Publikation:

A CD36 ectodomain mediates insect pheromone detection via a putative tunnelling mechanism

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Gomez-Diaz_0-348689.pdf
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2016

Autor:innen

Bargeton, Benoîte
Abuin, Liliane
Bukar, Natalia
Reina, Jaime H.
Bartoi, Tudor
Graf, Marion
Ong, Huy
Ulbrich, Maximilian H.
Benton, Richard
et al.

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http://nbn-resolving.de/urn:nbn:de:bsz:352-0-348689
DOI (zitierfähiger Link)
https://doi.org/10.1038/ncomms11866
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CC BY 4.0

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Biologie: Publikationen
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Published

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Nature Communications. 2016, 7, 11866. eISSN 2041-1723. Available under: doi: 10.1038/ncomms11866

Zusammenfassung

CD36 transmembrane proteins have diverse roles in lipid uptake, cell adhesion and pathogen sensing. Despite numerous in vitro studies, how they act in native cellular contexts is poorly understood. A Drosophila CD36 homologue, sensory neuron membrane protein 1 (SNMP1), was previously shown to facilitate detection of lipid-derived pheromones by their cognate receptors in olfactory cilia. Here we investigate how SNMP1 functions in vivo. Structure-activity dissection demonstrates that SNMP1's ectodomain is essential, but intracellular and transmembrane domains dispensable, for cilia localization and pheromone-evoked responses. SNMP1 can be substituted by mammalian CD36, whose ectodomain can interact with insect pheromones. Homology modelling, using the mammalian LIMP-2 structure as template, reveals a putative tunnel in the SNMP1 ectodomain that is sufficiently large to accommodate pheromone molecules. Amino-acid substitutions predicted to block this tunnel diminish pheromone sensitivity. We propose a model in which SNMP1 funnels hydrophobic pheromones from the extracellular fluid to integral membrane receptors.

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570 Biowissenschaften, Biologie

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ISO 690GOMEZ-DIAZ, Carolina, Benoîte BARGETON, Liliane ABUIN, Natalia BUKAR, Jaime H. REINA, Tudor BARTOI, Marion GRAF, Huy ONG, Maximilian H. ULBRICH, Richard BENTON, 2016. A CD36 ectodomain mediates insect pheromone detection via a putative tunnelling mechanism. In: Nature Communications. 2016, 7, 11866. eISSN 2041-1723. Available under: doi: 10.1038/ncomms11866
BibTex
@article{GomezDiaz2016-06-15ectod-35498,
  year={2016},
  doi={10.1038/ncomms11866},
  title={A CD36 ectodomain mediates insect pheromone detection via a putative tunnelling mechanism},
  volume={7},
  journal={Nature Communications},
  author={Gomez-Diaz, Carolina and Bargeton, Benoîte and Abuin, Liliane and Bukar, Natalia and Reina, Jaime H. and Bartoi, Tudor and Graf, Marion and Ong, Huy and Ulbrich, Maximilian H. and Benton, Richard},
  note={Article Number: 11866}
}
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    <dcterms:abstract xml:lang="eng">CD36 transmembrane proteins have diverse roles in lipid uptake, cell adhesion and pathogen sensing. Despite numerous in vitro studies, how they act in native cellular contexts is poorly understood. A Drosophila CD36 homologue, sensory neuron membrane protein 1 (SNMP1), was previously shown to facilitate detection of lipid-derived pheromones by their cognate receptors in olfactory cilia. Here we investigate how SNMP1 functions in vivo. Structure-activity dissection demonstrates that SNMP1's ectodomain is essential, but intracellular and transmembrane domains dispensable, for cilia localization and pheromone-evoked responses. SNMP1 can be substituted by mammalian CD36, whose ectodomain can interact with insect pheromones. Homology modelling, using the mammalian LIMP-2 structure as template, reveals a putative tunnel in the SNMP1 ectodomain that is sufficiently large to accommodate pheromone molecules. Amino-acid substitutions predicted to block this tunnel diminish pheromone sensitivity. We propose a model in which SNMP1 funnels hydrophobic pheromones from the extracellular fluid to integral membrane receptors.</dcterms:abstract>
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