Patient fibroblast circadian rhythms predict lithium sensitivity in bipolar disorder
Sanghani HR., Jagannath A., Humberstone T., Ebrahimjee F., Thomas JM., Churchill GC., Cipriani A., Attenburrow M-J., Perestenko OV., Cowley SA., Cader MZ., Peirson SN., Harrison PJ., Foster RG., Goodwin GM., Vasudevan SR.
Bipolar disorder is a chronic neuropsychiatric condition associated with mood instability, where patients present significant sleep and circadian rhythm abnormalities. Currently, the pathophysiology of bipolar disorder remains elusive, but treatment with lithium continues as the benchmark pharmacotherapy, functioning as a potent mood stabilizer in most, but not all patients. Lithium is well documented to induce period lengthening and amplitude enhancement of the circadian clock. Based on this, we sought to investigate whether lithium differentially impacts circadian rhythms in bipolar patient cell lines and crucially if lithium’s effect on the clock is fundamental to its mood-stabilizing effects. We analyzed the circadian rhythms of bipolar patient-derived fibroblasts (n = 39) and their responses to lithium and three further chronomodulators. Here we show, relative to controls (n = 23), patients exhibited a wider distribution of circadian period (p