, 1999). In terms of brainstem regions, the raphe nuclei and locus coeruleus Talazoparib chemical structure are both implicated

in several psychiatric conditions as well as having reciprocal connections with the vestibular nuclei. The raphe nuclei receives projections from the vestibular nuclei ( Cuccurazzu and Halberstadt, 2008) and sends serotonergic and nonserotonergic projections to the vestibular nuclei ( Halberstadt and Balaban, 2006 and Kalen et al., 1985) as well as sending axon collaterals to the central amygdaloid nucleus, suggesting co-modulation of vestibular pathways with regions involved in affective control ( Halberstadt and Balaban, 2006). The raphe-vestibular projections are organised into anatomically distinct fields which is thought to selectively modulate processing in regions of the vestibular nuclear complex that receive input from specific cerebellar zones, representing a potential mechanism whereby motor activity and behavioural arousal could influence the activity of cerebellovestibular circuits ( Halberstadt and Balaban, 2003). The locus coeruleus provides noradrenergic innervation to the vestibular nuclei ( Schuerger and Balaban, 1999), as well as collateral projections to regions including the cerebellum, neocortex and hypothalamus, which have been hypothesised to mediate effects of arousal

on vestibular reflex performance. The locus coeruleus also responds to vestibular stimulation ( Manzoni et al., 1989) via direct projections from selleck chemicals the vestibular nuclei ( Balaban, 1996) and input from vestibular related sources ( Luppi et al., 1995). The limbic system is central to both vestibular function

and emotional processing. The parabrachial nucleus (PBN) network provides a direct link between the vestibular system and neural networks involved in emotional processing. The PBN has reciprocal connections with the vestibular nuclei ( Balaban Nintedanib chemical structure and Thayer, 2001, Balaban, 2002 and Balaban, 2004b), as well as reciprocal connections with the amygdala, hypothalamus, locus coeruleus, and prefrontal cortex ( Balaban and Thayer, 2001, Gorman et al., 2000 and Schuerger and Balaban, 1999). The amygdala, hypothalamus, locus coeruleus and prefrontal cortex are all areas of the brain that are commonly linked with mental illnesses such as schizophrenia, bipolar disorder and depression (e.g. Bennett, 2011; Brown et al., 2011). The hippocampus is consistently implicated in cognition and models of psychiatric disorders and there is a large body of evidence supporting vestibular–hippocampal interactions (e.g. Besnard et al., 2012, Brandt et al., 2005, Hufner et al., 2007, Sharp et al., 1995 and Smith et al., 2005a).