Boriss Sagalajev, Lina Lennartz, Niloofar Mokhtari, Mikolaj Szpak, Meryem Sinem Uyar, Thomas Schüller, Juan Carlos Baldermann, Pablo Andrade, Veerle Visser-Vandewalle, Thibaut Sesia
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Abstract
Background: The lack of a rodent model for both motor and phonic tics hinders research on deep brain stimulation (DBS) for refractory Tourette syndrome (TS). Striatal disinhibition with a GABA-A antagonist (bicuculline) was previously shown to induce hyperkinesia and vocalizations in monkeys, indicating its potential as a TS model. In rats, however, only hyperkinesia was validated, prompting us to investigate whether they can also develop abnormal vocalizations and whether both conditions respond to thalamic DBS.
Methods: Rats underwent surgical implantation of a unilateral guide cannula targeting the caudate putamen (CPu) or nucleus accumbens (NAc). Additionally, they were implanted with an ipsilateral stimulation electrode targeting the border between the central medial (CM) and ventrolateral (VL) thalamic nuclei. Motor changes and ultrasound vocalizations were recorded and characterized offline.
Results: CPu bicuculline elicited arrhythmic shoulder jerks that tend to appear in fading bursts and sporadically alternate with sustained generalized hyperextension. NAc bicuculline elicited similar hyperkinesia, but at a much lower dose to prevent convulsions. DBS of CM/VL, but not adjacent regions, attenuated hyperkinesia with lower intensity showing stronger effects. In addition, bicuculline in NAc, but not CPu, elicited nonsensical vocalizations. However, the effect of CM/VL DBS on vocalizations remained inconclusive.
Conclusions: Hyperkinesia temporal features, co-development with vocalizations, and responsiveness to CM/VL DBS suggest striatal disinhibition may serve as a TS rat model. Yet, other movement disorders with vocal complications cannot be excluded, given the challenge of validating key tic indicators in animals, such as premonitory urge and suppressibility.
期刊介绍:
The central focus of the journal is on research that advances understanding of existing and new neuropsychopharmacological agents including their mode of action and clinical application or provides insights into the biological basis of psychiatric disorders and thereby advances their pharmacological treatment. Such research may derive from the full spectrum of biological and psychological fields of inquiry encompassing classical and novel techniques in neuropsychopharmacology as well as strategies such as neuroimaging, genetics, psychoneuroendocrinology and neuropsychology.
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