Differential Cellular Interactome in Schizophrenia and Bipolar Disorder-Discriminatory Biomarker Role

Antioxidants (Basel). 2023 Nov 1;12(11):1948. doi: 10.3390/antiox12111948.

Abstract

Schizophrenia (SCH) and bipolar disorder (BD) are two of the most important psychiatric pathologies due to their high population incidence and disabling power, but they also present, mainly in their debut, high clinical similarities that make their discrimination difficult. In this work, the differential oxidative stress, present in both disorders, is shown as a concatenator of the systemic alterations-both plasma and erythrocyte, and even at the level of peripheral blood mononuclear cells (PBMC)-in which, for the first time, the different affectations that both disorders cause at the level of the cellular interactome were observed. A marked erythrocyte antioxidant imbalance only present in SCH generalizes to oxidative damage at the plasma level and shows a clear impact on cellular involvement. From the alteration of protein synthesis to the induction of death by apoptosis, including proteasomal damage, mitochondrial imbalance, and autophagic alteration, all the data show a greater cellular affectation in SCH than in BD, which could be linked to increased oxidative stress. Thus, patients with SCH in our study show increased endoplasmic reticulum (ER)stress that induces increased proteasomal activity and a multifactorial response to misfolded proteins (UPR), which, together with altered mitochondrial activity, generating free radicals and leading to insufficient energy production, is associated with defective autophagy and ultimately leads the cell to a high apoptotic predisposition. In BD, however, oxidative damage is much milder and without significant activation of survival mechanisms or inhibition of apoptosis. These clear differences identified at the molecular and cellular level between the two disorders, resulting from progressive afflictions in which oxidative stress can be both a cause and a consequence, significantly improve the understanding of both disorders to date and are essential for the development of targeted and preventive treatments.

Keywords: cellular death; mitochondria; oxidative stress; proteasome; psychiatric disorder; reticulum stress.

Grants and funding

This research was funded by Instituto de Salud Carlos III, grant numbers FISS-PII17/02009, PI21/01596, PI13/02263, PI16/01761, PI11/o2493 and PI14/02037; the Government of the Principado de Asturias through the Fundación para el Fomento en Asturias de la Investigación Científica Aplicada y la Tecnología (FICYT) and the European Union, grant numbers IDI/2021/000033, IDI/2021/111 and AYUD/2021/9867; the Instituto de Investigación Sanitaria del Principado de Asturias (ISPA), grant number 2021-030-INTRAMURALES-POOCY; the University of Oviedo, grant number PAPI-19-EMERG-2 and the Fudación Mutua Madrileña, number grant AP184182023. E.A. thanks his pre-doctoral fellowship to University of Oviedo, grant number FI22/00286; L.G.B. thanks his pre-doctoral fellowship to the Ministerio de Ciencia e Innovación, grant number PRE2019-091053, and C.C.V. thanks his pre-doctoral fellowship to the Government of the Principado de Asturias through the Fundación para el Fomento en Asturias de la Investigación Científica Aplicada y la Tecnología (FICYT) and the European Union, grant number IDI/2021/000033.