Cargando…
A LAIR-1 insertion generates broadly reactive antibodies against malaria variant antigens
Plasmodium falciparum antigens expressed on the surface of infected erythrocytes are important targets of naturally acquired immunity against malaria, but their high number and variability provide the pathogen with a powerful means of escape from host antibodies(1–4). Although broadly reactive antib...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
2015
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4869849/ https://www.ncbi.nlm.nih.gov/pubmed/26700814 http://dx.doi.org/10.1038/nature16450 |
| _version_ | 1782432383596756992 |
|---|---|
| author | Tan, Joshua Pieper, Kathrin Piccoli, Luca Abdi, Abdirahman Perez, Mathilde Foglierini Geiger, Roger Tully, Claire Maria Jarrossay, David Maina Ndungu, Francis Wambua, Juliana Bejon, Philip Fregni, Chiara Silacci Fernandez-Rodriguez, Blanca Barbieri, Sonia Bianchi, Siro Marsh, Kevin Thathy, Vandana Corti, Davide Sallusto, Federica Bull, Peter Lanzavecchia, Antonio |
| author_facet | Tan, Joshua Pieper, Kathrin Piccoli, Luca Abdi, Abdirahman Perez, Mathilde Foglierini Geiger, Roger Tully, Claire Maria Jarrossay, David Maina Ndungu, Francis Wambua, Juliana Bejon, Philip Fregni, Chiara Silacci Fernandez-Rodriguez, Blanca Barbieri, Sonia Bianchi, Siro Marsh, Kevin Thathy, Vandana Corti, Davide Sallusto, Federica Bull, Peter Lanzavecchia, Antonio |
| author_sort | Tan, Joshua |
| collection | PubMed |
| description | Plasmodium falciparum antigens expressed on the surface of infected erythrocytes are important targets of naturally acquired immunity against malaria, but their high number and variability provide the pathogen with a powerful means of escape from host antibodies(1–4). Although broadly reactive antibodies against these antigens could be useful as therapeutics and in vaccine design, their identification has proven elusive. Here, we report the isolation of human monoclonal antibodies that recognize erythrocytes infected by different P. falciparum isolates and opsonize these cells by binding to members of the RIFIN family. These antibodies acquired broad reactivity through a novel mechanism of insertion of a large DNA fragment between the V and DJ segments. The insert, which is both necessary and sufficient for binding to RIFINs, encodes the entire 100 amino acid collagen-binding domain of LAIR-1, an Ig superfamily inhibitory receptor encoded on chromosome 19. In each of the two donors studied, the antibodies are produced by a single expanded B cell clone and carry distinct somatic mutations in the LAIR-1 domain that abolish binding to collagen and increase binding to infected erythrocytes. These findings illustrate, with a biologically relevant example, a novel mechanism of antibody diversification by interchromosomal DNA transposition and demonstrate the existence of conserved epitopes that may be suitable candidates for the development of a malaria vaccine. |
| format | Online Article Text |
| id | pubmed-4869849 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2015 |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-48698492016-06-23 A LAIR-1 insertion generates broadly reactive antibodies against malaria variant antigens Tan, Joshua Pieper, Kathrin Piccoli, Luca Abdi, Abdirahman Perez, Mathilde Foglierini Geiger, Roger Tully, Claire Maria Jarrossay, David Maina Ndungu, Francis Wambua, Juliana Bejon, Philip Fregni, Chiara Silacci Fernandez-Rodriguez, Blanca Barbieri, Sonia Bianchi, Siro Marsh, Kevin Thathy, Vandana Corti, Davide Sallusto, Federica Bull, Peter Lanzavecchia, Antonio Nature Article Plasmodium falciparum antigens expressed on the surface of infected erythrocytes are important targets of naturally acquired immunity against malaria, but their high number and variability provide the pathogen with a powerful means of escape from host antibodies(1–4). Although broadly reactive antibodies against these antigens could be useful as therapeutics and in vaccine design, their identification has proven elusive. Here, we report the isolation of human monoclonal antibodies that recognize erythrocytes infected by different P. falciparum isolates and opsonize these cells by binding to members of the RIFIN family. These antibodies acquired broad reactivity through a novel mechanism of insertion of a large DNA fragment between the V and DJ segments. The insert, which is both necessary and sufficient for binding to RIFINs, encodes the entire 100 amino acid collagen-binding domain of LAIR-1, an Ig superfamily inhibitory receptor encoded on chromosome 19. In each of the two donors studied, the antibodies are produced by a single expanded B cell clone and carry distinct somatic mutations in the LAIR-1 domain that abolish binding to collagen and increase binding to infected erythrocytes. These findings illustrate, with a biologically relevant example, a novel mechanism of antibody diversification by interchromosomal DNA transposition and demonstrate the existence of conserved epitopes that may be suitable candidates for the development of a malaria vaccine. 2015-12-23 2016-01-07 /pmc/articles/PMC4869849/ /pubmed/26700814 http://dx.doi.org/10.1038/nature16450 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms |
| spellingShingle | Article Tan, Joshua Pieper, Kathrin Piccoli, Luca Abdi, Abdirahman Perez, Mathilde Foglierini Geiger, Roger Tully, Claire Maria Jarrossay, David Maina Ndungu, Francis Wambua, Juliana Bejon, Philip Fregni, Chiara Silacci Fernandez-Rodriguez, Blanca Barbieri, Sonia Bianchi, Siro Marsh, Kevin Thathy, Vandana Corti, Davide Sallusto, Federica Bull, Peter Lanzavecchia, Antonio A LAIR-1 insertion generates broadly reactive antibodies against malaria variant antigens |
| title | A LAIR-1 insertion generates broadly reactive antibodies against malaria variant antigens |
| title_full | A LAIR-1 insertion generates broadly reactive antibodies against malaria variant antigens |
| title_fullStr | A LAIR-1 insertion generates broadly reactive antibodies against malaria variant antigens |
| title_full_unstemmed | A LAIR-1 insertion generates broadly reactive antibodies against malaria variant antigens |
| title_short | A LAIR-1 insertion generates broadly reactive antibodies against malaria variant antigens |
| title_sort | lair-1 insertion generates broadly reactive antibodies against malaria variant antigens |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4869849/ https://www.ncbi.nlm.nih.gov/pubmed/26700814 http://dx.doi.org/10.1038/nature16450 |
| work_keys_str_mv | AT tanjoshua alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT pieperkathrin alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT piccoliluca alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT abdiabdirahman alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT perezmathildefoglierini alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT geigerroger alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT tullyclairemaria alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT jarrossaydavid alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT mainandungufrancis alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT wambuajuliana alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT bejonphilip alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT fregnichiarasilacci alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT fernandezrodriguezblanca alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT barbierisonia alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT bianchisiro alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT marshkevin alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT thathyvandana alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT cortidavide alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT sallustofederica alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT bullpeter alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT lanzavecchiaantonio alair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT tanjoshua lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT pieperkathrin lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT piccoliluca lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT abdiabdirahman lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT perezmathildefoglierini lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT geigerroger lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT tullyclairemaria lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT jarrossaydavid lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT mainandungufrancis lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT wambuajuliana lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT bejonphilip lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT fregnichiarasilacci lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT fernandezrodriguezblanca lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT barbierisonia lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT bianchisiro lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT marshkevin lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT thathyvandana lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT cortidavide lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT sallustofederica lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT bullpeter lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens AT lanzavecchiaantonio lair1insertiongeneratesbroadlyreactiveantibodiesagainstmalariavariantantigens |