MiRNA Differences Related to Treatment-Resistant Schizophrenia.
Daniel Pérez-RodríguezMaria Aránzazu PenedoTania Rivera-BaltanásTonatiuh Peña-CentenoSusanne BurkhardtAndre FischerJosé María Prieto-GonzálezJosé Manuel OlivaresHugo López-FernándezRoberto Carlos Agís-BalboaPublished in: International journal of molecular sciences (2023)
Schizophrenia (SZ) is a serious mental disorder that is typically treated with antipsychotic medication. Treatment-resistant schizophrenia (TRS) is the condition where symptoms remain after pharmacological intervention, resulting in long-lasting functional and social impairments. As the identification and treatment of a TRS patient requires previous failed treatments, early mechanisms of detection are needed in order to quicken the access to effective therapy, as well as improve treatment adherence. In this study, we aim to find a microRNA (miRNA) signature for TRS, as well as to shed some light on the molecular pathways potentially involved in this severe condition. To do this, we compared the blood miRNAs of schizophrenia patients that respond to medication and TRS patients, thus obtaining a 16-miRNA TRS profile. Then, we assessed the ability of this signature to separate responders and TRS patients using hierarchical clustering, observing that most of them are grouped correctly (~70% accuracy). We also conducted a network, pathway analysis, and bibliography search to spot molecular pathways potentially altered in TRS. We found that the response to stress seems to be a key factor in TRS and that proteins p53, SIRT1, MDM2, and TRIM28 could be the potential mediators of such responses. Finally, we suggest a molecular pathway potentially regulated by the miRNAs of the TRS profile.
Keyphrases
- end stage renal disease
- chronic kidney disease
- newly diagnosed
- bipolar disorder
- ejection fraction
- healthcare
- randomized controlled trial
- peritoneal dialysis
- type diabetes
- patient reported outcomes
- risk assessment
- emergency department
- adipose tissue
- depressive symptoms
- skeletal muscle
- insulin resistance
- weight loss
- climate change
- patient reported
- stress induced