Lithium-associated transcriptional regulation of CRMP1 in patient-derived olfactory neurons and symptom changes in bipolar disorder

Charlee K Mclean,Youjin Chung,Evaristus A Nwulia,Soumya Narayan,Mariamananita S Hipolito,Narayan Rai,Sandra Y Lin,John I Nurnberger,Koko Ishizuka,Nicola G Cascella,Akira S Sawa

doi:10.1038/s41398-018-0126-6

Abstract

There is growing evidence that lithium used in the treatment of bipolar disorder (BD) affects molecular targets that are involved in neuronal growth, survival, and maturation, but it remains unclear if neuronal alterations in any of these molecules predict specific symptom changes in BD patients undergoing lithium monotherapy. The goals of this study were to (a) determine which molecular changes in the olfactory neurons of symptomatic patients receiving lithium are associated with antimanic or antidepressant response, and (b) uncover novel intraneuronal regulatory mechanisms of lithium therapy. Twenty-two treatment-naïve non-smoking patients, with symptomatic BD underwent nasal biopsies for collection of olfactory tissues, prior to their treatment and following a 6-week course of lithium monotherapy. Sixteen healthy controls were also biopsied. Combining laser capture microdissection with real-time polymerase chain reaction, we investigated baseline and treatment-associated transcriptional changes in candidate molecular targets of lithium action in the olfactory neuroepithelium. Baseline mRNA levels of glycogen synthase kinase 3 beta (GSK3β) and collapsin response mediator protein 1 (CRMP1) genes were significantly associated with BD status and with severity of mood symptoms. Among BD subjects, treatment-associated downregulation of CRMP1 expression was most predictive of decreases in both manic and depressive symptoms. This study provides a novel insight into the relevance of CRMP1, a key molecule in semaphorin-3A signaling during neurodevelopment, in the molecular mechanism of action of lithium, and in the pathophysiology of BD. It supports the use of human-derived olfactory neuronal tissues in the evaluation of treatment response of psychiatric disorders.

Highlights

Development of new treatments for patients with bipolar disorder (BD) is often stalled by limited knowledge of the neuronal molecular mechanisms of mood stabilizing medications in living patients
As we were interested in identifying novel molecules that are involved in efficacy of lithium treatment, we explored the expression of collapsin response mediator protein 1 (CRMP1), a Glycogen synthase kinase 3β (GSK3β) substrate in BD
Multivariate analysis adjusting for sex, age, and education revealed a stronger association for CRMP1 for Young Mania Rating Scale (YMRS) (P < 0.009) and a trend in association for Montgomery-Asberg Depression Rating Scale (MADRS) (P < 0.09)

Summary

Introduction

Development of new treatments for patients with bipolar disorder (BD) is often stalled by limited knowledge of the neuronal molecular mechanisms of mood stabilizing medications in living patients. While direct and indirect post-translational effects of lithium on these candidate enzymes have been documented by several groups, its effects over their transcriptional regulation have not yet been fully addressed, in humans. Such inquiry would uncover new molecular mechanisms of lithium that could potentially lead to the development of clinically relevant novel drugs that may have fewer side. The focus of our study is to directly detect a neuronal molecular signature related to lithium response in patients with BD by developing a paradigm that allows for feasible repetitive live sampling of nervous tissue while patients undergo lithium therapy

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