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1.
J Neurosci ; 24(1): 248-56, 2004 Jan 07.
Article in English | MEDLINE | ID: mdl-14715957

ABSTRACT

The relay of pain fibers from the spinal and medullary dorsal horn in the thalamus has become a controversial issue. This study analyzed the relationship of fibers arising in lamina I to nuclei in and around the caudal pole of the ventral posterior nuclear complex and especially to a zone of calbindin-dense immunoreactivity (VMpo) identified by some authors as the sole thalamic relay for these fibers. We show that the densest zone of calbindin immunoreactivity is part of a more extensive, calbindin-immunoreactive region that lies well within the medial tip of the ventral posterior medial nucleus (VPM), as delineated by other staining methods, and prove that the use of different anti-calbindin antibodies cannot account for differences in interpretations of the organization of the posterior thalamic region. By combining immunocytochemical staining with anterograde tracing from injections involving lamina I, we demonstrate widespread fiber terminations that are not restricted to the calbindin-rich medial tip of VPM and show that the lamina I arising fibers are not themselves calbindin immunoreactive. This study disproves the existence of VMpo as an independent thalamic pain nucleus or as a specific relay in the ascending pain system.


Subject(s)
Nerve Fibers/chemistry , Posterior Horn Cells/cytology , S100 Calcium Binding Protein G/analysis , Spinothalamic Tracts/chemistry , Ventral Thalamic Nuclei/chemistry , Ventral Thalamic Nuclei/cytology , Afferent Pathways , Animals , Antibody Specificity , Calbindins , Calcium-Binding Proteins/analysis , Immunohistochemistry , Macaca mulatta , Posterior Thalamic Nuclei/chemistry , Posterior Thalamic Nuclei/cytology , S100 Calcium Binding Protein G/immunology , Spinothalamic Tracts/cytology , Thalamic Nuclei/chemistry , Thalamic Nuclei/cytology
3.
Pain ; 97(1-2): 105-15, 2002 May.
Article in English | MEDLINE | ID: mdl-12031784

ABSTRACT

The calbindin-immunoreactivity of spinothalamic (STT) lamina I neurons and their ascending axons was examined in two experiments. In the first experiment, lamina I STT neurons in macaque monkeys were double-labeled for calbindin and for retrogradely transported WGA*HRP following large (n=2) or small (n=1) injections that included the posterior thalamus. Most, but not all (78%) of the contralateral retrogradely labeled lamina I STT cells were positive for calbindin. Calbindin-immunoreactivity was not selectively associated with any particular anatomical type of lamina I STT cell; 82% of the fusiform cells, 78% of the pyramidal cells and 67% of the multipolar cells were double-labeled. In the second experiment, oblique transverse sections from upper cervical spinal segments of three macaque monkeys, one squirrel monkey and five humans were stained for calbindin-immunoreactivity. In each case, a distinct bundle of fibers was densely stained in the middle of the lateral funiculus. This matches the location of anterogradely labeled ascending lamina I axons observed in prior work in cats and monkeys, and it matches the location of the classically described 'lateral spinothalamic tract' in humans. This bundle had variable shape across cases, an observation that might have clinical significance. These findings support the view that lamina I STT neurons are involved in spinal cordotomies that reduce pain, temperature and itch sensations.


Subject(s)
Axons/chemistry , Neurons/chemistry , S100 Calcium Binding Protein G/analysis , Spinothalamic Tracts/cytology , Animals , Antibodies , Calbindins , Cordotomy , Denervation , Humans , Macaca , Molecular Probes , Neurons/ultrastructure , Nociceptors/physiology , S100 Calcium Binding Protein G/immunology , Spinothalamic Tracts/chemistry , Thermoreceptors/physiology , Wheat Germ Agglutinin-Horseradish Peroxidase Conjugate
4.
Brain Res ; 719(1-2): 207-12, 1996 May 06.
Article in English | MEDLINE | ID: mdl-8782883

ABSTRACT

Trigeminothalamic and spinothalamic-tract neurons provided with substance P receptor (SPR) were examined in the rat by SPR immunofluorescence histochemistry combined with Fluoro-Gold (FG) fluorescent retrograde labeling. After FG injection in the thalamic regions, FG-labeled cells with SPR-like immunoreactivity were seen mainly in laminae I and III of the medullary and spinal dorsal horns and lateral spinal nucleus. In these regions, about one-fourth to one-third of FG-labeled cells showed SPR-like immunoreactivity.


Subject(s)
Neurons/chemistry , Pain/physiopathology , Receptors, Neurokinin-1/analysis , Spinothalamic Tracts/chemistry , Stilbamidines , Thalamus/chemistry , Trigeminal Ganglion/chemistry , Afferent Pathways/physiology , Animals , Fluorescent Antibody Technique , Fluorescent Dyes , Histocytochemistry , Male , Rats , Rats, Wistar , Spinothalamic Tracts/cytology , Thalamus/cytology , Trigeminal Ganglion/cytology
5.
Eur J Neurosci ; 7(2): 305-17, 1995 Feb 01.
Article in English | MEDLINE | ID: mdl-7757265

ABSTRACT

The nucleus submedius in the medial thalamus of cats is an important termination site for lamina I trigemino-and spinothalamic tract (TSTT) neurons, many of which are nociceptive-specific, and the nucleus submedius has been proposed to be a dedicated nociceptive substrate involved in the affective aspect of pain. In the present study, the distribution of glutamate was examined by immunocytochemical methods in order to evaluate the possible role of this amino acid as a neurotransmitter in TSTT terminals in the nucleus submedius. TSTT terminals were identified by anterograde transport of horseradish peroxidase and wheatgerm agglutinin-horseradish peroxidase conjugate from the spinal cord or the medullary dorsal horn. Quantitative analysis of immunogold labelling revealed that TSTT terminals contain about twice the tissue average of glutamate-like immunoreactivity. A strong positive correlation was found between the density of synaptic vesicles and the density of gold particles in these terminals, whereas no relationship was seen between these variables in GABAergic presynaptic dendrites. Enrichment of glutamate-like immunoreactivity (approximately 250% of the tissue average) was also observed in terminals of presumed cortical origin. Presynaptic dendrites and neuron cell bodies in the nucleus submedius were found to contain relatively low levels of glutamate-like immunoreactivity, at or below the tissue average. These observations provide evidence that glutamate is a neurotransmitter in lamina I TSTT terminals in the nucleus submedius. The findings also suggest glutamatergic neurotransmission between cortical afferents and nucleus submedius neurons. Glutamate is therefore likely to be an important mediator of nociceptive processing in the medial thalamus.


Subject(s)
Glutamic Acid/analysis , Nerve Endings/chemistry , Spinothalamic Tracts/chemistry , Thalamic Nuclei/chemistry , Trigeminal Nerve/chemistry , Animals , Antibody Specificity , Cats , Immunohistochemistry , Injections , Male
6.
J Neurosci ; 12(10): 4088-111, 1992 Oct.
Article in English | MEDLINE | ID: mdl-1328563

ABSTRACT

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. Cells are generally smaller in the CO-weak compartment. Parvalbumin-immunoreactive cells and parvalbumin-immunoreactive medial lemniscal fiber terminations are confined to the CO-rich compartment. Calbindin-immunoreactive cells are found in both the CO-rich and CO-weak compartments. The CO-weak compartment, containing only calbindin cells, forms isolated zones throughout VPL and expands as a cap covering the posterior surface of the ventral posterior medial nucleus (VPM). Spinothalamic tract terminations tend to be concentrated in the CO-weak compartment, especially in the posterior cap. Other CO-weak, parvalbumin-negative, calbindin-positive nuclei, including the posterior, ventral posterior inferior, and anterior pulvinar and the small-celled matrix of VPM are also associated with concentrations of spinothalamic and caudal trigeminothalamic terminations. Parvalbumin cells are consistently larger than calbindin cells and are retrogradely labeled only after injections of tracers in middle and deep layers of SI. The smaller calbindin cells are the only cells retrogradely labeled after placement of retrograde tracers that primarily involve layer I of SI. 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.


Subject(s)
Cerebral Cortex/chemistry , Parvalbumins/metabolism , S100 Calcium Binding Protein G/metabolism , Spinothalamic Tracts/chemistry , Thalamic Nuclei/chemistry , Animals , Calbindins , Cerebral Cortex/cytology , Electron Transport Complex IV , Histocytochemistry , Macaca fascicularis , Neural Pathways/chemistry , Parvalbumins/analysis , S100 Calcium Binding Protein G/analysis , Spinothalamic Tracts/cytology , Thalamic Nuclei/cytology
7.
J Comp Neurol ; 322(4): 519-27, 1992 Aug 22.
Article in English | MEDLINE | ID: mdl-1357007

ABSTRACT

Glutamate has been shown to excite spinothalamic tract (STT) neurons and has been localized to primary afferent neurons, spinal cord projection neurons, and interneurons in the spinal cord dorsal horn. The likelihood that glutamate-immunoreactive (GLU-IR) terminals directly innervate STT neurons was investigated. For these studies three lamina IV or V STT cells in the lumbar spinal cords of three monkeys (Macaca fascicularis) were identified electrophysiologically and characterized. Two were identified as high threshold neurons and one as a wide dynamic range neuron. Following intracellular injection of the cells with HRP and reaction to give the cells a Golgi-like appearance, the tissues were processed for electron microscopy. Postembedding immunogold methods with antibodies specific for glutamate were used to identify GLU-IR terminals apposing the somata and dendrites of the STT neurons, including dendrites that extended into laminae IV and III. The GLU-IR terminals were numerous and constituted a mean of 46% of the population counted that appose the STT soma and 50% of the profiles apposing the dendrites. Fifty-four percent of the somatic and 50% of the dendritic surface length was contacted by GLU-IR terminals. Most terminals contained round clear vesicles and some contained a variable number of large dense core vesicles. For one of the three cells examined it was determined that 45% of the terminals apposing the soma were GLU-IR and 30% of the terminals were gamma aminobutyric acid-immunoreactive (GABA-IR). In an additional monkey, a lamina I cell retrogradely labeled from the ventral posterolateral nucleus of the thalamus was found to be ensheathed in glial processes.(ABSTRACT TRUNCATED AT 250 WORDS)


Subject(s)
Glutamates/analysis , Macaca fascicularis/metabolism , Nerve Endings/chemistry , Spinothalamic Tracts/chemistry , Synapses/chemistry , Animals , Glutamic Acid , Immunohistochemistry , Pain/physiopathology , gamma-Aminobutyric Acid/analysis
8.
J Comp Neurol ; 322(4): 528-37, 1992 Aug 22.
Article in English | MEDLINE | ID: mdl-1401247

ABSTRACT

Gamma-aminobutyric acid (GABA) is a putative inhibitory neurotransmitter in the vertebrate nervous system. Several lines of evidence suggest that GABA plays an important role in the processing and modulation of sensory input in the spinal cord dorsal horn. In the present study, the relationship between GABA-immunoreactive (GABA-IR) terminals and spinothalamic tract (STT) cells in the monkey lumbar cord was investigated. Physiologically characterized STT cells, one located in lamina V and two located in lateral lamina IV, were intracellularly injected with horseradish peroxidase (HRP). A fourth STT cell, located in lamina I, was retrogradely labeled following injection of HRP into the contralateral thalamus. Immunogold labeling of ultrathin sections through the cell bodies and proximal dendrites of the STT neurons demonstrated that the percentage of the GABA-IR terminals in contact with these profiles was 24.7% and 36%, respectively. The average STT surface length contacted by GABA-IR terminals for cell bodies and proximal dendrites was 18.2% and 26.7%, respectively. For the lamina I cell, 7 out of 35 (20%) of the terminals were GABA-IR and they covered 9.6% of the surface analyzed. These data demonstrate that GABA-IR terminals synapse directly on STT cells, constituting a substantial proportion of the terminal population on these cells. Furthermore, compared to the cell bodies, a greater percentage of the input on the proximal dendrites is GABAergic. These anatomical data are consistent with the findings of a previously published iontophoretic study that demonstrated that GABA can exert a strong inhibitory influence on STT cells. These findings are discussed in relation to GABAergic involvement in tonic and phasic inhibition of STT neurons.


Subject(s)
Macaca fascicularis/metabolism , Nerve Endings/chemistry , Spinothalamic Tracts/chemistry , Synapses/chemistry , gamma-Aminobutyric Acid/analysis , Animals , Immunohistochemistry , Pain/physiopathology , Serotonin/analysis , gamma-Aminobutyric Acid/pharmacology
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