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  • Title: GABA, GABA receptors and benzodiazepine receptors in the human spinal cord: an autoradiographic and immunohistochemical study at the light and electron microscopic levels.
    Author: Waldvogel HJ, Faull RL, Jansen KL, Dragunow M, Richards JG, Mohler H, Streit P.
    Journal: Neuroscience; 1990; 39(2):361-85. PubMed ID: 1965016.
    Abstract:
    The regional, cellular and subcellular distribution of GABA, GABA receptors and benzodiazepine receptors was investigated by light and electron microscopy in the human lumbar spinal cord taken post-mortem from eight cases aged 20-76 years. Firstly, the regional distribution of GABA receptors and benzodiazepine receptors was studied using autoradiography following in vitro labelling of cryostat sections with tritiated ligands. This was followed by a detailed study of the cellular and subcellular distribution and localization of GABA and benzodiazepine/GABAA receptors by light and electron microscopy using immunohistochemical techniques with monoclonal antibodies to GABA and to the alpha and beta subunits of the benzodiazepine/GABAA receptor complex. The results showed a close correspondence in the regional distributions of GABA, GABA (GABAA and GABAB) receptors and benzodiazepine receptors. The highest density of GABA-like immunoreactivity, GABA receptors and benzodiazepine receptors was localized as a dense band within lamina II of the dorsal horn (especially inner lamina II) with moderately high densities in laminae I and III. The remaining laminae of the spinal gray matter showed much lower levels of labelling. A close correspondence was also seen in the distribution of GABA-like immunoreactivity and of benzodiazepine/GABAA receptor immunoreactivity at the cellular and subcellular levels. At the cellular level, the greatest number of GABA-immunoreactive cells was found in lamina II; they comprised small, round to oval cells and, on the basis of soma size, shape, orientation and dendromorphology, they corresponded to previously described islet and filamentous cells. Benzodiazepine/GABAA receptor immunoreactivity was also localized on the same cell types in lamina II. At the subcellular level in lamina II, GABA-immunoreactive axon terminals mainly established axodendritic synaptic contacts. Small numbers of GABA-immunoreactive axon terminals appear to form possible axo-axonic contacts in complex synaptic arrays. Benzodiazepine/GABAA receptors were localized within the same types of synaptic complexes in which GABA-immunoreactive axon terminals were found. In these synaptic complexes, benzodiazepine/GABAA receptor immunoreactivity was associated with presynaptic and postsynaptic membranes and on apparent non-synaptic membranes. These results show a high concentration of GABA, GABA receptors and benzodiazepine receptors in lamina II of the dorsal horn of the human spinal cord and suggest a possible role for GABA in spinal sensory functions.
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