Abstract
The atypical antipsychotic clozapine is one of the most potent drugs of its class, yet its precise mechanisms of action remain insufficiently understood. Recent evidence points toward the involvement of endogenous retinoic acid (RA) signaling in the pathophysiology of schizophrenia. Here we investigated whether clozapine may modulate RA-signaling. Effects of clozapine on the catabolism of all-trans RA (at-RA), the biologically most active metabolite of Vitamin A, were assessed in murine and human brain tissue and peripheral blood-derived mononuclear cells (PBMC). In patients with schizophrenia with and without clozapine treatment and matched healthy controls, at-RA serum levels and blood mRNA expression of retinoid-related genes in PBMCs were quantified. Clozapine and its metabolites potently inhibited RA catabolism at clinically relevant concentrations. In PBMC-derived microsomes, we found a large interindividual variability of the sensitivity toward the effects of clozapine. Furthermore, at-RA and retinol serum levels were significantly lower in patients with schizophrenia compared with matched healthy controls. Patients treated with clozapine exhibited significantly higher at-RA serum levels compared with patients treated with other antipsychotics, while retinol levels did not differ between treatment groups. Similarly, in patients without clozapine treatment, mRNA expression of RA-inducible targets CYP26A and STRA6, as well as at-RA/retinol ratio, were significantly reduced. In contrast, clozapine-treated patients did not differ from healthy controls in this regard. Our findings provide the first evidence for altered peripheral retinoid homeostasis in schizophrenia and suggest modulation of RA catabolism as a novel mechanism of action of clozapine, which may be useful in future antipsychotic drug development.
Highlights
The atypical antipsychotic clozapine remains the first choice in treatment-resistant schizophrenia (SZ) [1–6]
We demonstrated for the first time that clozapine and its major metabolites inhibit at-retinoic acid (RA) catabolism in a dose-dependent and clinically relevant manner
We provide clinical evidence on significantly reduced retinoid serum levels in patients with schizophrenia and on clozapine positively modulating RA homeostasis in clozapine-treated patients
Summary
The atypical antipsychotic clozapine remains the first choice in treatment-resistant schizophrenia (SZ) [1–6]. Accumulating evidence suggests that disruption of synaptic functions, triggered at different stages during life, constitutes the neurobiological basis of adaptation deficits in the brain circuitry of patients with SZ [15]. These processes are regulated by paracrine retinoid signaling [16–18]. Several lines of evidence directly point toward disturbed retinoid signaling in schizophrenia [19–25]. Dopaminergic pathways are under direct transcriptional control of retinoids [39] Based on these associations, first retinoid-targeting clinical trials using bexarotene, a retinoid-X-receptor (RXR)directed retinoid, show promising results in patients with SZ [40–42]
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