Litcius/Paper detail

Mitochondrial function parameters as a tool for tailored drug treatment of an individual with psychosis: a proof of concept study

Tamara Bar-Yosef, Wessal Hussein, Ofer Yitzhaki, Odeya Damri, Limor Givon, Carmit Marom, Vlada Gurman, Joseph Levine, Yuly Bersudsky, Galila Agam, Dorit Ben‐Shachar

2020Scientific Reports22 citationsDOIOpen Access PDF

Abstract

Pharmacological treatment of mental disorders is currently decided based on "trial and error" strategy. Mitochondrial multifaceted dysfunction is assumed to be a major factor in the pathophysiology and treatment of schizophrenia (SZ) and bipolar disorder (BD). This study aimed to explore the feasibility of using a profile of mitochondrial function parameters as a tool to predict the optimal drug for an individual patient (personalized medicine). Healthy controls (n = 40), SZ (n = 48) and BD (n = 27) patients were recruited. Mental and global state of the subjects, six mitochondrial respiration parameters and 14 mitochondrial function-related proteins were assessed in fresh lymphocytes following in-vitro or in-vivo treatment with five antipsychotic drugs and two mood-stabilizers. In healthy controls, hierarchal clustering shows a drug-specific effect profile on the different mitochondrial parameters following in-vitro exposure. Similar changes were observed in untreated SZ and BD patients with psychosis. Following a month of treatment of the latter patients, only responders showed a significant correlation between drug-induced in-vitro effect (prior to in-vivo treatment) and short-term in-vivo treatment effect for 45% of the parameters. Long- but not short-term psychotropic treatment normalized mitochondria-related parameters in patients with psychosis. Taken together, these data substantiate mitochondria as a target for psychotropic drugs and provide a proof of concept for selective mitochondrial function-related parameters as a predictive tool for an optimized psychotropic treatment in a given patient. This, however, needs to be repeated with an expanded sample size and additional mitochondria related parameters.

Topics & Concepts

Schizophrenia (object-oriented programming)PsychosisIn vivoMitochondrionBipolar disorderAntipsychoticMedicineDrug-naïveMoodDrugMood stabilizerPharmacologyPsychiatryBioinformaticsInternal medicineBiologyBiochemistryBiotechnologyTryptophan and brain disordersBipolar Disorder and TreatmentSchizophrenia research and treatment