Research Article
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Year 2019, Volume: 11 Issue: 3, 874 - 884, 06.04.2020
https://doi.org/10.37212/jcnos.715215

Abstract

References

  • Baumann SW, Baur R, Sigel E. 2002. Forced Subunit Assembly in α1β2γ2 GABAAReceptors-insight into the absolute arrangement. J. Biol. Chem. 277: 46020–46025.
  • Baumann SW, Baur R, Sigel E. 2001. Subunit arrangement of γ-aminobutyric acid type A receptors. J. Biol. Chem. 276: 36275–36280.
  • Bollan KA, Baur R, Hales TG, Sigel E, Connolly CN. 2008. The promiscuous role of the epsilon subunit in GABA A receptor biogenesis. Mol. Cell. Neurosci. 37: 610–621.
  • Boue-grabot E, Roudbaraki M, Bascles L, Tramu G, Bloch B, Garret M. 1998. Expression of GABA Receptor p Subunits in Rat Brain. J. Neurochem. 70: 899—907.
  • Che Has AT, Absalom N, van Nieuwenhuijzen PS, Clarkson AN, Ahring PK, Chebib M. 2016. Zolpidem is a potent stoichiometry-selective modulator of α1β3 GABA A receptors: Evidence of a novel benzodiazepine site in the α1-α1 interface. Sci. Rep. 6: 1–12.
  • Comenencia-Ortiz E, Moss SJ, Davies PA. 2014. Phosphorylation of GABAAreceptors influences receptor trafficking and neurosteroid actions. Psychopharmacology (Berl). 231: 3453–3465.
  • Davies PA, Hanna MC, Hales TG, Kirkness EF. 1997. Insensitivity to anaesthetic agents conferred by a class of GABAA receptor subunit. Nature. 385: 820–823.
  • Davies PA, Kirkness EF, Hales TG. 2001. Evidence for the formation of functionally distinct αβγε GABAA receptors. J. Physiol. 537: 101–113.
  • Farrant M, Kaila K. 2007. The cellular, molecular and ionic basis of GABAAreceptor signalling. Prog. Brain Res. 160: 59–87.
  • Farrant M, Nusser Z. 2005. Variations on an inhibitory theme: Phasic and tonic activation of GABAAreceptors. Nat. Rev. Neurosci. 6: 215–229.
  • Hedblom E, Kirkness EF. 1997. A Novel Class of GABA A Receptor Subunit in Tissues of the Reproductive System. J. Biol. Chem. 272: 15346–15350.
  • Hosie AM, Dunne EL, Harvey RJ, Smart TG. 2003. Zinc-mediated inhibition of GABA A receptors : discrete binding sites underlie subtype specificity. Nat. Neurosci. 6: 362–369.
  • Irnaten M, Walwyn WM, Wang J, Venkatesan P, Evans C, Chang KS, Andresen MC, Hales TG, Mendelowitz D. 2002. Pentobarbital Enhances GABAergic Neurotransmission to Cardiac Parasympathetic Neurons, Which Is Prevented by Expression of GABAAε Subunit. Anesthesiol. J. Am. Soc. Anesthesiol. 97: 717–724.
  • Jones BL, Henderson LP. 2007. Trafficking and potential assembly patterns of ε -containing GABA A receptors. J. Neurochem. 103: 1258–1271.
  • Jones BL, Whiting PJ, Henderson LP. 2006. Mechanisms of anabolic androgenic steroid inhibition of mammalian ε -subunit-containing GABA A receptors. J. Physiol. 3: 571–593.
  • Jorge JC, McIntyre KL, Henderson LP. 2002. The function and the expression of forebrain GABAA receptors change with hormonal state in the adult mouse. J. Neurobiol. 50: 137–149.
  • Kasparov S, Davies KA, Patel UA, Boscan P, Garret M, Paton JFR. 2001. GABAA receptor ɛ‐subunit may confer benzodiazepine insensitivity to the caudal aspect of the nucleus tractus solitarii of the rat. J. Physiol. 536: 785–796.
  • Kaur KH, Baur R, Sigel E. 2009. Unanticipated structural and functional properties of δ-subunit-containing GABAA receptors. J. Biol. Chem. 284: 7889–7896.
  • Korpi ER, Gründer G, Lüddens H. 2002. Drug interactions at GABA A receptors. Prog. Neurobiol. 67: 113–159.
  • Maksay G, Thompson SA, Wafford KA. 2003. The pharmacology of spontaneously open α1β3ε GABAA receptor–ionophores. Neuropharmacology. 44: 994–1002.
  • McDonald BJ, Amato A, Connolly CN, Benke D, Moss SJ, Smart TG. 1998. Adjacent phosphorylation sites on GABAA receptor β subunits determine regulation by cAMP-dependent protein kinase. Nat. Neurosci. 1: 23–28.
  • Miller PS, Aricescu AR. 2015. Europe PMC Funders Group Crystal structure of a human GABA A receptor. Nature. 512: 270–275.
  • Miller PS, Smart TG. 2010. Binding, activation and modulation of Cys-loop receptors. Trends Pharmacol. Sci. 31: 161–174.
  • Minier F, Sigel E. 2004. Positioning of the α-subunit isoforms confers a functional signature to γ-aminobutyric acid type A receptors. Proc. Natl. Acad. Sci. U. S. A. 101: 7769–7774.
  • Mortensen M, Patel B, Smart TG. 2012. GABA potency at GABAA receptors found in synaptic and extrasynaptic zones. Front. Cell. Neurosci. 6: 1–10.
  • Neelands TR, Fisher JL, Bianchi M, Macdonald RL. 1999. Spontaneous and γ-aminobutyric acid (GABA)-activated GABAA receptor channels formed by ε subunit-containing isoforms. Mol. Pharmacol. 55: 168–178.
  • Olsen RW, Sieghart W. 2009. GABAA Receptors: Subtypes Provide Diversity of Function and Pharmacology. Neuropharmacology. 56: 141–148.
  • Olsen RW, Sieghart W. 2008. International Union of Pharmacology. LXX. Subtypes of -Aminobutyric AcidA Receptors: Classification on the Basis of Subunit Composition, Pharmacology, and Function. Update. Pharmacol. Rev. 60: 243–260.
  • Pirker S, Schwarzer C, Wieselthaler A, Sieghart W, Sperk G. 2000. GABAA receptors: immunocytochemical distribution of 13 subunits in the adult rat brain. Neuroscience. 101: 815–850.
  • Sanna E, Mascia MP, Klein RL, Whiting PJ, Biggio G, Harris RA. 1995. Actions of the General Anesthetic Propofol on Recombinant Human GABAA Receptors : Influence of Receptor. J. Pharmacol. Exp. Ther. 274: 353–360.
  • Sergeeva OA, Andreeva N, Garret M, Scherer A, Haas HL. 2005. Pharmacological Properties of GABAA Receptors in Rat Hypothalamic Neurons Expressing the ϵ-Subunit. J. Neurosci. 25: 88–95.
  • Sigel E, Steinmann ME. 2012. Structure, Function, and Modulation of GABAA Receptors. J. Biol. Chem. 287: 40224–40231.
  • Simon J, Wakimoto H, Fujita N, Lalande M, Barnard EA. 2004. Analysis of the set of GABAAreceptor genes in the human genome. J. Biol. Chem. 279: 41422–41435.
  • Thompson SA, Bonnert TP, Cagetti E, Whiting PJ, Wafford KA. 2002. Overexpression of the GABA A receptor ε subunit results in insensitivity to anaesthetics. Neuropharmacology. 43: 662–668.
  • Thompson S, Bonnert TP, Whiting PJ, Wafford KA. 1998. Functional characteristics of recombinant human GABAA receptors containing the ϵ-subunit. Toxicol. Lett. 100: 233–238.
  • Uusi-oukari M, Korpi ER. 2010. Regulation of GABAA Receptor Subunit Expression by Pharmacological Agents. Pharmacol. Rev. 62: 97–135.
  • Wagner DA, Goldschen-ohm MP, Hales TG, Jones MV. 2005. Kinetics and spontaneous open probability conferred by the ϵ subunit of the GABAA receptor. J. Neurosci. 25: 10462–10468.
  • Wegelius K, Pasternack M, Hiltunen JO, Rivera C, Kaila K, Saarma M, Reeben M. 1998. Distribution of GABA receptor ρ subunit transcripts in the rat brain. Eur. J. Neurosci. 10: 350–357.
  • Whiting PJ, McAllister G, Vassilatis D, Bonnert TP, Heavens RP, Smith DW, Hewson L, O'Donnell R, Rigby MR, Sirinathsinghji DJ, Marshall G, Thompson SA, Wafford KA, Vasilatis D. 1997. Neuronally Restricted RNA Splicing Regulates the Expression of a Novel GABA A Receptor Subunit Conferring Atypical Functional Properties. J. Neurosci. 17: 5027–5037.

The distinctive assembly pattern of ε subunit in ternary α1β3ε and binary β3ε GABAA receptors

Year 2019, Volume: 11 Issue: 3, 874 - 884, 06.04.2020
https://doi.org/10.37212/jcnos.715215

Abstract

Among all GABAA receptor subunits, ε subunit is a more recent discovery. ε subunit-containing GABAA receptors exhibit spontaneous channel activity, rapid desensitisation, low sensitivity to Zn2+, smaller GABAmediated current amplitudes and an insensitivity to benzodiazepines, despite displaying an agonistic effect at higher benzodiazepine concentrations. The promiscuous role of the ε subunit, co-assembling with other subunits forming GABAARs, may add to the complexities of the pharmacological properties of GABAARs; however, these varying pharmacological responses can be used to distinguish varying subunit combinations of these receptors. Using two electrode voltage-clamped electrophysiology, we investigated the GABAA α1β3ε and β3ε receptors and explored the effects of different stoichiometries of these receptor subtypes by varying the relative ratios of α1/β3/ε (for α1β3ε receptors) and β3/ε (for β3ε receptors) subunit complementary RNA injections into Xenopus laevis oocytes. We discovered the existence of different populations of GABAA α1β3ε and β3ε receptors, due to subunit ratio variation, in which receptors formed at each injection ratio showed different level of GABA sensitivities, spontaneous current activities and Zn2+ mediated current inhibition. These unique pharmacological features are tightly associated with various subtypes of GABAA receptors contributed by the unique assembly pattern of ε subunit.

References

  • Baumann SW, Baur R, Sigel E. 2002. Forced Subunit Assembly in α1β2γ2 GABAAReceptors-insight into the absolute arrangement. J. Biol. Chem. 277: 46020–46025.
  • Baumann SW, Baur R, Sigel E. 2001. Subunit arrangement of γ-aminobutyric acid type A receptors. J. Biol. Chem. 276: 36275–36280.
  • Bollan KA, Baur R, Hales TG, Sigel E, Connolly CN. 2008. The promiscuous role of the epsilon subunit in GABA A receptor biogenesis. Mol. Cell. Neurosci. 37: 610–621.
  • Boue-grabot E, Roudbaraki M, Bascles L, Tramu G, Bloch B, Garret M. 1998. Expression of GABA Receptor p Subunits in Rat Brain. J. Neurochem. 70: 899—907.
  • Che Has AT, Absalom N, van Nieuwenhuijzen PS, Clarkson AN, Ahring PK, Chebib M. 2016. Zolpidem is a potent stoichiometry-selective modulator of α1β3 GABA A receptors: Evidence of a novel benzodiazepine site in the α1-α1 interface. Sci. Rep. 6: 1–12.
  • Comenencia-Ortiz E, Moss SJ, Davies PA. 2014. Phosphorylation of GABAAreceptors influences receptor trafficking and neurosteroid actions. Psychopharmacology (Berl). 231: 3453–3465.
  • Davies PA, Hanna MC, Hales TG, Kirkness EF. 1997. Insensitivity to anaesthetic agents conferred by a class of GABAA receptor subunit. Nature. 385: 820–823.
  • Davies PA, Kirkness EF, Hales TG. 2001. Evidence for the formation of functionally distinct αβγε GABAA receptors. J. Physiol. 537: 101–113.
  • Farrant M, Kaila K. 2007. The cellular, molecular and ionic basis of GABAAreceptor signalling. Prog. Brain Res. 160: 59–87.
  • Farrant M, Nusser Z. 2005. Variations on an inhibitory theme: Phasic and tonic activation of GABAAreceptors. Nat. Rev. Neurosci. 6: 215–229.
  • Hedblom E, Kirkness EF. 1997. A Novel Class of GABA A Receptor Subunit in Tissues of the Reproductive System. J. Biol. Chem. 272: 15346–15350.
  • Hosie AM, Dunne EL, Harvey RJ, Smart TG. 2003. Zinc-mediated inhibition of GABA A receptors : discrete binding sites underlie subtype specificity. Nat. Neurosci. 6: 362–369.
  • Irnaten M, Walwyn WM, Wang J, Venkatesan P, Evans C, Chang KS, Andresen MC, Hales TG, Mendelowitz D. 2002. Pentobarbital Enhances GABAergic Neurotransmission to Cardiac Parasympathetic Neurons, Which Is Prevented by Expression of GABAAε Subunit. Anesthesiol. J. Am. Soc. Anesthesiol. 97: 717–724.
  • Jones BL, Henderson LP. 2007. Trafficking and potential assembly patterns of ε -containing GABA A receptors. J. Neurochem. 103: 1258–1271.
  • Jones BL, Whiting PJ, Henderson LP. 2006. Mechanisms of anabolic androgenic steroid inhibition of mammalian ε -subunit-containing GABA A receptors. J. Physiol. 3: 571–593.
  • Jorge JC, McIntyre KL, Henderson LP. 2002. The function and the expression of forebrain GABAA receptors change with hormonal state in the adult mouse. J. Neurobiol. 50: 137–149.
  • Kasparov S, Davies KA, Patel UA, Boscan P, Garret M, Paton JFR. 2001. GABAA receptor ɛ‐subunit may confer benzodiazepine insensitivity to the caudal aspect of the nucleus tractus solitarii of the rat. J. Physiol. 536: 785–796.
  • Kaur KH, Baur R, Sigel E. 2009. Unanticipated structural and functional properties of δ-subunit-containing GABAA receptors. J. Biol. Chem. 284: 7889–7896.
  • Korpi ER, Gründer G, Lüddens H. 2002. Drug interactions at GABA A receptors. Prog. Neurobiol. 67: 113–159.
  • Maksay G, Thompson SA, Wafford KA. 2003. The pharmacology of spontaneously open α1β3ε GABAA receptor–ionophores. Neuropharmacology. 44: 994–1002.
  • McDonald BJ, Amato A, Connolly CN, Benke D, Moss SJ, Smart TG. 1998. Adjacent phosphorylation sites on GABAA receptor β subunits determine regulation by cAMP-dependent protein kinase. Nat. Neurosci. 1: 23–28.
  • Miller PS, Aricescu AR. 2015. Europe PMC Funders Group Crystal structure of a human GABA A receptor. Nature. 512: 270–275.
  • Miller PS, Smart TG. 2010. Binding, activation and modulation of Cys-loop receptors. Trends Pharmacol. Sci. 31: 161–174.
  • Minier F, Sigel E. 2004. Positioning of the α-subunit isoforms confers a functional signature to γ-aminobutyric acid type A receptors. Proc. Natl. Acad. Sci. U. S. A. 101: 7769–7774.
  • Mortensen M, Patel B, Smart TG. 2012. GABA potency at GABAA receptors found in synaptic and extrasynaptic zones. Front. Cell. Neurosci. 6: 1–10.
  • Neelands TR, Fisher JL, Bianchi M, Macdonald RL. 1999. Spontaneous and γ-aminobutyric acid (GABA)-activated GABAA receptor channels formed by ε subunit-containing isoforms. Mol. Pharmacol. 55: 168–178.
  • Olsen RW, Sieghart W. 2009. GABAA Receptors: Subtypes Provide Diversity of Function and Pharmacology. Neuropharmacology. 56: 141–148.
  • Olsen RW, Sieghart W. 2008. International Union of Pharmacology. LXX. Subtypes of -Aminobutyric AcidA Receptors: Classification on the Basis of Subunit Composition, Pharmacology, and Function. Update. Pharmacol. Rev. 60: 243–260.
  • Pirker S, Schwarzer C, Wieselthaler A, Sieghart W, Sperk G. 2000. GABAA receptors: immunocytochemical distribution of 13 subunits in the adult rat brain. Neuroscience. 101: 815–850.
  • Sanna E, Mascia MP, Klein RL, Whiting PJ, Biggio G, Harris RA. 1995. Actions of the General Anesthetic Propofol on Recombinant Human GABAA Receptors : Influence of Receptor. J. Pharmacol. Exp. Ther. 274: 353–360.
  • Sergeeva OA, Andreeva N, Garret M, Scherer A, Haas HL. 2005. Pharmacological Properties of GABAA Receptors in Rat Hypothalamic Neurons Expressing the ϵ-Subunit. J. Neurosci. 25: 88–95.
  • Sigel E, Steinmann ME. 2012. Structure, Function, and Modulation of GABAA Receptors. J. Biol. Chem. 287: 40224–40231.
  • Simon J, Wakimoto H, Fujita N, Lalande M, Barnard EA. 2004. Analysis of the set of GABAAreceptor genes in the human genome. J. Biol. Chem. 279: 41422–41435.
  • Thompson SA, Bonnert TP, Cagetti E, Whiting PJ, Wafford KA. 2002. Overexpression of the GABA A receptor ε subunit results in insensitivity to anaesthetics. Neuropharmacology. 43: 662–668.
  • Thompson S, Bonnert TP, Whiting PJ, Wafford KA. 1998. Functional characteristics of recombinant human GABAA receptors containing the ϵ-subunit. Toxicol. Lett. 100: 233–238.
  • Uusi-oukari M, Korpi ER. 2010. Regulation of GABAA Receptor Subunit Expression by Pharmacological Agents. Pharmacol. Rev. 62: 97–135.
  • Wagner DA, Goldschen-ohm MP, Hales TG, Jones MV. 2005. Kinetics and spontaneous open probability conferred by the ϵ subunit of the GABAA receptor. J. Neurosci. 25: 10462–10468.
  • Wegelius K, Pasternack M, Hiltunen JO, Rivera C, Kaila K, Saarma M, Reeben M. 1998. Distribution of GABA receptor ρ subunit transcripts in the rat brain. Eur. J. Neurosci. 10: 350–357.
  • Whiting PJ, McAllister G, Vassilatis D, Bonnert TP, Heavens RP, Smith DW, Hewson L, O'Donnell R, Rigby MR, Sirinathsinghji DJ, Marshall G, Thompson SA, Wafford KA, Vasilatis D. 1997. Neuronally Restricted RNA Splicing Regulates the Expression of a Novel GABA A Receptor Subunit Conferring Atypical Functional Properties. J. Neurosci. 17: 5027–5037.
There are 39 citations in total.

Details

Primary Language English
Subjects Neurosciences
Journal Section Original Articles
Authors

Ahmad Tarmizi Che Has This is me

Fatin Hilyani Mohamad This is me

Muhammad Zulfadhli Othman This is me

Publication Date April 6, 2020
Published in Issue Year 2019 Volume: 11 Issue: 3

Cite

APA Che Has, A. T., Hilyani Mohamad, F., & Othman, M. Z. (2020). The distinctive assembly pattern of ε subunit in ternary α1β3ε and binary β3ε GABAA receptors. Journal of Cellular Neuroscience and Oxidative Stress, 11(3), 874-884. https://doi.org/10.37212/jcnos.715215
AMA Che Has AT, Hilyani Mohamad F, Othman MZ. The distinctive assembly pattern of ε subunit in ternary α1β3ε and binary β3ε GABAA receptors. J Cell Neurosci Oxid Stress. April 2020;11(3):874-884. doi:10.37212/jcnos.715215
Chicago Che Has, Ahmad Tarmizi, Fatin Hilyani Mohamad, and Muhammad Zulfadhli Othman. “The Distinctive Assembly Pattern of Subunit in Ternary α1β3ε and Binary β3ε GABAA Receptors”. Journal of Cellular Neuroscience and Oxidative Stress 11, no. 3 (April 2020): 874-84. https://doi.org/10.37212/jcnos.715215.
EndNote Che Has AT, Hilyani Mohamad F, Othman MZ (April 1, 2020) The distinctive assembly pattern of ε subunit in ternary α1β3ε and binary β3ε GABAA receptors. Journal of Cellular Neuroscience and Oxidative Stress 11 3 874–884.
IEEE A. T. Che Has, F. Hilyani Mohamad, and M. Z. Othman, “The distinctive assembly pattern of ε subunit in ternary α1β3ε and binary β3ε GABAA receptors”, J Cell Neurosci Oxid Stress, vol. 11, no. 3, pp. 874–884, 2020, doi: 10.37212/jcnos.715215.
ISNAD Che Has, Ahmad Tarmizi et al. “The Distinctive Assembly Pattern of Subunit in Ternary α1β3ε and Binary β3ε GABAA Receptors”. Journal of Cellular Neuroscience and Oxidative Stress 11/3 (April 2020), 874-884. https://doi.org/10.37212/jcnos.715215.
JAMA Che Has AT, Hilyani Mohamad F, Othman MZ. The distinctive assembly pattern of ε subunit in ternary α1β3ε and binary β3ε GABAA receptors. J Cell Neurosci Oxid Stress. 2020;11:874–884.
MLA Che Has, Ahmad Tarmizi et al. “The Distinctive Assembly Pattern of Subunit in Ternary α1β3ε and Binary β3ε GABAA Receptors”. Journal of Cellular Neuroscience and Oxidative Stress, vol. 11, no. 3, 2020, pp. 874-8, doi:10.37212/jcnos.715215.
Vancouver Che Has AT, Hilyani Mohamad F, Othman MZ. The distinctive assembly pattern of ε subunit in ternary α1β3ε and binary β3ε GABAA receptors. J Cell Neurosci Oxid Stress. 2020;11(3):874-8.