Glycan–glycan interactions determine Leishmania attachment to the midgut of permissive sand fly vectors

Amy R. Hall; Jamie T. Blakeman; Ahmed M. Eissa; Paul Chapman; Ana L. Morales-García; Laura Stennett; Oihane Martin; Emilie Giraud; David H. Dockrell; Neil R. Cameron; Martin Wiese; Laith Yakop; Matthew E. Rogers; Mark Geoghegan

doi:10.1039/D0SC03298K

Glycan–glycan interactions determine Leishmania attachment to the midgut of permissive sand fly vectors

Amy R. Hall, Jamie T. Blakeman, Ahmed M. Eissa, Paul Chapman, Ana L. Morales-García, Laura Stennett, Oihane Martin, Emilie Giraud, David H. Dockrell, Neil R. Cameron, Martin Wiese, Laith Yakop, Matthew E. Rogers, Mark Geoghegan

Strathclyde Institute Of Pharmacy And Biomedical Sciences

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Abstract

Direct glycan–glycan interactions are increasingly implicated in survival and pathogenicity of bacteria. Here, we show that they can be exploited by protozoan parasites in their insect hosts. Force spectroscopy revealed that Leishmania promastigotes display a high-affinity biomolecular interaction between their lipophosphoglycan glycocalyx and mimics of N-acetyl-D-galactosamine, commonly expressed on the midguts of a wide range of sand fly vector species. This enabled gut-adhesive nectomonad promastigotes of Leishmania mexicana to efficiently bind to membrane-bound mucin-like, O-linked glycoproteins of the sand fly Lutzomyia longipalpis, an event crucial for parasite survival, and accounts for a permissive mode of binding. Thus, direct interaction between parasite and sand fly midgut glycans are key to permitting vector competence for all forms of leishmaniasis worldwide. In addition, these studies demonstrate the feasibility of interfering with these interactions as transmission-blocking vaccines.

Original language	English
Pages (from-to)	10973-10983
Number of pages	11
Journal	Chemical Science
Volume	11
Issue number	40
Early online date	3 Sept 2020
DOIs	https://doi.org/10.1039/D0SC03298K
Publication status	Published - 28 Oct 2020

Keywords

glycan–glycan interactions
Leishmania mexicana
Lutzomyia longipalpis

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10.1039/D0SC03298KLicence: CC BY 3.0

Hall-etal-CS-2020-Glycan-glycan-interactions-determine-Leishmania-attachment-to-the-midgutFinal published version, 1.14 MBLicence: CC BY 3.0

Martin Wiese
- martin.wiesestrath.acuk
- Strathclyde Institute Of Pharmacy And Biomedical Sciences - Senior Lecturer
Person: Academic

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Hall, A. R., Blakeman, J. T., Eissa, A. M., Chapman, P., Morales-García, A. L., Stennett, L., Martin, O., Giraud, E., Dockrell, D. H., Cameron, N. R., Wiese, M., Yakop, L., Rogers, M. E., & Geoghegan, M. (2020). Glycan–glycan interactions determine Leishmania attachment to the midgut of permissive sand fly vectors. Chemical Science, 11(40), 10973-10983. https://doi.org/10.1039/D0SC03298K

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title = "Glycan–glycan interactions determine Leishmania attachment to the midgut of permissive sand fly vectors",

abstract = "Direct glycan–glycan interactions are increasingly implicated in survival and pathogenicity of bacteria. Here, we show that they can be exploited by protozoan parasites in their insect hosts. Force spectroscopy revealed that Leishmania promastigotes display a high-affinity biomolecular interaction between their lipophosphoglycan glycocalyx and mimics of N-acetyl-D-galactosamine, commonly expressed on the midguts of a wide range of sand fly vector species. This enabled gut-adhesive nectomonad promastigotes of Leishmania mexicana to efficiently bind to membrane-bound mucin-like, O-linked glycoproteins of the sand fly Lutzomyia longipalpis, an event crucial for parasite survival, and accounts for a permissive mode of binding. Thus, direct interaction between parasite and sand fly midgut glycans are key to permitting vector competence for all forms of leishmaniasis worldwide. In addition, these studies demonstrate the feasibility of interfering with these interactions as transmission-blocking vaccines.",

keywords = "glycan–glycan interactions, Leishmania mexicana, Lutzomyia longipalpis",

author = "Hall, {Amy R.} and Blakeman, {Jamie T.} and Eissa, {Ahmed M.} and Paul Chapman and Morales-Garc{\'i}a, {Ana L.} and Laura Stennett and Oihane Martin and Emilie Giraud and Dockrell, {David H.} and Cameron, {Neil R.} and Martin Wiese and Laith Yakop and Rogers, {Matthew E.} and Mark Geoghegan",

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doi = "10.1039/D0SC03298K",

language = "English",

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Hall, AR, Blakeman, JT, Eissa, AM, Chapman, P, Morales-García, AL, Stennett, L, Martin, O, Giraud, E, Dockrell, DH, Cameron, NR, Wiese, M, Yakop, L, Rogers, ME & Geoghegan, M 2020, 'Glycan–glycan interactions determine Leishmania attachment to the midgut of permissive sand fly vectors', Chemical Science, vol. 11, no. 40, pp. 10973-10983. https://doi.org/10.1039/D0SC03298K

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T1 - Glycan–glycan interactions determine Leishmania attachment to the midgut of permissive sand fly vectors

AU - Hall, Amy R.

AU - Blakeman, Jamie T.

AU - Eissa, Ahmed M.

AU - Chapman, Paul

AU - Morales-García, Ana L.

AU - Stennett, Laura

AU - Martin, Oihane

AU - Giraud, Emilie

AU - Dockrell, David H.

AU - Cameron, Neil R.

AU - Wiese, Martin

AU - Yakop, Laith

AU - Rogers, Matthew E.

AU - Geoghegan, Mark

PY - 2020/10/28

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N2 - Direct glycan–glycan interactions are increasingly implicated in survival and pathogenicity of bacteria. Here, we show that they can be exploited by protozoan parasites in their insect hosts. Force spectroscopy revealed that Leishmania promastigotes display a high-affinity biomolecular interaction between their lipophosphoglycan glycocalyx and mimics of N-acetyl-D-galactosamine, commonly expressed on the midguts of a wide range of sand fly vector species. This enabled gut-adhesive nectomonad promastigotes of Leishmania mexicana to efficiently bind to membrane-bound mucin-like, O-linked glycoproteins of the sand fly Lutzomyia longipalpis, an event crucial for parasite survival, and accounts for a permissive mode of binding. Thus, direct interaction between parasite and sand fly midgut glycans are key to permitting vector competence for all forms of leishmaniasis worldwide. In addition, these studies demonstrate the feasibility of interfering with these interactions as transmission-blocking vaccines.

AB - Direct glycan–glycan interactions are increasingly implicated in survival and pathogenicity of bacteria. Here, we show that they can be exploited by protozoan parasites in their insect hosts. Force spectroscopy revealed that Leishmania promastigotes display a high-affinity biomolecular interaction between their lipophosphoglycan glycocalyx and mimics of N-acetyl-D-galactosamine, commonly expressed on the midguts of a wide range of sand fly vector species. This enabled gut-adhesive nectomonad promastigotes of Leishmania mexicana to efficiently bind to membrane-bound mucin-like, O-linked glycoproteins of the sand fly Lutzomyia longipalpis, an event crucial for parasite survival, and accounts for a permissive mode of binding. Thus, direct interaction between parasite and sand fly midgut glycans are key to permitting vector competence for all forms of leishmaniasis worldwide. In addition, these studies demonstrate the feasibility of interfering with these interactions as transmission-blocking vaccines.

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KW - Leishmania mexicana

KW - Lutzomyia longipalpis

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DO - 10.1039/D0SC03298K

M3 - Article

SN - 2041-6520

VL - 11

SP - 10973

EP - 10983

JO - Chemical Science

JF - Chemical Science

IS - 40

ER -

Glycan–glycan interactions determine Leishmania attachment to the midgut of permissive sand fly vectors

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