Kuldeep H. Kaur scite author profile

GABA A receptors mediate inhibitory neurotransmission in the mammalian brain via synaptic and extrasynaptic receptors. The delta (␦)-subunit-containing receptors are expressed exclusively extra-synaptically and mediate tonic inhibition. In the present study, we were interested in determining the architecture of receptors containing the ␦-subunit. To investigate this, we predefined the subunit arrangement by concatenation. We prepared five dual and three triple concatenated subunit constructs. These concatenated dual and triple constructs were used to predefine nine different GABA A receptor pentamers. These pentamers composed of ␣ 1 -, ␤ 3 -, and ␦-subunits were expressed in Xenopus oocytes and maximal currents elicited in response to 1 mM GABA were determined in the presence and absence of THDOC (3␣, 21-dihydroxy-5␣-pregnane-20-one).

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Structure of α₆β₃δ GABA_A receptors and their lack of ethanol sensitivity

Baur

Kaur

Sigel

2009

Journal of Neurochemistry

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Delta (δ) subunit containing GABAA receptors are expressed extra‐synaptically and mediate tonic inhibition. In cerebellar granule cells, they often form a receptor together with α6 subunits. We were interested to determine the architecture of these receptors. We predefined the subunit arrangement of 24 different GABAA receptor pentamers by subunit concatenation. These receptors (composed of α6, β3 and δ subunits) were expressed in Xenopus oocytes and their electrophysiological properties analyzed. Currents elicited in response to GABA were determined in presence and absence of 3α, 21‐dihydroxy‐5α‐pregnan‐20‐one and to 4,5,6,7‐tetrahydroisoxazolo[5,4‐c]‐pyridin‐3‐ol. α6‐β3‐α6/δ receptors showed a substantial response to GABA alone. Three receptors, β3‐α6‐δ/α6‐β3, α6‐β3‐α6/β3‐δ and β3‐δ‐β3/α6‐β3, were only uncovered in the combined presence of the neurosteroid 3α, 21‐dihydroxy‐5α‐pregnan‐20‐one with GABA. All four receptors were activated by 4,5,6,7‐tetrahydroisoxazolo[5,4‐c]‐pyridin‐3‐ol. None of the functional receptors was modulated by physiological concentrations (up to 30 mM) of ethanol. GABA concentration response curves indicated that the δ subunit can contribute to the formation of an agonist site. We conclude from the investigated receptors that the δ subunit can assume multiple positions in a receptor pentamer composed of α6, β3 and δ subunits.

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Angelman Syndrome Protein Ube3a Regulates Synaptic Growth and Endocytosis by Inhibiting BMP Signaling in Drosophila

Yao

Zhi

et al. 2016

PLoS Genet

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Altered expression of the E3 ubiquitin ligase UBE3A, which is involved in protein degradation through the proteasome-mediated pathway, is associated with neurodevelopmental and behavioral defects observed in Angelman syndrome (AS) and autism. However, little is known about the neuronal function of UBE3A and the pathogenesis of UBE3A-associated disorders. To understand the in vivo function of UBE3A in the nervous system, we generated multiple mutations of ube3a, the Drosophila ortholog of UBE3A. We found a significantly increased number of total boutons and satellite boutons in conjunction with compromised endocytosis in the neuromuscular junctions (NMJs) of ube3a mutants compared to the wild type. Genetic and biochemical analysis showed upregulation of bone morphogenetic protein (BMP) signaling in the nervous system of ube3a mutants. An immunochemical study revealed a specific increase in the protein level of Thickveins (Tkv), a type I BMP receptor, but not other BMP receptors Wishful thinking (Wit) and Saxophone (Sax), in ube3a mutants. Ube3a was associated with and specifically ubiquitinated lysine 227 within the cytoplasmic tail of Tkv, and promoted its proteasomal degradation in Schneider 2 cells. Negative regulation of Tkv by Ube3a was conserved in mammalian cells. These results reveal a critical role for Ube3a in regulating NMJ synapse development by repressing BMP signaling. This study sheds new light onto the neuronal functions of UBE3A and provides novel perspectives for understanding the pathogenesis of UBE3A-associated disorders.

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Use of concatamers to study GABAA receptor architecture and function: application to δ-subunit-containing receptors and possible pitfalls

Sigel

Kaur

Lüscher

et al. 2009

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Many membrane proteins, including the GABA(A) [GABA (gamma-aminobutyric acid) type A] receptors, are oligomers often built from different subunits. As an example, the major adult isoform of the GABA(A) receptor is a pentamer built from three different subunits. Theoretically, co-expression of three subunits may result in many different receptor pentamers. Subunit concatenation allows us to pre-define the relative arrangement of the subunits. This method may thus be used to study receptor architecture, but also the nature of binding sites. Indeed, it made possible the discovery of a novel benzodiazepine site. We use here subunit concatenation to study delta-subunit-containing GABA(A) receptors. We provide evidence for the formation of different functional subunit arrangements in recombinant alpha(1)beta(3)delta and alpha(6)beta(3)delta receptors. As with all valuable techniques, subunit concatenation has also some pitfalls. Most of these can be avoided by carefully titrating and minimizing the length of the linker sequences joining the two linked subunits and avoiding inclusion of the signal sequence of all but the N-terminal subunit of a multi-subunit construct. Maybe the most common error found in the literature is that low expression can be overcome by simply overloading the expression system with genetic information. As some concatenated constructs result by themselves in a low level of expression, this erroneous assembly leading to receptor function may be promoted by overloading the expression system and leads to wrong conclusions.

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Kuldeep H. Kaur

Unanticipated Structural and Functional Properties of δ-Subunit-containing GABAA Receptors

Structure of α₆β₃δ GABA_A receptors and their lack of ethanol sensitivity

Angelman Syndrome Protein Ube3a Regulates Synaptic Growth and Endocytosis by Inhibiting BMP Signaling in Drosophila

Use of concatamers to study GABAA receptor architecture and function: application to δ-subunit-containing receptors and possible pitfalls

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Kuldeep H. Kaur

Unanticipated Structural and Functional Properties of δ-Subunit-containing GABAA Receptors

Structure of α6β3δ GABAA receptors and their lack of ethanol sensitivity

Angelman Syndrome Protein Ube3a Regulates Synaptic Growth and Endocytosis by Inhibiting BMP Signaling in Drosophila

Use of concatamers to study GABAA receptor architecture and function: application to δ-subunit-containing receptors and possible pitfalls

Contact Info

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Structure of α₆β₃δ GABA_A receptors and their lack of ethanol sensitivity