Exploring the Role of Neuroactive Steroids in Tourette Syndrome

Overview

Tourette syndrome (TS) is a disabling neurodevelopmental disorder characterized by motor and phonic tics. The studies proposed in this application will explore the endocrine mechanisms underlying two of the least well-understood biological characteristics of TS, namely its marked male predominance and stress susceptibility. In particular, our exploratory studies will characterize the steroid profile in TS-affected boys and girls to identify novel potential biomarkers and therapeutic targets for this disorder.

Tourette syndrome (TS) is a disabling neurodevelopmental disorder characterized by motor and phonic tics. Available treatment strategies remain unsatisfactory, due to limited knowledge of the biological foundations of this disorder. The studies proposed in this application will explore the mechanisms underlying two of the least well-understood biological characteristics of TS, namely its marked male predominance and stress susceptibility. Studies from the investigators suggest that these features of TS are contributed by neuroactive steroids, a family of mediators implicated in sex and stress regulation. The typical age of onset of TS is 6-7 years, coinciding with adrenarche, a phase of adrenal maturation characterized by an upsurge in adrenal neuroactive steroids, such as dehydroepiandrosterone (DHEA) and its sulfate (DHEAS). In preliminary studies, the investigators found that DHEA exacerbated tic-like responses in animal models of TS. Interestingly, the dose of DHEA needed to elicit TS-like responses in females is higher than those needed in males, possibly pointing to a mechanism of sex differences in TS. Stress reduces the ability of TS patients to suppress tics, but the underlying mechanisms remain unknown. Studies in animal models indicate that this process may be due to the elevation of the neuroactive steroid allopregnanolone (AP) in the prefrontal cortex. By inhibiting the ability of the prefrontal cortex to suppress tics, AP promotes tic execution. In a pilot study, the investigators found that tic suppression, a well-known stressful task in TS patients, increases AP salivary levels. Furthermore, in another proof-of-concept study, the investigators found that inhibiting AP synthesis led to a reduction in tic severity and facilitated voluntary control of tics in stressful situations. These findings lead to the hypothesis that TS patients exhibit alterations of the composition of their neuroactive steroid profiles, including: 1) an increase in baseline DHEA(S) levels in male TS patients, in correlation with life-time severity; and 2) an exaggerated elevation in AP in response to acute stress. The two Aims of this proposal will test this hypothesis by: 1) comparing the baseline urinary steroidomic profile of TS-affected boys and girls with non-affected sex- and age-matched controls; and 2) charting the dynamic alterations in steroidomic salivary profiles in response to tic suppression. These studies will advance understanding of the endocrine mechanisms in TS and lead to the identification of potential biomarkers for the severity of tics and comorbid symptoms. In the long run, the results of these studies may open the way for the development of new therapies for TS that may reduce tic severity and increase patients' responsiveness to behavioral interventions.

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