Structural and functional insight into how the Plasmodium falciparum VAR2CSA protein mediates binding to chondroitin sulfate A in placental malaria

Thomas M Clausen; Stig Christoffersen; Madeleine Dahlbäck; Annette Eva Langkilde; Kamilla E Jensen; Mafalda Resende; Mette Ø Agerbæk; Daniel Andersen; Besim Berisha; Sisse B Ditlev; Vera V Pinto; Morten A Nielsen; Thor G Theander; Sine Larsen; Ali Salanti

doi:10.1074/jbc.M112.348839

Structural and functional insight into how the Plasmodium falciparum VAR2CSA protein mediates binding to chondroitin sulfate A in placental malaria

Thomas M Clausen, Stig Christoffersen, Madeleine Dahlbäck, Annette Eva Langkilde, Kamilla E Jensen, Mafalda Resende, Mette Ø Agerbæk, Daniel Andersen, Besim Berisha, Sisse B Ditlev, Vera V Pinto, Morten A Nielsen, Thor G Theander, Sine Larsen, Ali Salanti

114 Citations (Scopus)

Abstract

Malaria is a major global health problem. Pregnant women are susceptible to infection regardless of previously acquired immunity. Placental malaria is caused by parasites capable of sequestering in the placenta. This is mediated by VAR2CSA, a parasite antigen that interacts with chondroitin sulfate A (CSA). One vaccine strategy is to block this interaction with VAR2CSA-specific antibodies. It is a priority to define a small VAR2CSA fragment that can be used in an adhesion blocking vaccine. In this, the obvious approach is to define regions of VAR2CSA involved in receptor binding. It has been shown that full-length recombinant VAR2CSA binds specifically to CSA with nanomolar affinity, and that the CSA-binding site lies in the N-terminal part of the protein. In this study we define the minimal binding region by truncating VAR2CSA and analyzing CSA binding using biosensor technology. We show that the core CSA-binding site lies within the DBL2X domain and parts of the flanking interdomain regions. This is in contrast to the idea that single domains do not possess the structural requirements for specific CSA binding. Small-angle x-ray scattering measurements enabled modeling of VAR2CSA and showed that the CSA-binding DBL2X domain is situated in the center of the structure. Mutating classic sulfate-binding sites in VAR2CSA, along with testing dependence of ionic interactions, suggest that the CSA binding is not solely dependent on the sulfated CSA structure.

Original language	English
Journal	Journal of Biological Chemistry
Volume	287
Issue number	28
Pages (from-to)	23332-45
Number of pages	14
ISSN	0021-9258
DOIs	https://doi.org/10.1074/jbc.M112.348839
Publication status	Published - 6 Jul 2012

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10.1074/jbc.M112.348839

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Clausen, T. M., Christoffersen, S., Dahlbäck, M., Langkilde, A. E., Jensen, K. E., Resende, M., Agerbæk, M. Ø., Andersen, D., Berisha, B., Ditlev, S. B., Pinto, V. V., Nielsen, M. A., Theander, T. G., Larsen, S., & Salanti, A. (2012). Structural and functional insight into how the Plasmodium falciparum VAR2CSA protein mediates binding to chondroitin sulfate A in placental malaria. Journal of Biological Chemistry, 287(28), 23332-45. https://doi.org/10.1074/jbc.M112.348839

Structural and functional insight into how the Plasmodium falciparum VAR2CSA protein mediates binding to chondroitin sulfate A in placental malaria. / Clausen, Thomas M; Christoffersen, Stig; Dahlbäck, Madeleine et al.

In: Journal of Biological Chemistry, Vol. 287, No. 28, 06.07.2012, p. 23332-45.

Research output: Contribution to journal › Journal article › Research › peer-review

Clausen, TM, Christoffersen, S, Dahlbäck, M, Langkilde, AE, Jensen, KE, Resende, M, Agerbæk, MØ, Andersen, D, Berisha, B, Ditlev, SB, Pinto, VV, Nielsen, MA , Theander, TG , Larsen, S & Salanti, A 2012, 'Structural and functional insight into how the Plasmodium falciparum VAR2CSA protein mediates binding to chondroitin sulfate A in placental malaria', Journal of Biological Chemistry, vol. 287, no. 28, pp. 23332-45. https://doi.org/10.1074/jbc.M112.348839

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title = "Structural and functional insight into how the Plasmodium falciparum VAR2CSA protein mediates binding to chondroitin sulfate A in placental malaria",

abstract = "Malaria is a major global health problem. Pregnant women are susceptible to infection regardless of previously acquired immunity. Placental malaria is caused by parasites capable of sequestering in the placenta. This is mediated by VAR2CSA, a parasite antigen that interacts with chondroitin sulfate A (CSA). One vaccine strategy is to block this interaction with VAR2CSA-specific antibodies. It is a priority to define a small VAR2CSA fragment that can be used in an adhesion blocking vaccine. In this, the obvious approach is to define regions of VAR2CSA involved in receptor binding. It has been shown that full-length recombinant VAR2CSA binds specifically to CSA with nanomolar affinity, and that the CSA-binding site lies in the N-terminal part of the protein. In this study we define the minimal binding region by truncating VAR2CSA and analyzing CSA binding using biosensor technology. We show that the core CSA-binding site lies within the DBL2X domain and parts of the flanking interdomain regions. This is in contrast to the idea that single domains do not possess the structural requirements for specific CSA binding. Small-angle x-ray scattering measurements enabled modeling of VAR2CSA and showed that the CSA-binding DBL2X domain is situated in the center of the structure. Mutating classic sulfate-binding sites in VAR2CSA, along with testing dependence of ionic interactions, suggest that the CSA binding is not solely dependent on the sulfated CSA structure.",

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T1 - Structural and functional insight into how the Plasmodium falciparum VAR2CSA protein mediates binding to chondroitin sulfate A in placental malaria

AU - Clausen, Thomas M

AU - Christoffersen, Stig

AU - Dahlbäck, Madeleine

AU - Langkilde, Annette Eva

AU - Jensen, Kamilla E

AU - Resende, Mafalda

AU - Agerbæk, Mette Ø

AU - Andersen, Daniel

AU - Berisha, Besim

AU - Ditlev, Sisse B

AU - Pinto, Vera V

AU - Nielsen, Morten A

AU - Theander, Thor G

AU - Larsen, Sine

AU - Salanti, Ali

PY - 2012/7/6

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N2 - Malaria is a major global health problem. Pregnant women are susceptible to infection regardless of previously acquired immunity. Placental malaria is caused by parasites capable of sequestering in the placenta. This is mediated by VAR2CSA, a parasite antigen that interacts with chondroitin sulfate A (CSA). One vaccine strategy is to block this interaction with VAR2CSA-specific antibodies. It is a priority to define a small VAR2CSA fragment that can be used in an adhesion blocking vaccine. In this, the obvious approach is to define regions of VAR2CSA involved in receptor binding. It has been shown that full-length recombinant VAR2CSA binds specifically to CSA with nanomolar affinity, and that the CSA-binding site lies in the N-terminal part of the protein. In this study we define the minimal binding region by truncating VAR2CSA and analyzing CSA binding using biosensor technology. We show that the core CSA-binding site lies within the DBL2X domain and parts of the flanking interdomain regions. This is in contrast to the idea that single domains do not possess the structural requirements for specific CSA binding. Small-angle x-ray scattering measurements enabled modeling of VAR2CSA and showed that the CSA-binding DBL2X domain is situated in the center of the structure. Mutating classic sulfate-binding sites in VAR2CSA, along with testing dependence of ionic interactions, suggest that the CSA binding is not solely dependent on the sulfated CSA structure.

AB - Malaria is a major global health problem. Pregnant women are susceptible to infection regardless of previously acquired immunity. Placental malaria is caused by parasites capable of sequestering in the placenta. This is mediated by VAR2CSA, a parasite antigen that interacts with chondroitin sulfate A (CSA). One vaccine strategy is to block this interaction with VAR2CSA-specific antibodies. It is a priority to define a small VAR2CSA fragment that can be used in an adhesion blocking vaccine. In this, the obvious approach is to define regions of VAR2CSA involved in receptor binding. It has been shown that full-length recombinant VAR2CSA binds specifically to CSA with nanomolar affinity, and that the CSA-binding site lies in the N-terminal part of the protein. In this study we define the minimal binding region by truncating VAR2CSA and analyzing CSA binding using biosensor technology. We show that the core CSA-binding site lies within the DBL2X domain and parts of the flanking interdomain regions. This is in contrast to the idea that single domains do not possess the structural requirements for specific CSA binding. Small-angle x-ray scattering measurements enabled modeling of VAR2CSA and showed that the CSA-binding DBL2X domain is situated in the center of the structure. Mutating classic sulfate-binding sites in VAR2CSA, along with testing dependence of ionic interactions, suggest that the CSA binding is not solely dependent on the sulfated CSA structure.

U2 - 10.1074/jbc.M112.348839

DO - 10.1074/jbc.M112.348839

M3 - Journal article

C2 - 22570492

SN - 0021-9258

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SP - 23332

EP - 23345

JO - Journal of Biological Chemistry

JF - Journal of Biological Chemistry

IS - 28

ER -

Structural and functional insight into how the Plasmodium falciparum VAR2CSA protein mediates binding to chondroitin sulfate A in placental malaria

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