José M. Castro‐Lopes scite author profile

Central afferent pathways conveying nociceptive input to the hypothalamic paraventricular nucleus as revealed by a combination of retrograde labeling and c‐fos activation

Pan¹,

Castro‐Lopes²,

Coimbra³

1999

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Previous data have shown that noxious thermal stimulation of the hind leg in the anesthetized rat causes c-fos activation in the paraventricular nucleus of the hypothalamus (PVN); in other brain nuclei, including the cathecholaminergic cell groups of the caudal medulla; and in the adenohypophysis. Stimulation was followed by adrenocorticotropic hormone plasma release but did not provoke cardiovascular changes. In the current study, the afferent central pathways conveying the nociceptive input to the PVN were studied throughout the brain by using double labeling for the Fos-protein and the retrograde tracer cholera toxin subunit B (CTb) injected into the PVN. Although double labeling occurred in several hypothalamic nuclei, the periaqueductal gray, the lateral parabrachial area, and the catecholaminergic medullary groups, high rates of double labeling occurred only in the cells of the A1 region of the ventrolateral medulla ( approximately 83% of CTb-labeled cells expressing c-fos). Further triple labeling with tyrosine hydroxylase (TH) revealed that > 80% of the double-labeled cells were TH-immunoreactive. The spinal cord had the usual strong c-fos expression but showed no retrograde labeling from the PVN. Noxious stimulation caused corticosterone plasma release. To ascertain a possible link of spinofugal neurons with the A1 cells, biotinylated dextran amine was injected into the spinal dorsal horn. Numerous anterogradely labeled fibers with bouton-like structures were observed, with the latter apposed to double- and triple-labeled cells in the A1 region. It is suggested that a dysynaptic route relayed in the A1 region conveys the nociceptive somatic input from the spinal cord to the PVN. Noxious stimulation may act as a systemic stressor, activating the hypothalamic-pituitary-adrenal axis.

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Distribution of GABA Receptors in the Thalamus and Their Involvement in Nociception

Neto¹,

2006

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Central afferent pathways conveying nociceptive input to the hypothalamic paraventricular nucleus as revealed by a combination of retrograde labeling and c-fos activation

Pan¹,

Castro‐Lopes²,

Coimbra³

1999

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Modulated expression of c-Fos in the spinal cord following noxious thermal stimulation of monoarthritic rats

Schadrack

¹

,

Castro‐Lopes²,

Avelino³

et al. 1998

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Peripheral noxious stimulation evokes functional and biochemical changes in the spinal cord which results in central sensitization and hyperalgesia, but at the same time also induces the activation of inhibitory control systems. The purpose of the present study was to investigate whether the adaptive changes induced by ongoing peripheral inflammation influence the spinal cord expression of c-Fos (a commonly used marker of neuronal activity) following an additional acute noxious stimulus. Therefore, the spinal expression of c-Fos was immunohistochemically investigated following noxious thermal stimulation of a rat monoarthritic hindpaw at various time points (1, 4, 8, 21 days) after induction of monoarthritis. Compared to normal rats, c-Fos expression following ipsilateral noxious thermal stimulation of monoarthritic rats was strongly modified in the deep laminae of the dorsal horn depending on the time course of inflammation. At 1 day of monoarthritis, an enhanced ipsilateral expression (135% and 208% of normal rats in laminae III-VI and VII, respectively) and at 3 weeks a reduced expression (38% and 23% of normal rats in laminae III-VI and VII, respectively) was detected. The amount of c-Fos-positive neurons in the ipsilateral superficial laminae I and II was unchanged at all time points investigated. To assess excitability changes on the contralateral side at an early stage of inflammation, a group of monoarthritic rats received a contralateral noxious stimulus at day 1 of monoarthritis. This resulted in a potentiated expression of c-Fos ipsilateral to the acute noxious stimulus (i.e., contralateral to the monoarthritic hindpaw) restricted to lamina II (137% of normal rats) of the dorsal horn. The data showed that changes in c-Fos expression depended on the time point of noxious heat stimulation (NHS) of monoarthritic rats, and differed in the ipsi- and contralateral side of the spinal cord. In addition to a possible habituation of c-Fos expression, it may be speculated that the time course-dependent changes reflect laminae-specific modulations of excitatory and inhibitory mechanisms during monoarthritis. Further studies are necessary in order to provide more insights into the contribution of these mechanisms on noxious stimulus-evoked c-Fos expression.

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Modulated expression of c‐Fos in the spinal cord following noxious thermal stimulation of monoarthritic rats

Schadrack

¹

,

Castro‐Lopes²,

Avelino³

et al. 1998

View full text Add to dashboard Cite

Peripheral noxious stimulation evokes functional and biochemical changes in the spinal cord which results in central sensitization and hyperalgesia, but at the same time also induces the activation of inhibitory control systems. The purpose of the present study was to investigate whether the adaptive changes induced by ongoing peripheral inflammation influence the spinal cord expression of c-Fos (a commonly used marker of neuronal activity) following an additional acute noxious stimulus. Therefore, the spinal expression of c-Fos was immunohistochemically investigated following noxious thermal stimulation of a rat monoarthritic hindpaw at various time points (1, 4, 8, 21 days) after induction of monoarthritis. Compared to normal rats, c-Fos expression following ipsilateral noxious thermal stimulation of monoarthritic rats was strongly modified in the deep laminae of the dorsal horn depending on the time course of inflammation. At 1 day of monoarthritis, an enhanced ipsilateral expression (135% and 208% of normal rats in laminae III-VI and VII, respectively) and at 3 weeks a reduced expression (38% and 23% of normal rats in laminae III-VI and VII, respectively) was detected. The amount of c-Fos-positive neurons in the ipsilateral superficial laminae I and II was unchanged at all time points investigated. To assess excitability changes on the contralateral side at an early stage of inflammation, a group of monoarthritic rats received a contralateral noxious stimulus at day 1 of monoarthritis. This resulted in a potentiated expression of c-Fos ipsilateral to the acute noxious stimulus (i.e., contralateral to the monoarthritic hindpaw) restricted to lamina II (137% of normal rats) of the dorsal horn. The data showed that changes in c-Fos expression depended on the time point of noxious heat stimulation (NHS) of monoarthritic rats, and differed in the ipsi- and contralateral side of the spinal cord. In addition to a possible habituation of c-Fos expression, it may be speculated that the time course-dependent changes reflect laminae-specific modulations of excitatory and inhibitory mechanisms during monoarthritis. Further studies are necessary in order to provide more insights into the contribution of these mechanisms on noxious stimulus-evoked c-Fos expression.

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