The Journal of neuroscience : the official journal of the Society for Neuroscience
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Increased c-fos expression in spinal neurons after irritation of the lower urinary tract in the rat.
This study utilized neuronal c-fos expression to examine the spinal pathways involved in processing nociceptive and non-nociceptive afferent input from the lower urinary tract (LUT) of the urethane-anesthetized rat. C-fos protein was detected immunocytochemically in only a small number of cells (< 2 cells/L6 section) in control animals. However, chemical irritation with 1% acetic acid or mechanical stimulation of the LUT markedly increased the number of c-fos-positive neurons (56-180 cells/L6 section) in four regions of the caudal lumbosacral (L6-S1) spinal cord: medial dorsal horn (MDH), lateral dorsal horn, dorsal commissure (DCM), and sacral parasympathetic nucleus (SPN). ⋯ These results suggest that neurons in several regions of the spinal cord are involved in processing afferent input from different parts of the LUT. Neurons in the DCM appear to have an important role since they respond to both nociceptive and non-nociceptive inputs and to visceral (pelvic nerve) and somatic (pudendal nerve) afferent pathways. Thus, these neurons may be involved in the mechanisms of visceral-somatic referred pain.
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Kainic acid, an analog of the excitatory amino acid L-glutamate, induces acute hyperexcitability and permanent structural alterations in the hippocampal formation of the adult rat. Administration of kainic acid is followed by acute seizures in hippocampal pathways, neuronal loss in CA3 and the hilus of the dentate gyrus, and reorganization of the synaptic connections of the mossy fiber pathway. Rats with these hippocampal structural alterations have increased susceptibility to kindling. ⋯ Brief treatment with phenobarbital modified the pattern of damage and synaptic reorganization in the dentate gyrus in response to seizure-induced injury, and altered the long-lasting functional effects associated with hippocampal damage. As phenobarbital treatment did not protect against neuronal damage in CA3 or other regions of the hippocampus, the circuitry of the dentate gyrus was implicated as a locus of cellular alterations that influenced the development of kindling. These observations are evidence that pharmacological intervention can prevent the development of epilepsy in association with acquired structural lesions, and suggest that pharmacological modification of cellular responses to injury can favorably alter long-term functional effects of CNS damage.
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The ventral posterior lateral nucleus (VPL) of the monkey thalamus was investigated by histochemical staining for cytochrome oxidase (CO) activity and by immunocytochemical staining for the calcium-binding proteins parvalbumin and 28 kDa calbindin. Anterograde and retrograde tracing experiments were used to correlate patterns of differential distribution of CO activity and of parvalbumin and calbindin cells with the terminations of spinothalamic tract fibers and with the types of cells projecting differentially to superficial and deeper layers of primary somatosensory cortex (SI). VPL is composed of CO-rich and CO-weak compartments. ⋯ The compartmental organization of VPL is similar to but less rigid than that previously reported in VPM. VPL and VPM relay cells projecting to different layers of SI cortex can be distinguished by differential immunoreactivity for the two calcium-binding proteins. The small-celled, CO-weak, calbindin-positive zones of VPL and VPM appear to form part of a wider system of smaller thalamic neurons unconstrained by traditional nuclear boundaries that are preferentially the targets of spinothalamic and caudal trigeminal inputs, and that may have preferential access to layer I of SI.
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It has long been hypothesized that changes in dendritic spine structure may modify the physiological properties of synapses located on them. Due to their small size, large number, and highly variable shapes, standard light microscopy of Golgi impregnations and electron microscopy (EM) of single thin sections have not proved adequate to identify most spines in a sample or to quantify their structural dimensions and composition. Here we describe a new approach, the series sample, that was developed to classify by shape and subcellular composition all of the spines and synapses in a sample of neuropil by viewing them through serial EM sections. ⋯ In addition, LTP is not likely to be mediated by widening of spine necks at either age. However, the constricted spine necks could serve to concentrate specific molecules at activated synapses, thereby enhancing the specificity and endurance of LTP with maturation. These results demonstrate that the new series sample method combined with three-dimensional reconstruction reveals quantitative changes in the frequency and structure of spines and synapses that are not discernable by other methods and are likely to have dramatic effects on synaptic physiology and plasticity.
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TTX-sensitive (TTX-S) and TTX-resistant (TTX-R) sodium channel currents were analyzed in acutely dissociated dorsal root ganglion (DRG) neurons isolated from 3-12-d-old and adult rats. Currents were recorded using the whole-cell patch-clamp technique. TTX-R current was more likely to be present in younger animals (3-7 d), whereas TTX-S current was more common in older animals (7-10 d), although TTX-R current was recorded from adult rat DRG neurons. ⋯ The Kd values for TTX-S and TTX-R currents were estimated to be 0.3 nM and 100 microM for TTX, 0.5 nM and 10 microM for saxitoxin, and 50 microM and 200 microM for lidocaine, respectively. TTX-S channels did not exhibit a marked use-dependent block by lidocaine, whereas lidocaine significantly decreased TTX-R current in a use-dependent manner at frequencies ranging from 1 to 33.3 Hz. Several external divalent cations exerted different effects on these current types.(ABSTRACT TRUNCATED AT 250 WORDS)