Profiling the Skeletal Muscle Proteome in Patients on Atypical Antipsychotics and Mood Stabilizers

Overview

Journal Brain Sci

Publisher MDPI

Date 2022 Feb 25

PMID 35204022

Authors

Kyle J Burghardt

Griffin Calme

Michael Caruso

Bradley H Howlett

Elani Sanders

Zaher Msallaty

Abdullah Mallisho

Berhane Seyoum

Yue A Qi

Xiangmin Zhang

Zhengping Yi

Affiliations

Soon will be listed here.

Abstract

Atypical antipsychotics (AAP) are used in the treatment of severe mental illness. They are associated with several metabolic side effects including insulin resistance. The skeletal muscle is the primary tissue responsible for insulin-stimulated glucose uptake. Dysfunction of protein regulation within the skeletal muscle following treatment with AAPs may play a role in the associated metabolic side effects. The objective of this study was to measure protein abundance in the skeletal muscle of patients on long-term AAP or mood stabilizer treatment. Cross-sectional muscle biopsies were obtained from patients with bipolar disorder and global protein abundance was measured using stable isotope labeling by amino acid (SILAC) combined with high-performance liquid chromatography-electrospray ionization tandem mass spectrometry (HPLC-ESI-MS/MS). Sixteen patients completed muscle biopsies and were included in the proteomic analyses. A total of 40 proteins were significantly different between the AAP group and the mood stabilizer group. In-silico pathway analysis identified significant enrichment in several pathways including glucose metabolism, cell cycle, apoptosis, and folate metabolism. Proteome abundance changes also differed based on protein biological processes and function. In summary, significant differences in proteomic profiles were identified in the skeletal muscle between patients on AAPs and mood stabilizers. Future work is needed to validate these findings in prospectively sampled populations.

Citing Articles

Effect of Insulin and Pioglitazone on Protein Phosphatase 2A Interaction Partners in Primary Human Skeletal Muscle Cells Derived from Obese Insulin-Resistant Participants.

Alghanem L, Zhang X, Jaiswal R, Seyoum B, Mallisho A, Msallaty Z ACS Omega. 2022; 7(47):42763-42773.

PMID: 36467954 PMC: 9713796. DOI: 10.1021/acsomega.2c04473.

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