Mariana Graciela Terenzi scite author profile

1. Functional relationships between the anterior pretectal nucleus (APTN) and nociceptive dorsal horn neurones were investigated electrophysiologically in the anaesthetized rat. The effects of APTN lesions were assessed behaviourally in a model of deafferentation pain. 2. Cells in the dorsal and rostral parts of the APTN were excited orthodromically by electrical stimulation of the ipsilateral dorsolateral funiculus or the contralateral dorsal columns, and by noxious and innocuous cutaneous stimuli. 3. Electrical stimulation of the APTN excited nociceptive lamina I spinal neurones. These cells all projected rostrally in the contralateral dorsolateral funiculus. Identical APTN stimulation also inhibited multireceptive spinal neurones which lay deep in the dorsal horn. These particular cells were shown to project to the brain in the ventrolateral funiculus. 4. It is proposed that noxious stimuli excite spinal lamina I projection neurones which send excitatory axons to the brain, including the APTN. The APTN inhibits deep multireceptive neurones, to reduce the perception of noxious stimuli. The discharge of spinal lamina I neurones, however, will be sustained by the noxious stimulus and by facilitation from the APTN. A sustained descending inhibition of this nature would reduce responses to prolonged injury. 5. The involvement of the APTN in responses to a chronic pain state was examined by comparing the behaviour of animals with bilateral lesions of the APTN with normal controls. Lesions of the APTN strongly enhanced the autotomy behaviour triggered by sectioning of the dorsal roots. 6. These observations support the suggestion that the APTN reduces the debilitating effects of prolonged injury.

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A combined immunocytochemical and retrograde tracing study of noradrenergic connections between the caudal medulla and bed nuclei of the stria terminalis

Terenzi

Ingram

1995

Brain Research

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Folic acid administration prevents ouabain‐induced hyperlocomotion and alterations in oxidative stress markers in the rat brain

Brocardo¹,

Budni²,

Pavesi³

et al. 2010

Bipolar Disorders

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Limbic Regions Mediating Central Actions of Oxytocin on the Milk‐Ejection Reflex in the Rat

Ingrarn

Adams

Jiang

et al. 1995

J Neuroendocrinology

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Central oxytocin administration has a profound facilitatory effect on the patterning of the milk-ejection reflex in the lactating rat. Lesion and microinjection studies indicate that this action is, in part, mediated via a population of limbic neurones in the bed nuclei of the stria terminalis and ventrolateral septum, which have been shown to possess oxytocin receptors and to be activated by selective oxytocin-receptor agonists in vitro. In vivo electrophysiological recordings reveal that some of these neurones display cyclical activity which is highly correlated to each milk ejection, and are rapidly activated following i.c.v. administration of oxytocin, coincident with the facilitation of milk ejection activity. A hypothetical model is proposed in which this population of limbic neurones serves to gate the activity of a pacemaker which, in turn, coordinates the bursting of hypothalamic magnocellular neurones. The oxytocin innervation of these neurones and their expression of oxytocin receptors increases in the postpartum period, and the resultant enhanced sensitivity leads to a greater facilitatory response during lactation. Inhibitory opioid and noradrenergic inputs which converge on these oxytocin-sensitive neurones may function to switch off the facilitatory circuit during periods of stress. Thus, this population of limbic neurones participates in the regulation of neuroendocrine activity during lactation by providing an appropriate degree of feedback to alter the patterning of the milk-ejection reflex.

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