Polyhalogenated and Perfluorinated Compounds that Disobey the Meyer-Overton Hypothesis

Koblin, Donald D.; Chortkoff, Ben S.; Laster, Michael J.; Eger, Edmond I.; Halsey, Michael J.; Ionescu, Pompiliu

doi:10.1213/00000539-199412000-00004

Cited by 216 publications

(141 citation statements)

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“…... , 100- Figure 4a illustrates the effects on homomeric glycine receptor of two novel halogenated compounds: 1-chloro-1,2,2-trifluorocyclobutane (F3) and 1,2-dichlorohexafluorocyclobutane (F6). Both compounds have a high lipid solubility, and the Meyer-Overton rule predicts that both should act as anaesthetics in vivo (Meyer, 1899;Overton, 1901;Koblin et al, 1994). However, only F3 is an anaesthetic and a comparison of the effects of these compounds may be useful in testing candidate sites of anaesthetic action (Mihic et al, 1994).…”

Section: Resultsmentioning

confidence: 99%

“…To define better the actions of alcohols and anaesthetics on glycine receptors, we tested a series of n-alcohols, including long-chain alcohols that produce anaesthesia in vivo and show a 'cut-off' for effects on ligand-gated ion channels (Dildy-Mayfield et al, 1996). We also tested several clinically useful anaesthetics as well as two novel compounds which are structurally related, but only one of which produces anaesthesia (Koblin et al, 1994;Mihic et al, 1994). In order to examine the actions of different alcohols and anaesthetics in both al and a 2 glycine receptors, we used the Xenopus oocyte expression system.…”

Section: Introductionmentioning

confidence: 99%

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Enhancement of homomeric glycine receptor function by longchain alcohols and anaesthetics

Mascia

Machu

Harris

1996

British J Pharmacology

191

165

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1 The effects of n-alcohols (ethanol to dodecanol) and anaesthetics on strychnine-sensitive glycine receptors were studied in Xenopus oocytes expressing homomeric al or a2 glycine receptor subunits, with the two electrode voltage-clamp recording technique. 2 The glycine-induced chloride conductance of homomeric a glycine receptors was potentiated by all the alcohols tested when an EC2 concentration of glycine was used. Homomeric al and a2 receptors were potentiated similarly by the n-alcohols, except that low concentrations of ethanol produced greater potentiation with acl, as previously reported. 3 Increasing the n-alcohol carbon number has been shown to increase the potency of the alcohols up to decanol at concentrations corresponding to ECsos for producing loss of righting reflex in tadpoles.However, dodecanol was no more potent than decanol, and only modest potentiation (30-60%) was obtained with dodecanol, in contrast to marked (150-200%) potentiation with the other alcohols. Thus, a 'cut-off' occurred at about dodecanol. 4 Propofol, alphaxalone, pentobarbitone, halothane and enflurane, reversibly potentiated the function of homomeric al glycine receptors at concentrations which represent approximately twice the EC50 for production of anaesthesia in mammals, but ketamine and etomidate were ineffective. 5 Two novel cyclobutane compounds were tested; the anaesthetic compound (1-chloro-1,2,2-trifluorocyclobutane) from 0.5 to 5 mm potentiated the action of glycine in a concentration-dependent manner; however, the non-anaesthetic analogue (1,2-dichloro-hexfluorocyclobutane) had no effect on glycine receptor function at concentrations (25 to 80 YM) predicted to be anaesthetic, based on the lipid solubility of this compound. 6 These results suggest that the a subunits of strychnine-sensitive glycine receptors contain sites of action for n-alcohols, propofol, alphaxalone, pentobarbitone and volatile anaesthetics, but not for ketamine and etomidate. Potentiation of glycine receptor function may contribute to the anaesthetic action of n-alcohols and volatile agents.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Enhancement of homomeric glycine receptor function by longchain alcohols and anaesthetics

Mascia

Machu

Harris

1996

British J Pharmacology

191

165

View full text Add to dashboard Cite

show abstract

“…Also, a cutoff effect was evident when a homologous series of n-alkanols (or n-alkanes) was tested with increasing anesthetic activity being observed up to a discrete alcohol size after which it disappeared even though the larger ineffective molecules were highly lipophilic (16). Finally, compounds that possess high lipid solubility and fail to display anesthetic activity regardless of their size have been described in obvious discordance with the central tenet of the lipid theory (28).…”

Section: Discussionmentioning

confidence: 99%

The Size of the Unbranched Aliphatic Chain Determines the Immunomodulatory Potency of Short and Long Chain n-Alkanols

Carignan

Désy

Ghani

et al. 2013

Journal of Biological Chemistry

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Background: Aliphatic n-alkanols have multiple biological effects not yet completely characterized. Results: n-Alkanols are immunomodulators that act downstream of the cell membrane by dysregulating the activation of the NFAT and NF-B transcription factors. Conclusion: There is a correlation between the immunomodulatory capacity of the homologous series of n-alkanols and the size of the aliphatic chain/hydrophobicity. Significance: This work contributes to the understanding of the biological activity of ubiquitous n-alkanols.

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“…The traditional dogma used to explain the mechanisms of action of volatile anesthetics has been that these compounds act 'non-specifically', perhaps by perturbing the properties of membrane lipids (reviewed by Franks and Lieb, 1994). However, research within the last several decades has demonstrated numerous inconsistencies between experimental observations and non-specific theories of general anesthesia (Franks and Lieb, 1994;Koblin et al, 1994;Krasowski and Harrison, 1999). A major problem with the non-specific theories is that some chemical compounds predicted to be anesthetics based upon their lipophilicity do not in fact produce anesthesia (Koblin et al, 1994).…”

Section: Introductionmentioning

confidence: 99%

“…However, research within the last several decades has demonstrated numerous inconsistencies between experimental observations and non-specific theories of general anesthesia (Franks and Lieb, 1994;Koblin et al, 1994;Krasowski and Harrison, 1999). A major problem with the non-specific theories is that some chemical compounds predicted to be anesthetics based upon their lipophilicity do not in fact produce anesthesia (Koblin et al, 1994). These compounds, originally called 'nonanesthetics', are now more properly referred to as 'nonimmobilizers'.…”

Section: Introductionmentioning

confidence: 99%

Differential modulatory actions of the volatile convulsant flurothyl and its anesthetic isomer at inhibitory ligand-gated ion channels

Krasowski

2000

Neuropharmacology

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A challenge for theories of general anesthesia is the existence of compounds predicted to be anesthetics but which, instead, do not produce anesthesia and often elicit other behavioral effects such as convulsions. This study focused on flurothyl (bis[2,2,2-trifluoroethyl] ether), a potent volatile convulsant, and its anesthetic isomer, 'iso-flurothyl' (1,1,1,3,3,3-hexafluoro-2-methoxypropane). The effects of flurothyl and iso-flurothyl were studied using the whole-cell patch-clamp technique on agonist activated chloride currents in human GABA A , glycine, and GABA c ρ 1 receptors expressed in HEK 293 cells. GABA A and glycine receptors are promising molecular targets for the actions of inhaled ether general anesthetics. Flurothyl acted as a non-competitive antagonist at GABA A α 2 β 1 and α 2 β 1 γ 2s receptors, but had no effect at glycine α 1 receptors. Flurothyl had biphasic actions on GABA responses at GABA C ρ 1 receptors. In contrast, iso-flurothyl enhanced ('potentiated') submaximal agonist responses at GABA A and glycine receptors, but had no effect on GABA responses at GABA C ρ 1 receptors. Point mutations in GABA A and glycine receptor subunits, which have been previously shown to abolish potentiation of agonist responses by the ether anesthetics enflurane and isoflurane, also ablated potentiation of agonist responses by iso-flurothyl. These same mutations in the GABA A receptor had only modest effects on the inhibitory actions of flurothyl. GABA A receptors with mutations conferring insensitivity to antagonism by picrotoxin were still inhibited by flurothyl, suggesting that picrotoxin and flurothyl antagonize GABA responses by distinct sites or mechanisms of action. In summary, antagonism of GABA A receptors is likely to account for the convulsant effects of flurothyl, while the general anesthetic actions of iso-flurothyl, like those of other ether anesthetics, may be related to positive modulation of GABA A and/or glycine receptors.

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Polyhalogenated and Perfluorinated Compounds that Disobey the Meyer-Overton Hypothesis

Cited by 216 publications

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Enhancement of homomeric glycine receptor function by longchain alcohols and anaesthetics

Enhancement of homomeric glycine receptor function by longchain alcohols and anaesthetics

The Size of the Unbranched Aliphatic Chain Determines the Immunomodulatory Potency of Short and Long Chain n-Alkanols

Differential modulatory actions of the volatile convulsant flurothyl and its anesthetic isomer at inhibitory ligand-gated ion channels

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