FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2057478802> ?p ?o ?g. }

• W2057478802 endingPage "1869" @default.
• W2057478802 startingPage "1859" @default.
• W2057478802 abstract "1 Activation of metabotropic glutamate receptors (mGluRs) in hippocampal CA1 pyramidal neurones leads to a depolarization, an increase in input resistance and a reduction in spike frequency adaptation (or accommodation). At least eight subtypes of mGluR have been identified which have been divided into three groups based on their biochemical, structural and pharmacological properties. It is unclear to which group the mGluRs which mediate these excitatory effects in hippocampal CA1 pyramidal neurones belong. We have attempted to address this question by using intracellular recording to test the effects of a range of mGluR agonists and antagonists, that exhibit different profiles of subtype specificity, on the excitability of CA1 pyramidal neurones in rat hippocampal slices 2 (2S,1′S,2′S)-2-(2′-carboxycyclopropyl)glycine (L-CCG1) caused a reduction in spike frequency adaptation and a depolarization (1–10 mV) associated with an increase in input resistance (10–30%) at concentrations (≥50 μm) that have been shown to activate mGluRs in groups I, II and III. Similar effects were observed with concentrations (50–100 μm) of (1 3 Inhibition of the release of endogenous neurotransmitters through activation of GABAB receptors, by use of 200 μm (±)-baclofen, did not alter the effects of (1S,3R)-ACPD (50-100 μm) (1S,3S)-ACPD (100 μm) or L-CCG1 (100 μm). This suggests that mGluR agonists directly activate CA1 pyramidal neurones. 4 Like these broad spectrum mGluR agonists, the racemic mixture ((SR)-) or resolved (S)-isomer of the selective group I mGluR agonist 3,5-dihydroxyphenylglycine ((SR)-DHPG (50-100 μm) or (S)-DHPG (20-50μm)) caused a reduction in spike frequency adaptation concomitant with postsynaptic depolarization and an increase in input resistance. In contrast, 2S,1′R,2′R,3′R-2-(2′,3′-dicarboxycyclo-propyl)glycine (DCG-IV; 100 μm) and (S)-2-amino-4-phosphonobutanoic acid (L-AP4; 100-500 μm), which selectively activate group II mGluRs and group III mGluRs, respectively, had no effect on the passive membrane properties or spike frequency adaptation of CA1 pyramidal neurones. 5 The mGluR antagonists (+)-α-methyl-4-carboxyphenylglycine ((+)-MCPG; 1000 μm) and (S)-4-carboxyphenylglycine ((S)-4CPG; 1000 μm), which block groups I and II mGluRs and group I mGluRs, respectively, had no effect on membrane potential, input resistance or spike frequency adaptation per se. Both of these antagonists inhibited the postsynaptic effects of (1S,3R)-ACPD (50-100 μm), (1S,3S)-ACPD (30-100 μm) and L-CCG1 (50-100 μm). (+)-MCPG also reversed the effects of (SR)-DHPG (75 μm). (The effect of (S)-4CPG was not tested.) Their action was selective in that both antagonists did not reverse the reduction in spike frequency adaptation induced by carbachol (1 μm) or noradrenaline (10 μm) whereas atropine (10 μm) and propranolol (100 μm) did. 6 From these data it is concluded that the mGluRs in CA1 pyramidal neurones responsible for these excitatory effects are similar to the mGluRs expressed by non-neuronal cells transfected with cDNA encoding group I mGluRs." @default.
• W2057478802 created "2016-06-24" @default.
• W2057478802 creator A5002091267 @default.
• W2057478802 creator A5011841451 @default.
• W2057478802 creator A5018658974 @default.
• W2057478802 creator A5019383039 @default.
• W2057478802 date "1995-09-01" @default.
• W2057478802 modified "2023-10-18" @default.
• W2057478802 title "Pharmacology of postsynaptic metabotropic glutamate receptors in rat hippocampal CA1 pyramidal neurones" @default.
• W2057478802 cites W134400921 @default.
• W2057478802 cites W1509785349 @default.
• W2057478802 cites W1753537936 @default.
• W2057478802 cites W1963950604 @default.
• W2057478802 cites W1965221716 @default.
• W2057478802 cites W1972183007 @default.
• W2057478802 cites W1977098380 @default.
• W2057478802 cites W1979146576 @default.
• W2057478802 cites W1983956991 @default.
• W2057478802 cites W1994768497 @default.
• W2057478802 cites W1995919912 @default.
• W2057478802 cites W1996805443 @default.
• W2057478802 cites W2000756368 @default.
• W2057478802 cites W2000809634 @default.
• W2057478802 cites W2003040206 @default.
• W2057478802 cites W2003058141 @default.
• W2057478802 cites W2006267589 @default.
• W2057478802 cites W2014472421 @default.
• W2057478802 cites W2017637801 @default.
• W2057478802 cites W2032118090 @default.
• W2057478802 cites W2035245157 @default.
• W2057478802 cites W2039817878 @default.
• W2057478802 cites W2043166209 @default.
• W2057478802 cites W2043339467 @default.
• W2057478802 cites W2047593069 @default.
• W2057478802 cites W2050419480 @default.
• W2057478802 cites W2056526260 @default.
• W2057478802 cites W2058075062 @default.
• W2057478802 cites W2058591676 @default.
• W2057478802 cites W2062957466 @default.
• W2057478802 cites W2066479748 @default.
• W2057478802 cites W2067317040 @default.
• W2057478802 cites W2067945898 @default.
• W2057478802 cites W2068761941 @default.
• W2057478802 cites W2074873783 @default.
• W2057478802 cites W2078935283 @default.
• W2057478802 cites W2081234982 @default.
• W2057478802 cites W2086894916 @default.
• W2057478802 cites W2087370791 @default.
• W2057478802 cites W2088301595 @default.
• W2057478802 cites W2091730749 @default.
• W2057478802 cites W2093428018 @default.
• W2057478802 cites W2093963631 @default.
• W2057478802 cites W2097149963 @default.
• W2057478802 cites W2100662386 @default.
• W2057478802 cites W2124303736 @default.
• W2057478802 cites W2149201522 @default.
• W2057478802 cites W2161584310 @default.
• W2057478802 cites W2259214560 @default.
• W2057478802 cites W2341695286 @default.
• W2057478802 cites W2404191901 @default.
• W2057478802 cites W4233987775 @default.
• W2057478802 doi "https://doi.org/10.1111/j.1476-5381.1995.tb16674.x" @default.
• W2057478802 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/1909077" @default.
• W2057478802 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/8528571" @default.
• W2057478802 hasPublicationYear "1995" @default.
• W2057478802 type Work @default.
• W2057478802 sameAs 2057478802 @default.
• W2057478802 citedByCount "97" @default.
• W2057478802 countsByYear W20574788022012 @default.
• W2057478802 countsByYear W20574788022013 @default.
• W2057478802 countsByYear W20574788022015 @default.
• W2057478802 countsByYear W20574788022016 @default.
• W2057478802 countsByYear W20574788022017 @default.
• W2057478802 countsByYear W20574788022018 @default.
• W2057478802 countsByYear W20574788022020 @default.
• W2057478802 countsByYear W20574788022022 @default.
• W2057478802 crossrefType "journal-article" @default.
• W2057478802 hasAuthorship W2057478802A5002091267 @default.
• W2057478802 hasAuthorship W2057478802A5011841451 @default.
• W2057478802 hasAuthorship W2057478802A5018658974 @default.
• W2057478802 hasAuthorship W2057478802A5019383039 @default.
• W2057478802 hasBestOaLocation W20574788022 @default.
• W2057478802 hasConcept C112592302 @default.
• W2057478802 hasConcept C148762608 @default.
• W2057478802 hasConcept C169760540 @default.
• W2057478802 hasConcept C170493617 @default.
• W2057478802 hasConcept C17077164 @default.
• W2057478802 hasConcept C185592680 @default.
• W2057478802 hasConcept C197341189 @default.
• W2057478802 hasConcept C26702167 @default.
• W2057478802 hasConcept C2778938600 @default.
• W2057478802 hasConcept C49051014 @default.
• W2057478802 hasConcept C55493867 @default.
• W2057478802 hasConcept C61174792 @default.
• W2057478802 hasConcept C86803240 @default.
• W2057478802 hasConceptScore W2057478802C112592302 @default.
• W2057478802 hasConceptScore W2057478802C148762608 @default.
• W2057478802 hasConceptScore W2057478802C169760540 @default.

• next