Dieter Langosch scite author profile

Processing of the amyloid precursor protein (APP) by b-and c-secretases leads to the generation of amyloid-b (Ab) peptides with varying lengths. Particularly Ab42 contributes to cytotoxicity and amyloid accumulation in Alzheimer's disease (AD). However, the precise molecular mechanism of Ab42 generation has remained unclear. Here, we show that an amino-acid motif GxxxG within the APP transmembrane sequence (TMS) has regulatory impact on the Ab species produced. In a neuronal cell system, mutations of glycine residues G29 and G33 of the GxxxG motif gradually attenuate the TMS dimerization strength, specifically reduce the formation of Ab42, leave the level of Ab40 unaffected, but increase Ab38 and shorter Ab species. We show that glycine residues G29 and G33 are part of a dimerization site within the TMS, but do not impair oligomerization of the APP ectodomain. We conclude that c-secretase cleavages of APP are intimately linked to the dimerization strength of the substrate TMS. The results demonstrate that dimerization of APP TMS is a risk factor for AD due to facilitating Ab42 production.

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Identification of a gephyrin binding motif on the glycine receptor β subunit

Meyer

Kirsch

Betz

et al. 1995

Neuron

394

355

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The tubulin-binding protein gephyrin copurifies with the inhibitory glycine receptor (GlyR) and is essential for its postsynaptic localization. Here we have analyzed the interaction between the GlyR and recombinant gephyrin and identified a gephyrin binding site in the cytoplasmic loop between the third and fourth transmembrane segments of the beta subunit. GlyR alpha subunits and GABAA receptor proteins failed to bind recombinant gephyrin. However, insertion of an 18 residue segment of the GlyR beta subunit into the GABAA receptor beta 1 subunit conferred gephyrin binding both in an overlay assay and in transfected mammalian cells. These results indicate that beta subunit expression is essential for the formation of a postsynaptic GlyR matrix.

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The atypical M2 segment of the beta subunit confers picrotoxinin resistance to inhibitory glycine receptor channels.

et al. 1992

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Purified preparations of the inhibitory glycine receptor (GlyR) contain alpha and beta subunits, which share homologous primary structures and a common transmembrane topology with other members of the ligand‐gated ion channel superfamily. Here, a beta subunit‐specific antiserum was shown to precipitate the [3H]strychnine binding sites localized on alpha subunits from membrane extracts of both rat spinal cord and mammalian cells co‐transfected with alpha and beta cDNAs. Further, inhibition of alpha homo‐oligomeric GlyRs by picrotoxinin, a non‐competitive blocker of ion flow, was reduced 50‐ to 200‐fold for alpha/beta hetero‐oligomeric receptors generated by cotransfection. Site‐directed mutagenesis identified residues within the second predicted transmembrane segment (M2) of the beta subunit as major determinants of picrotoxinin resistance. These data implicate the M2 segment in blocker binding to and lining of the GlyR chloride channel.

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Dimerisation of the Glycophorin A Transmembrane Segment in Membranes Probed with the ToxR Transcription Activator

Langosch

Brosig

Kolmar

et al. 1996

Journal of Molecular Biology

234

314

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Dieter Langosch

GxxxG motifs within the amyloid precursor protein transmembrane sequence are critical for the etiology of Aβ42

Identification of a gephyrin binding motif on the glycine receptor β subunit

The atypical M2 segment of the beta subunit confers picrotoxinin resistance to inhibitory glycine receptor channels.

Dimerisation of the Glycophorin A Transmembrane Segment in Membranes Probed with the ToxR Transcription Activator

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