali

AU - Imami, Ali Sajid

AU - Haghighijoo, Zahra

AU - Fularcyzk, Nickolas

AU - Stertz, Laura

AU - Hawes, Derek

AU - Mosebarger, Angela

AU - Jernigan, Jordan

AU - Chaljub, Claire

AU - Nehme, Ralda

AU - Walss-Bass, Consuelo

AU - Schulmann, Anton

AU - Vawter, Marquis P.

AU - McCullumsmith, Robert

AU - Damoiseaux, Robert D.

AU - Limon, Agenor

AU - Labate, Demetrio

AU - Wells, Michael F.

AU - Laezza, Fernanda

PY - 2025

Y1 - 2025

N2 - Schizophrenia (SCZ) is a complex psychiatric disorder with unclear biological mechanisms. Spectrins, cytoskeletal proteins linked to neurodevelopmental disorders, are regulated by the AKT/GSK3 pathway, which is implicated in SCZ. However, the impact of SCZ-related dysregulation of this pathway on spectrin expression and distribution remains unexplored. Here, we show that βIV spectrin protein levels were reduced in neurons of the dorsolateral prefrontal cortex in SCZ postmortem samples compared to healthy control (HC) from the Human Brain Collection Core (HBCC). To investigate potential links between βIV spectrin and the AKT/GSK3 pathway, we analyzed the PsychEncode dataset, revealing elevated SPTBN4 and AKT2 mRNA levels with correlated gene transcription in both HCs and individuals with SCZ. Next, computational tools were employed to identify potential AKT and GSK3 phosphorylation sites on βIV spectrin, and two GSK3 sites were validated through in vitro assays. To assess whether βIV spectrin distribution and sensitivity to AKT/GSK3 are altered in SCZ, we used iPSC-derived neurons from two independent cohorts of patients with significantly increased familial genetic risk for the disorder. Alteration in βIV spectrin levels and sensitivity to AKT/GSK3 inhibitors were consistently observed across both cohorts. Importantly, a Random Forest classifier applied to βIV spectrin imaging achieved up to 98% accuracy in classifying cells by diagnosis in postmortem samples, and by diagnosis or diagnosis × perturbation in iPSC samples. These findings reveal altered βIV spectrin levels and AKT/GSK3 sensitivity in SCZ, identifying βIV spectrin image-based endophenotypes as robust, generalizable predictive biomarkers of SCZ, with the potential for scalable clinical applications.

AB - Schizophrenia (SCZ) is a complex psychiatric disorder with unclear biological mechanisms. Spectrins, cytoskeletal proteins linked to neurodevelopmental disorders, are regulated by the AKT/GSK3 pathway, which is implicated in SCZ. However, the impact of SCZ-related dysregulation of this pathway on spectrin expression and distribution remains unexplored. Here, we show that βIV spectrin protein levels were reduced in neurons of the dorsolateral prefrontal cortex in SCZ postmortem samples compared to healthy control (HC) from the Human Brain Collection Core (HBCC). To investigate potential links between βIV spectrin and the AKT/GSK3 pathway, we analyzed the PsychEncode dataset, revealing elevated SPTBN4 and AKT2 mRNA levels with correlated gene transcription in both HCs and individuals with SCZ. Next, computational tools were employed to identify potential AKT and GSK3 phosphorylation sites on βIV spectrin, and two GSK3 sites were validated through in vitro assays. To assess whether βIV spectrin distribution and sensitivity to AKT/GSK3 are altered in SCZ, we used iPSC-derived neurons from two independent cohorts of patients with significantly increased familial genetic risk for the disorder. Alteration in βIV spectrin levels and sensitivity to AKT/GSK3 inhibitors were consistently observed across both cohorts. Importantly, a Random Forest classifier applied to βIV spectrin imaging achieved up to 98% accuracy in classifying cells by diagnosis in postmortem samples, and by diagnosis or diagnosis × perturbation in iPSC samples. These findings reveal altered βIV spectrin levels and AKT/GSK3 sensitivity in SCZ, identifying βIV spectrin image-based endophenotypes as robust, generalizable predictive biomarkers of SCZ, with the potential for scalable clinical applications.

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AN - SCOPUS:85217658522

SN - 1359-4184

JO - Molecular Psychiatry

JF - Molecular Psychiatry

M1 - 5854

ER -

βIV spectrin abundancy, cellular distribution and sensitivity to AKT/GSK3 regulation in schizophrenia

Abstract

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