2fbo Citations

Ancient evolutionary origin of diversified variable regions demonstrated by crystal structures of an immune-type receptor in amphioxus.

Hernández Prada JA, Haire RN, Allaire M, Jakoncic J, Stojanoff V, Cannon JP, Litman GW, Ostrov DA
Nat Immunol 7 875-82 (2006)
Cited: 38 times
EuropePMC logo PMID: 16799561

Abstract

Although the origins of genes encoding the rearranging binding receptors remain obscure, it is predicted that their ancestral forms were nonrearranging immunoglobulin-type domains. Variable region-containing chitin-binding proteins (VCBPs) are diversified immune-type molecules found in amphioxus (Branchiostoma floridae), an invertebrate that diverged early in deuterostome phylogeny. To study the potential evolutionary relationships between VCBPs and vertebrate adaptive immune receptors, we solved the structures of both a single V-type domain (to 1.15 A) and a pair of V-type domains (to 1.85 A) from VCBP3. The deduced structures show integral features of the ancestral variable-region fold as well as unique features of variable-region pairing in molecules that may reflect characteristics of ancestral forms of diversified immune receptors found in modern-day vertebrates.

Articles - 2fbo mentioned but not cited (2)

  1. Ancient evolutionary origin of diversified variable regions demonstrated by crystal structures of an immune-type receptor in amphioxus. Hernández Prada JA, Haire RN, Allaire M, Jakoncic J, Stojanoff V, Cannon JP, Litman GW, Ostrov DA. Nat. Immunol. 7 875-882 (2006)
  2. Binding mode of the side-by-side two-IgV molecule CD226/DNAM-1 to its ligand CD155/Necl-5. Wang H, Qi J, Zhang S, Li Y, Tan S, Gao GF. Proc. Natl. Acad. Sci. U.S.A. 116 988-996 (2019)


Reviews citing this publication (15)

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  2. The origins of vertebrate adaptive immunity. Litman GW, Rast JP, Fugmann SD. Nat. Rev. Immunol. 10 543-553 (2010)
  3. Immunoglobulin superfamily virus receptors and the evolution of adaptive immunity. Dermody TS, Kirchner E, Guglielmi KM, Stehle T. PLoS Pathog. 5 e1000481 (2009)
  4. Alternative mechanisms of immune receptor diversity. Litman GW, Dishaw LJ, Cannon JP, Haire RN, Rast JP. Curr. Opin. Immunol. 19 526-534 (2007)
  5. Diversity in recognition of glycans by F-type lectins and galectins: molecular, structural, and biophysical aspects. Vasta GR, Ahmed H, Bianchet MA, Fernández-Robledo JA, Amzel LM. Ann. N. Y. Acad. Sci. 1253 E14-26 (2012)
  6. New perspectives for large-scale repertoire analysis of immune receptors. Boudinot P, Marriotti-Ferrandiz ME, Pasquier LD, Benmansour A, Cazenave PA, Six A. Mol. Immunol. 45 2437-2445 (2008)
  7. Structural insights into the evolution of the adaptive immune system. Deng L, Luo M, Velikovsky A, Mariuzza RA. Annu Rev Biophys 42 191-215 (2013)
  8. The amphioxus genome provides unique insight into the evolution of immunity. Dishaw LJ, Haire RN, Litman GW. Brief Funct Genomics 11 167-176 (2012)
  9. Going adaptive: the saga of antibodies. Danilova N, Amemiya CT. Ann. N. Y. Acad. Sci. 1168 130-155 (2009)
  10. Comparative immune systems in animals. Yuan S, Tao X, Huang S, Chen S, Xu A. Annu Rev Anim Biosci 2 235-258 (2014)
  11. Convergent evolution of the adaptive immune response in jawed vertebrates and cyclostomes: An evolutionary biology approach based study. Morales Poole JR, Paganini J, Pontarotti P. Dev. Comp. Immunol. 75 120-126 (2017)
  12. Recognition of additional roles for immunoglobulin domains in immune function. Cannon JP, Dishaw LJ, Haire RN, Litman RT, Ostrov DA, Litman GW. Semin. Immunol. 22 17-24 (2010)
  13. On Origin and Evolution of the Antibody Molecule. Oreste U, Ametrano A, Coscia MR. Biology (Basel) 10 140 (2021)
  14. Immunoglobulin-like receptors and the generation of innate immune memory. Al-Moussawy M, Abdelsamed HA, Lakkis FG. Immunogenetics 74 179-195 (2022)
  15. Secreted immunoglobulin domain effector molecules of invertebrates and management of gut microbial ecology. Liberti A, Natarajan O, Atkinson CGF, Dishaw LJ. Immunogenetics 74 99-109 (2022)

Articles citing this publication (21)

  1. Chitin induces accumulation in tissue of innate immune cells associated with allergy. Reese TA, Liang HE, Tager AM, Luster AD, Van Rooijen N, Voehringer D, Locksley RM. Nature 447 92-96 (2007)
  2. VISTA, a novel mouse Ig superfamily ligand that negatively regulates T cell responses. Wang L, Rubinstein R, Lines JL, Wasiuk A, Ahonen C, Guo Y, Lu LF, Gondek D, Wang Y, Fava RA, Fiser A, Almo S, Noelle RJ. J. Exp. Med. 208 577-592 (2011)
  3. A role for variable region-containing chitin-binding proteins (VCBPs) in host gut-bacteria interactions. Dishaw LJ, Giacomelli S, Melillo D, Zucchetti I, Haire RN, Natale L, Russo NA, De Santis R, Litman GW, Pinto MR. Proc. Natl. Acad. Sci. U.S.A. 108 16747-16752 (2011)
  4. Presence of an unique IgT on the IGH locus in three-spined stickleback fish (Gasterosteus aculeatus) and the very recent generation of a repertoire of VH genes. Gambón-Deza F, Sánchez-Espinel C, Magadán-Mompó S. Dev. Comp. Immunol. 34 114-122 (2010)
  5. A bony fish immunological receptor of the NITR multigene family mediates allogeneic recognition. Cannon JP, Haire RN, Magis AT, Eason DD, Winfrey KN, Hernandez Prada JA, Bailey KM, Jakoncic J, Litman GW, Ostrov DA. Immunity 29 228-237 (2008)
  6. Genomic complexity of the variable region-containing chitin-binding proteins in amphioxus. Dishaw LJ, Mueller MG, Gwatney N, Cannon JP, Haire RN, Litman RT, Amemiya CT, Ota T, Rowen L, Glusman G, Litman GW. BMC Genet. 9 78 (2008)
  7. The basis for haplotype complexity in VCBPs, an immune-type receptor in amphioxus. Dishaw LJ, Ota T, Mueller MG, Cannon JP, Haire RN, Gwatney NR, Litman RT, Litman GW. Immunogenetics 62 623-631 (2010)
  8. Crystal structure of a bony fish beta2-microglobulin: insights into the evolutionary origin of immunoglobulin superfamily constant molecules. Chen W, Gao F, Chu F, Zhang J, Gao GF, Xia C. J. Biol. Chem. 285 22505-22512 (2010)
  9. Amphioxus as a model for investigating evolution of the vertebrate immune system. Yuan S, Ruan J, Huang S, Chen S, Xu A. Dev. Comp. Immunol. 48 297-305 (2015)
  10. Gut immunity in a protochordate involves a secreted immunoglobulin-type mediator binding host chitin and bacteria. Dishaw LJ, Leigh B, Cannon JP, Liberti A, Mueller MG, Skapura DP, Karrer CR, Pinto MR, De Santis R, Litman GW. Nat Commun 7 10617 (2016)
  11. Expression of Ciona intestinalis variable region-containing chitin-binding proteins during development of the gastrointestinal tract and their role in host-microbe interactions. Liberti A, Melillo D, Zucchetti I, Natale L, Dishaw LJ, Litman GW, De Santis R, Pinto MR. PLoS ONE 9 e94984 (2014)
  12. Structure of a variable lymphocyte receptor-like protein from the amphioxus Branchiostoma floridae. Cao DD, Liao X, Cheng W, Jiang YL, Wang WJ, Li Q, Chen JY, Chen Y, Zhou CZ. Sci Rep 6 19951 (2016)
  13. Plasticity of the immunoglobulin domain in the evolution of immunity. Cannon JP. Integr. Comp. Biol. 49 187-196 (2009)
  14. Immunoglobulin variable regions in molecules exhibiting characteristics of innate and adaptive immune receptors. Litman GW, Cannon JP, Dishaw LJ, Haire RN, Eason DD, Yoder JA, Prada JH, Ostrov DA. Immunol. Res. 38 294-304 (2007)
  15. Predicting a double mutant in the twilight zone of low homology modeling for the skeletal muscle voltage-gated sodium channel subunit beta-1 (Nav1.4 β1). Scior T, Paiz-Candia B, Islas ÁA, Sánchez-Solano A, Millan-Perez Peña L, Mancilla-Simbro C, Salinas-Stefanon EM. Comput Struct Biotechnol J 13 229-240 (2015)
  16. A Soluble Immune Effector Binds Both Fungi and Bacteria via Separate Functional Domains. Liberti A, Cannon JP, Litman GW, Dishaw LJ. Front Immunol 10 369 (2019)
  17. Crystallization and preliminary X-ray diffraction analysis of a single variable domain of the immunoglobulin superfamily in amphioxus, Amphi-IgSF-V. Jiang B, Liu Y, Chen R, Wang Z, Tariq M, Xia C. Acta Crystallogr F Struct Biol Commun 70 1072-1075 (2014)
  18. Discovery and Analysis of Invertebrate IgVJ-C2 Structure from Amphioxus Provides Insight into the Evolution of the Ig Superfamily. Chen R, Zhang L, Qi J, Zhang N, Zhang L, Yao S, Wu Y, Jiang B, Wang Z, Yuan H, Zhang Q, Xia C. J. Immunol. 200 2869-2881 (2018)
  19. Evidence for the Rapid and Divergent Evolution of Mycoplasmas: Structural and Phylogenetic Analysis of Enolases. Chen R, Zhao L, Gan R, Feng Z, Cui C, Xie X, Hao F, Zhang Z, Wang L, Ran T, Wang W, Zhang S, Li Y, Zhang W, Pang M, Xiong Q, Shao G. Front Mol Biosci 8 811106 (2021)
  20. Comment Recognition reversal in a spineless scrounger. Greenspan NS, Schroeder HW. Nat. Immunol. 7 797-798 (2006)
  21. The Concerted Action of E2-2 and HEB Is Critical for Early Lymphoid Specification. Bouderlique T, Peña-Pérez L, Kharazi S, Hils M, Li X, Krstic A, De Paepe A, Schachtrup C, Gustafsson C, Holmberg D, Schachtrup K, Månsson R. Front Immunol 10 455 (2019)


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