Afferents to the median raphe nucleus of the rat: Retrograde cholera toxin and wheat germ conjugated horseradish peroxidase tracing, and selectived-[3H]aspartate labelling of possible excitatory amino acid inputs
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Local administration of bicuculline into the ventrolateral and medial preoptic nuclei modifies sleep and maternal behavior in lactating rats.
2021, Physiology and BehaviorCitation Excerpt :We also observed that perfusion of BIC30 into the VLPO decreased theta power in the prefrontal cortex during REM sleep. A possible explanation could be the regulation of the VLPO projection toward areas that desynchronize this rhythm, such as the medial raphe nucleus [83, 84]. In the present study, using BIC as a pharmacological tool to disinhibit the mPOA and VLPO of postpartum rats, we evaluate the role of the mPOA and VLPO on sleep and maternal behavior.
The anterior thalamic nuclei and nucleus reuniens: So similar but so different
2020, Neuroscience and Biobehavioral ReviewsSerotonergic regulation of hippocampal rhythmical activity
2020, Handbook of Behavioral NeuroscienceFrom B1 to B9: a guide through hindbrain serotonin neurons with additional views from multidimensional characterization
2020, Handbook of Behavioral NeuroscienceCitation Excerpt :The neurochemical nature of these afferents has been proven to be of a glutamatergic nature at least for afferents arising from the cortex, preoptic and other hypothalamic areas, the lateral habenula, IP nucleus, PAG, LdTg, MnR, and ParaMnR (Behzadi et al., 1990). MnR neurons were also found to receive innervations from other 5-HT neurons in B9, B7, and B2–B3 (Behzadi et al., 1990; Groenewegen & Van Dijk, 1984). More recent studies using viral retrograde labeling based on modified rabies virus technology have taken this description a step further by mapping all monosynaptic inputs to 5-HT neurons in the DRN (B6/B7) and the MnR (B5/B8) (Ogawa, Cohen, Hwang, Uchida, & Watabe-Uchida, 2014; Pollak Dorocic et al., 2014).
Are periaqueductal gray and dorsal raphe the foundation of appetitive and aversive control? A comprehensive review
2019, Progress in Neurobiology