Journal article
Convergence of cranial visceral afferents within the solitary tract nucleus
SJ McDougall, JH Peters, MC Andresen
Journal of Neuroscience | Published : 2009
Abstract
Primary afferent axons within the solitary tract (ST) relay homeostatic information via glutamatergic synapses directly to second-order neurons within the nucleus of the solitary tract (NTS). These primary afferents arise from multiple organ systems and relay multiple sensory modalities. How this compact network organizes the flow of primary afferent information will shape central homeostatic control. To assess afferent convergence and divergence, we recorded ST-evoked synaptic responses in pairs of medial NTS neurons in horizontal brainstem slices. ST shocks activated EPSCs along monosynaptic or polysynaptic pathways. Gradations in shock intensity discriminated multiple inputs and stimulus ..
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Grants
Awarded by National Heart, Lung, and Blood Institute
Funding Acknowledgements
This work was supported by grants from the National Institutes of Health [Grant HL-41119 (M.C.A.) and Fellowship HL-88894 (J.H.P.)] and by National Health and Medical Research Council of Australia Overseas Training C.J. Martin Fellowship Grant 400405 (S.J.M.).