Abstract

The Meyer-Overton hypothesis states that lipophilicity determines the potency of an inhaled anesthetic, and that the product of some index of potency (e.g., MAC, the minimum alveolar concentration of anesthetic that abolishes movement in response to a noxious stimulus in 50% of animals) and lipophilicity (e.g., the oil/gas partition coefficient) equals a constant. For the past century, this hypothesis has provided a basis for several theories of narcosis. Results from our preliminary studies indicate that the historical form of the hypothesis is no longer tenable. We have discovered inhalational compounds that are not anesthetics (non- anesthetics) despite oil/gas partition coefficients that indicate that they should provide anesthesia, and compounds that are less potent than would be predicted from their lipophilicity (transitional compounds). At the other extreme, we find alkanols that are more potent that would be predicted by Meyer and Overton. Our hypothesis is that anesthesia as defined by MAC is determined by a combination of lipophilicity and hydrophilicity, and that no single representation of the site of anesthetic action (e.g., olive oil or n- octanol) can predict anesthetic potency. We base this on our results that show that non-anesthetics have an extraordinarily low affinity for water (a low saline/gas partition coefficient), transitional compounds have a higher affinity (but lower than that found for conventional anesthetics), while alkanols have an extraordinarily high affinity. We propose to confirm these findings and develop a select pool of non- anesthetics, transitional compounds, and anesthetics in each of specific haloalkane, halocycloalkane and haloether series. Each series plus the alkanol series will be used by all investigators in this Program project to test the relevance of a putative site of anesthetic action. A relevant site would not be affected by non-anesthetics, but should be affected by transitional and anesthetic compounds in proportion to their anesthetic potency. We also will use the non-anesthetics to explore differences in sites and mechanisms that control two other important aspects of anesthesia: central nervous system excitation, and depression of ventilation.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Program Projects (P01)
Project #
1P01GM047818-04S1
Application #
2781123
Study Section
Project Start
Project End
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
4
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
University of California San Francisco
Department
Type
DUNS #
073133571
City
San Francisco
State
CA
Country
United States
Zip Code
94143

  Publications

Cai, Xiaoyun; Huang, Huizhen; Kuzirian, Marissa S et al. (2016) Generation of a KOR-Cre knockin mouse strain to study cells involved in kappa opioid signaling. Genesis 54:29-37
Zarnowska, E D; Rodgers, F C; Oh, I et al. (2015) Etomidate blocks LTP and impairs learning but does not enhance tonic inhibition in mice carrying the N265M point mutation in the beta3 subunit of the GABA(A) receptor. Neuropharmacology 93:171-178
Burkat, Paul M; Lor, Chong; Perouansky, Misha et al. (2014) Enhancement of ?5-containing ?-aminobutyric acid type A receptors by the nonimmobilizer 1,2-dichlorohexafluorocyclobutane (F6) is abolished by the ?3(N265M) mutation. Anesth Analg 119:1277-84
Iyer, Sangeetha V; Chandra, Dave; Homanics, Gregg E (2014) GABAA-R ?4 subunits are required for the low dose locomotor stimulatory effect of alphaxalone, but not for several other behavioral responses to alphaxalone, etomidate or propofol. Neurochem Res 39:1048-56
Blednov, Yuri A; Benavidez, Jill M; Homanics, Gregg E et al. (2012) Behavioral characterization of knockin mice with mutations M287L and Q266I in the glycine receptor ?1 subunit. J Pharmacol Exp Ther 340:317-29
Borghese, Cecilia M; Blednov, Yuri A; Quan, Yu et al. (2012) Characterization of two mutations, M287L and Q266I, in the ?1 glycine receptor subunit that modify sensitivity to alcohols. J Pharmacol Exp Ther 340:304-16
Pearce, R A; Duscher, P; Van Dyke, K et al. (2012) Isoflurane impairs odour discrimination learning in rats: differential effects on short- and long-term memory. Br J Anaesth 108:630-7
Werner, D F; Swihart, A; Rau, V et al. (2011) Inhaled anesthetic responses of recombinant receptors and knockin mice harboring ?2(S270H/L277A) GABA(A) receptor subunits that are resistant to isoflurane. J Pharmacol Exp Ther 336:134-44
Chang, Ki-Young; Park, Young-Gyun; Park, Hye-Yeon et al. (2011) Lack of CaV3.1 channels causes severe motor coordination defects and an age-dependent cerebellar atrophy in a genetic model of essential tremor. Biochem Biophys Res Commun 410:19-23
Harris, R A; Osterndorff-Kahanek, E; Ponomarev, I et al. (2011) Testing the silence of mutations: Transcriptomic and behavioral studies of GABA(A) receptor ýý1 and ýý2 subunit knock-in mice. Neurosci Lett 488:31-5

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