The RXR-Type ER-Retention/Retrieval Signal of GABAB1 Requires Distant Spacing from the Membrane to Function

doi:10.1124/mol.104.010256

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First published on April 1, 2005; DOI: 10.1124/mol.104.010256

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Received for publication December 14, 2004.
Revised April 1, 2005.
Accepted for publication April 1, 2005.

The RXR-Type ER-Retention/Retrieval Signal of GABA_B1 Requires Distant Spacing from the Membrane to Function

Martin Gassmann ¹, Corinne Haller ¹, Yanick Stoll ¹, Said Abdel Aziz ², Barbara Biermann ¹, Johannes Mosbacher ³, Klemens Kaupmann ⁴, Bernhard Bettler ¹^*

¹ University of Basel ² University ofBasel ³ Novartis Pharma AG ⁴ Novartis Pharma Inc.

^* Address correspondence to: E-mail: bernhard.bettler{at}unibas.ch

Abstract

Functional ${gamma}$ -aminobutyric acid type B (GABA_B) receptors are normallyonly observed upon co-expression of GABA_B1 with GABA_B2 subunits.A C-terminal arginine-based endoplasmic reticulum (ER) retention/retrievalsignal, RSRR, prevents escape of unassembled GABA_B1 subunitsfrom the ER and restricts surface expression to correctly assembledheteromeric receptors. The RSRR signal in GABA_B1 is proposedto be shielded by C-terminal coiled-coil interaction of theGABA_B1 with the GABA_B2 subunit. Here, we investigated whetherthe RSRR motif in GABA_B1 remains functional when grafted toectopic sites. We found that the RSRR signal in GABA_B1 is inactivein any of the three intracellular loops but remains functionalwhen moved within the distal zone of the C-terminal tail. C-terminaldeletions that position the RSRR signal closer to the plasmamembrane drastically reduce its effectiveness, supporting thatproximity to the membrane restricts access to the RSRR motif.Functional ectopic RSRR signals in GABA_B1 are efficiently inactivatedby the GABA_B2 subunit in the absence of coiled-coil dimerization,supporting that coiled-coil interaction is not critical forrelease of the receptor complex from the ER. The data are consistentwith a model in which removal of RSRR from its active zone ratherthan its direct shielding by coiled-coil dimerization triggersforward trafficking. Since arginine-based intracellular retentionsignals of the type RXR, where X represents any amino acid,are used to regulate assembly and surface transport of severalmultimeric complexes, such a mechanism may apply to other proteinsas well.

Key words: GABAB, Receptor synthesis/trafficking, Mutagenesis/Chimeric approaches

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