4.5 Article

Contributions of circadian clock genes to cell survival in fibroblast models of lithium-responsive bipolar disorder

Journal

EUROPEAN NEUROPSYCHOPHARMACOLOGY
Volume 74, Issue -, Pages 1-14

Publisher

ELSEVIER
DOI: 10.1016/j.euroneuro.2023.04.009

Keywords

Bipolar disorder; Circadian rhythm; Apoptosis; Lithium

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Bipolar disorder (BD) is characterized by mood episodes, disrupted circadian rhythms, and gray matter reduction in the brain. Lithium, an effective pharmacotherapy for BD, has neuroprotective properties and beneficial effects on circadian rhythms that may distinguish lithium responders (Li-R) from non-responders (Li-NR). Patterns of co-expression among circadian clock and cell survival genes were found in BD patients and controls, as well as in Li-R vs. Li-NR cells. The coordination between circadian clock and cell survival genes in BD may help predict lithium response.
Bipolar disorder (BD) is characterized by mood episodes, disrupted circadian rhythms and gray matter reduction in the brain. Lithium is an effective pharmacotherapy for BD, but not all pa-tients respond to treatment. Lithium has neuroprotective properties and beneficial effects on circadian rhythms that may distinguish lithium responders (Li-R) from non-responders (Li-NR). The circadian clock regulates molecular pathways involved in apoptosis and cell survival, but how this overlap impacts BD and/or lithium responsiveness is unknown. In primary fibroblasts from Li-R/Li-NR BD patients and controls, we found patterns of co-expression among circadian clock and cell survival genes that distinguished BD vs. control, and Li-R vs. Li-NR cells. In cellu-lar models of apoptosis using staurosporine (STS), lithium preferentially protected fibroblasts against apoptosis in BD vs. control samples, regardless of Li-R/Li-NR status. When examining the effects of lithium treatment of cells in vitro , caspase activation by lithium correlated with period alteration, but the relationship differed in control, Li-R and Li-NR samples. Knockdown of Per1 and Per3 in mouse fibroblasts altered caspase activity, cell death and circadian rhythms in an opposite manner. In BD cells, genetic variation in PER1 and PER3 predicted sensitivity to apoptosis in a manner consistent with knockdown studies. We conclude that distinct patterns of coordination between circadian clock and cell survival genes in BD may help predict lithium response.Published by Elsevier B.V.

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