Abstract

In previous work I have demonstrated that brain essential fatty acid deficiency (EFAD) increases the sensitivity of rodents to a variety of volatile anesthetics and decreases their sensitivity to the volatile convulsant fluorothyl. Increased volatile anesthetic sensitivity was specifically reversed by a parenteral supplementation protocol (linoleic acid) that preferentially repleted the arachidonic acid content of cerebral cortical polyphosphoinositides. I propose to study the molecular mechanisms through which EFAD alters anesthetic/convulsant potency, and thus to gain insight into the molecular mechanisms of volatile anesthetic/convulsant action. To reach this goal, I propose three general areas of study: (1) To pursue my preliminary observations by studying the effects of brain EFAD and of volatile anesthetics/convulsants on the neurotransmitter-stimulated generation of phosphoinositide derived chemical second messengers (IP3, diacylglycerol, arachidonate metabolites). (2) To further characterize the model by determining the effects of EFAD on the potency of non-volatile anesthetics and convulsants and (3) To determine if EFAD alters the chemical interaction between anesthetics/convulsants and brain membranes using NMR spectroscopic techniques. The results of these three areas of investigation should provide new insights concerning the relationship(s) between whole animal anesthetic/convulsant effect, neuronal chemical composition and specific biochemical and/or physicochemical effects of anesthetics/convulsants.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM037846-03
Application #
3293674
Study Section
Surgery, Anesthesiology and Trauma Study Section (SAT)
Project Start
1986-12-01
Project End
1991-11-30
Budget Start
1988-12-01
Budget End
1989-11-30
Support Year
3
Fiscal Year
1989
Total Cost
Indirect Cost

  Institution

Name
Washington University
Department
Type
Schools of Medicine
DUNS #
062761671
City
Saint Louis
State
MO
Country
United States
Zip Code
63130

  Publications

Chen, Zi-Wei; Fuchs, Karoline; Sieghart, Werner et al. (2012) Deep amino acid sequencing of native brain GABAA receptors using high-resolution mass spectrometry. Mol Cell Proteomics 11:M111.011445
Wittmer, L L; Hu, Y; Kalkbrenner, M et al. (1996) Enantioselectivity of steroid-induced gamma-aminobutyric acidA receptor modulation and anesthesia. Mol Pharmacol 50:1581-6
Evers, A S; Hossain, M D (1994) Volatile anesthetic effects on inositol trisphosphate-gated intracellular calcium stores in GH3 cells. Adv Pharmacol 31:343-50
Hossain, M D; Evers, A S (1994) Volatile anesthetic-induced efflux of calcium from IP3-gated stores in clonal (GH3) pituitary cells. Anesthesiology 80:1379-89;discussion 27A-28A
Canney, D J; Covey, D F; Evers, A S (1993) Direct observation of a fluorinated anticonvulsant in brain tissue using 19F-NMR techniques. Biochem Pharmacol 45:949-59
Dubois, B W; Cherian, S F; Evers, A S (1993) Volatile anesthetics compete for common binding sites on bovine serum albumin: a 19F-NMR study. Proc Natl Acad Sci U S A 90:6478-82
Dubois, B W; Evers, A S (1992) 19F-NMR spin-spin relaxation (T2) method for characterizing volatile anesthetic binding to proteins. Analysis of isoflurane binding to serum albumin. Biochemistry 31:7069-76
Herrington, J; Stern, R C; Evers, A S et al. (1991) Halothane inhibits two components of calcium current in clonal (GH3) pituitary cells. J Neurosci 11:2226-40
Stern, R C; Herrington, J; Lingle, C J et al. (1991) The action of halothane on stimulus-secretion coupling in clonal (GH3) pituitary cells. J Neurosci 11:2217-25
Stern, R C; Weiss, C I; Steinbach, J H et al. (1989) Isoflurane uptake and elimination are delayed by absorption of anesthetic by the Scimed membrane oxygenator. Anesth Analg 69:657-62

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