Abstract
Cardiac fibrosis plays a vital role in the pathogenesis of heart failure. Fibroblast activity is enhanced by increases in store-operated Ca2+ entry (SOCE) and calcium release-activated calcium channel protein 1 (Orai1) levels. Lithium regulates SOCE; however, whether therapeutic concentrations of lithium can be used to inhibit cardiac fibrogenesis is unknown. Migration and proliferation assays, Western blotting, real-time reverse-transcription polymerase chain reaction analysis, and calcium fluorescence imaging were performed in human cardiac fibroblasts treated with or without LiCl at 1.0 mM (i.e., therapeutic peak level) or 0.1 mM (i.e., therapeutic trough level) for 24 h. Results showed that LiCl (0.1 mM, but not 1.0 mM) inhibited the migration and collagen synthesis ability of cardiac fibroblasts. Additionally, thapsigargin-induced SOCE was reduced in fibroblasts treated with LiCl (0.1 mM). The expression level of Orai1 was lower in LiCl (0.1 mM)-treated fibroblasts relative to the fibroblasts without LiCl treatment. Fibroblasts treated with a combination of LiCl (0.1 mM) and 2-APB (10 μM, an Orai1 inhibitor) demonstrated similar migration and collagen synthesis abilities as those in LiCl (0.1 mM)-treated fibroblasts. Altogether, lithium at therapeutic trough levels reduced the migration and collagen synthesis abilities of human cardiac fibroblasts by inhibiting SOCE and Orai1 expression.
Highlights
Given that stromal interaction molecule 1 (STIM1) activates Orai1 upon depletion of ER Ca2+ in cardiac fibroblasts and transient receptor potential canonical (TRPC) channels are the important ion channels that regulate Ca2+ entry in cardiac fibrosis, this study investigated the effects of lithium on the expression of STIM1, TRPC3, and TRPC6 proteins
At therapeutic peak levels (1.0 mM), lithium did not enhance the pro-fibrotic capability of human cardiac fibroblasts
Consistent with previous study findings that lithium above therapeutic peak levels (>1.0 mM) increases the pro-fibrotic abilities of fibroblasts [22,27], the findings of the present study suggest that the effects of lithium on the pro-fibrotic activity in cardiac fibroblasts may be in a dose-dependent manner
Summary
Bipolar disorder is a chronic recurrent disease characterized by episodic mood symptoms, cognitive deficits, and high burden of medical comorbidities during illness progression [1,2,3]. Accumulating evidence has indicated that patients with bipolar disorder have a. Among the causes of natural deaths, studies from both Eastern and Western countries have consistently shown that cardiac disease is among the leading ones, resulting in the excess and premature deaths of patients with bipolar disorder [4,5]. Cardiac fibrosis is a detrimental factor in a variety of heart diseases [6,7]. The excessive accumulation of extracellular matrix proteins interferes with electrical conduction, causes myocardial stiffness, contributes to cardiac arrhythmias, and increases the rate of heart failures [7]. Consistent with the literature [8], our recent studies have demonstrated that
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