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W2029802258 endingPage "966" @default.
W2029802258 startingPage "945" @default.
W2029802258 abstract "Neostriatal GABAergic neurons projecting to the globus pallidus synthesize the opioid peptide enkephalin, while those innervating the substantia nigra pars reticulata and the entopeduncular nucleus synthesize dynorphin. The differential control exerted by dopamine on the activity of these two efferent projections concerns also the biosynthesis of these opioid peptides. Using in situ hybridization histochemistry, we investigated the role of opioid co-transmission in the regulation of neostriatal and pallidal activity. The expression of the messenger RNAs encoding glutamate decarboxylase-the biosynthetic enzyme of GABA-and the precursor peptides of enkephalin (preproenkephalin) and dynorphin (preprodynorphin) were measured in rats after a sustained blockade of opioid receptors by naloxone (s.c. implanted osmotic minipump, eight days, 3 mg/kg per h), and/or a subchronic blockade of D2 dopamine receptors by haloperidol (one week, 1.25 mg/kg s.c. twice a day). The density of mu opioid receptors in the neostriatum and globus pallidus was determined by autoradiography. Naloxone treatment resulted in a strong up-regulation of neostriatal and pallidal mu opioid receptors that was not affected by the concurrent administration of haloperidol. Haloperidol alone produced a moderate down-regulation of neostriatal and pallidal micro opioid receptors. Haloperidol strongly stimulated the expression of neostriatal preproenkephalin and preprodynorphin messenger RNAs. This effect was partially attenuated by naloxone, which alone produced moderate increases in preproenkephalin and preprodynorphin messenger RNA levels. In the neostriatum, naloxone did not affect either basal or haloperidol-stimulated glutamate decarboxylase messenger RNA expression. A strong reduction of glutamate decarboxylase messenger RNA expression was detected over pallidal neurons following either naloxone or haloperidol treatment, but concurrent administration of the two antagonists did not result in a further decrease. The amplitude of the variations of mu opioid receptor density and of preproenkephalin and preprodynorphin messenger RNA levels suggests that the regulation of neostriatal and pallidal micro opioid receptors is more susceptible to a direct opioid antagonism, while the biosynthesis of opioid peptides in the neostriatum is more dependent on the dopaminergic transmission. The down-regulation of mu opioid receptors following haloperidol represents probably an adaptive change to increased enkephalin biosynthesis and release. The haloperidol-induced increase in neostriatal preprodynorphin messenger RNA expression might result from an indirect, intermittent stimulation of neostriatal D1 receptors. The haloperidol-induced decrease of pallidal glutamate decarboxylase messenger RNA expression suggests, in keeping with the current functional model of the basal ganglia, that the activation of the striatopallidal projection produced by the interruption of neostriatal dopaminergic transmission reduces the GABAergic output of the globus pallidus. The reduction of pallidal glutamate decarboxylase messenger RNA expression following opioid receptor blockade indicates an indirect, excitatory influence of enkephalin upon globus pallidus neurons and, consequently, a functional antagonism between the two neuroactive substances (GABA and enkephalin) of the striatopallidal projection in the control of globus pallidus output. Through this antagonism enkephalin could partly attenuate the GABA-mediated effects of a dopaminergic denervation on pallidal neuronal activity." @default.
W2029802258 created "2016-06-24" @default.
W2029802258 creator A5016420782 @default.
W2029802258 creator A5090757393 @default.
W2029802258 date "1999-06-01" @default.
W2029802258 modified "2023-09-25" @default.
W2029802258 title "Dopamine–opiate interaction in the regulation of neostriatal and pallidal neuronal activity as assessed by opioid precursor peptides and glutamate decarboxylase messenger RNA expression" @default.
W2029802258 cites W1508373794 @default.
W2029802258 cites W1526420193 @default.
W2029802258 cites W1637481752 @default.
W2029802258 cites W1857277871 @default.
W2029802258 cites W1917378969 @default.
W2029802258 cites W1964788987 @default.
W2029802258 cites W1965052116 @default.
W2029802258 cites W1966350110 @default.
W2029802258 cites W1966552572 @default.
W2029802258 cites W1968346138 @default.
W2029802258 cites W1970486261 @default.
W2029802258 cites W1975814998 @default.
W2029802258 cites W1978572562 @default.
W2029802258 cites W1979547579 @default.
W2029802258 cites W1980452368 @default.
W2029802258 cites W1982470639 @default.
W2029802258 cites W1985841554 @default.
W2029802258 cites W1985968601 @default.
W2029802258 cites W1986075380 @default.
W2029802258 cites W1989844175 @default.
W2029802258 cites W1992612222 @default.
W2029802258 cites W1994210843 @default.
W2029802258 cites W1995569220 @default.
W2029802258 cites W2001058385 @default.
W2029802258 cites W2001062600 @default.
W2029802258 cites W2004983430 @default.
W2029802258 cites W2006219901 @default.
W2029802258 cites W2006532153 @default.
W2029802258 cites W2007773342 @default.
W2029802258 cites W2011100195 @default.
W2029802258 cites W2013165553 @default.
W2029802258 cites W2014225888 @default.
W2029802258 cites W2017860510 @default.
W2029802258 cites W2018212332 @default.
W2029802258 cites W2021407972 @default.
W2029802258 cites W2022233762 @default.
W2029802258 cites W2024124362 @default.
W2029802258 cites W2027094797 @default.
W2029802258 cites W2028050703 @default.
W2029802258 cites W2028864767 @default.
W2029802258 cites W2028921951 @default.
W2029802258 cites W2032116138 @default.
W2029802258 cites W2035162334 @default.
W2029802258 cites W2037373352 @default.
W2029802258 cites W2040925146 @default.
W2029802258 cites W2041291312 @default.
W2029802258 cites W2042824819 @default.
W2029802258 cites W2044066882 @default.
W2029802258 cites W2049647535 @default.
W2029802258 cites W2049854645 @default.
W2029802258 cites W2050505239 @default.
W2029802258 cites W2051256270 @default.
W2029802258 cites W2051979328 @default.
W2029802258 cites W2052561166 @default.
W2029802258 cites W2054499859 @default.
W2029802258 cites W2058584786 @default.
W2029802258 cites W2060588252 @default.
W2029802258 cites W2062480196 @default.
W2029802258 cites W2063535857 @default.
W2029802258 cites W2067375479 @default.
W2029802258 cites W2069626472 @default.
W2029802258 cites W2071231903 @default.
W2029802258 cites W2073945959 @default.
W2029802258 cites W2074402500 @default.
W2029802258 cites W2074616189 @default.
W2029802258 cites W2075021671 @default.
W2029802258 cites W2077230174 @default.
W2029802258 cites W2078191693 @default.
W2029802258 cites W2079416717 @default.
W2029802258 cites W2080357105 @default.
W2029802258 cites W2081111382 @default.
W2029802258 cites W2082044328 @default.
W2029802258 cites W2084331181 @default.
W2029802258 cites W2084398311 @default.
W2029802258 cites W2084913220 @default.
W2029802258 cites W2086638667 @default.
W2029802258 cites W2087156861 @default.
W2029802258 cites W2088614886 @default.
W2029802258 cites W2089320753 @default.
W2029802258 cites W2091330110 @default.
W2029802258 cites W2100781569 @default.
W2029802258 cites W2103791427 @default.
W2029802258 cites W2112087382 @default.
W2029802258 cites W2117593813 @default.
W2029802258 cites W2128464706 @default.
W2029802258 cites W2159082363 @default.
W2029802258 cites W2168823834 @default.
W2029802258 cites W2169393848 @default.
W2029802258 cites W2169863475 @default.
W2029802258 cites W2291884353 @default.
W2029802258 cites W4300493309 @default.