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W2024049900 endingPage "112" @default.
W2024049900 startingPage "93" @default.
W2024049900 abstract "Deep layers of the superior colliculus, the dorsal periaqueductal gray matter and the inferior colliculus are midbrain structures involved in the generation of defensive behavior and fear-induced anti-nociception. Local injections of the GABA(A) antagonist bicuculline into these structures have been used to produce this defense reaction. Serotonin is thought to be the main neurotransmitter to modulate such defense reaction in mammals. This study is the first attempt to employ immunohistochemical techniques to locate serotonergic cells in the same midbrain sites from where defense reaction is evoked by chemical stimulation with bicuculline. The blockade of GABA(A) receptors in the neural substrates of the dorsal mesencephalon was followed by vigorous defensive reactions and increased nociceptive thresholds. Light microscopy immunocytochemistry with streptavidin method was used for the localization of the putative cells of defensive behavior with antibodies to serotonin in the rat's midbrain. Neurons positive to serotonin were found in the midbrain sites where defensive reactions were evoked by microinjection of bicuculline. Serotonin was localized to somata and projections of the neural networks of the mesencephalic tectum. Immunohistochemical studies showed that the sites in which neuronal perikarya positive to serotonin were identified in intermediate and deep layers of the superior colliculus, and in the dorsal and ventral columns of the periaqueductal gray matter are the same which were activated during the generation of defense behaviors, such as alertness, freezing, and escape reactions, induced by bicuculline. These findings support the contention that serotonin and GABAergic neurons may act in concert in the modulation of defense reaction in the midbrain tectum. Our neuroanatomical findings indicate a direct neural pathway connecting the dorsal midbrain and monoaminergic nuclei of the descending pain inhibitory system, with profuse synaptic terminals mainly in the pontine reticular formation, gigantocellularis nucleus, and nucleus raphe magnus. The midbrain tectum-gigantocellularis complex and midbrain tectum-nucleus raphe magnus neural pathways may provide an alternative output allowing the organization of the fear-induced anti-nociception by mesencephalic networks." @default.
W2024049900 created "2016-06-24" @default.
W2024049900 creator A5031469258 @default.
W2024049900 creator A5040729134 @default.
W2024049900 creator A5041237524 @default.
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W2024049900 creator A5053612870 @default.
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W2024049900 creator A5070055370 @default.
W2024049900 creator A5078885951 @default.
W2024049900 creator A5081827026 @default.
W2024049900 creator A5088560354 @default.
W2024049900 creator A5089299614 @default.
W2024049900 date "2006-01-01" @default.
W2024049900 modified "2023-10-18" @default.
W2024049900 title "Neuroanatomical approaches of the tectum-reticular pathways and immunohistochemical evidence for serotonin-positive perikarya on neuronal substrates of the superior colliculus and periaqueductal gray matter involved in the elaboration of the defensive behavior and fear-induced analgesia" @default.
W2024049900 cites W1517523921 @default.
W2024049900 cites W173408077 @default.
W2024049900 cites W1965955906 @default.
W2024049900 cites W1967467728 @default.
W2024049900 cites W1971512611 @default.
W2024049900 cites W1971976715 @default.
W2024049900 cites W1976747637 @default.
W2024049900 cites W1981611014 @default.
W2024049900 cites W1981975220 @default.
W2024049900 cites W1983857647 @default.
W2024049900 cites W1984850745 @default.
W2024049900 cites W1985673941 @default.
W2024049900 cites W1986649865 @default.
W2024049900 cites W1989364630 @default.
W2024049900 cites W1990141695 @default.
W2024049900 cites W1990994983 @default.
W2024049900 cites W1991064173 @default.
W2024049900 cites W1999444655 @default.
W2024049900 cites W1999976094 @default.
W2024049900 cites W2002768403 @default.
W2024049900 cites W2002825149 @default.
W2024049900 cites W2003317415 @default.
W2024049900 cites W2005189484 @default.
W2024049900 cites W2005568213 @default.
W2024049900 cites W2005730675 @default.
W2024049900 cites W2007275916 @default.
W2024049900 cites W2011645297 @default.
W2024049900 cites W2014168974 @default.
W2024049900 cites W2015780545 @default.
W2024049900 cites W2016735880 @default.
W2024049900 cites W2017685190 @default.
W2024049900 cites W2017726430 @default.
W2024049900 cites W2017877722 @default.
W2024049900 cites W2020460680 @default.
W2024049900 cites W2021213557 @default.
W2024049900 cites W2022369144 @default.
W2024049900 cites W2022443216 @default.
W2024049900 cites W2023087007 @default.
W2024049900 cites W2024205546 @default.
W2024049900 cites W2027112183 @default.
W2024049900 cites W2030390905 @default.
W2024049900 cites W2031849235 @default.
W2024049900 cites W2032644802 @default.
W2024049900 cites W2034022670 @default.
W2024049900 cites W2034907976 @default.
W2024049900 cites W2043440058 @default.
W2024049900 cites W2046188669 @default.
W2024049900 cites W2046625964 @default.
W2024049900 cites W2049872402 @default.
W2024049900 cites W2052194146 @default.
W2024049900 cites W2055931063 @default.
W2024049900 cites W2059818152 @default.
W2024049900 cites W2061447140 @default.
W2024049900 cites W2062512724 @default.
W2024049900 cites W2066416719 @default.
W2024049900 cites W2066519043 @default.
W2024049900 cites W2066769755 @default.
W2024049900 cites W2067304017 @default.
W2024049900 cites W2068237121 @default.
W2024049900 cites W2071509625 @default.
W2024049900 cites W2074725453 @default.
W2024049900 cites W2075100592 @default.
W2024049900 cites W2083142828 @default.
W2024049900 cites W2083144839 @default.
W2024049900 cites W2083825353 @default.
W2024049900 cites W2086663356 @default.
W2024049900 cites W2087000988 @default.
W2024049900 cites W2087305507 @default.
W2024049900 cites W2089033390 @default.
W2024049900 cites W2090279844 @default.
W2024049900 cites W2091039307 @default.
W2024049900 cites W2091263429 @default.
W2024049900 cites W2094309714 @default.
W2024049900 cites W2102290181 @default.
W2024049900 cites W2134331909 @default.
W2024049900 cites W2135974821 @default.
W2024049900 cites W2138512124 @default.
W2024049900 cites W2155667685 @default.
W2024049900 cites W2411586951 @default.
W2024049900 cites W2434808104 @default.
W2024049900 cites W935051666 @default.
W2024049900 doi "https://doi.org/10.1016/j.expneurol.2005.08.022" @default.