Literature DB >> 28382515

Evolutionary and polymorphism analyses reveal the central role of BTN3A2 in the concerted evolution of the BTN3 gene family.

Hassnae Afrache1,2,3,4, Pierre Pontarotti5, Laurent Abi-Rached6, Daniel Olive7,8,9,10.   

Abstract

The butyrophilin 3 (BTN3) receptors are implicated in the T lymphocytes regulation and present a wide plasticity in mammals. In order to understand how these genes have been diversified, we studied their evolution and show that the three human BTN3 are the result of two successive duplications in Primates and that the three genes are present in Hominoids and the Old World Monkey groups. A thorough phylogenetic analysis reveals a concerted evolution of BTN3 characterized by a strong and recurrent homogenization of the region encoding the signal peptide and the immunoglobulin variable (IgV) domain in Hominoids, where the sequences of BTN3A1 or BTN3A3 are replaced by BTN3A2 sequence. In human, the analysis of the diversity of these genes in 1683 individuals representing 26 worldwide populations shows that the three genes are polymorphic, with more than 46 alleles for each gene, and marked by extreme homogenization of the IgV sequences. The same analysis performed for the BTN2 genes shows also a concerted evolution; however, it is not as strong and recurrent as for BTN3. This study shows that BTN3 receptors are marked by extreme concerted evolution at the IgV domain and that BTN3A2 plays a central role in this evolution.

Entities:  

Keywords:  Butyrophilin; Concerted evolution; Hominoids; Homogenization; IgV; Phylogenetic analysis

Mesh:

Substances:

Year:  2017        PMID: 28382515     DOI: 10.1007/s00251-017-0980-z

Source DB:  PubMed          Journal:  Immunogenetics        ISSN: 0093-7711            Impact factor:   2.846


  43 in total

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Journal:  Atherosclerosis       Date:  2010-12-15       Impact factor: 5.162

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Journal:  Immunogenetics       Date:  1997       Impact factor: 2.846

Review 4.  The butyrophilin (BTN) gene family: from milk fat to the regulation of the immune response.

Authors:  Hassnae Afrache; Philippe Gouret; Shanaiz Ainouche; Pierre Pontarotti; Daniel Olive
Journal:  Immunogenetics       Date:  2012-09-23       Impact factor: 2.846

5.  Differential role for CD277 as a co-regulator of the immune signal in T and NK cells.

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Journal:  Eur J Immunol       Date:  2011-11-03       Impact factor: 5.532

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Journal:  Blood       Date:  2012-07-05       Impact factor: 22.113

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Review 8.  Butyrophilins: an emerging family of immune regulators.

Authors:  Lucie Abeler-Dörner; Mahima Swamy; Gareth Williams; Adrian C Hayday; Anna Bas
Journal:  Trends Immunol       Date:  2011-10-24       Impact factor: 16.687

9.  Identifying concerted evolution and gene conversion in mammalian gene pairs lasting over 100 million years.

Authors:  Andrew R Carson; Stephen W Scherer
Journal:  BMC Evol Biol       Date:  2009-07-07       Impact factor: 3.260

10.  An integrated map of genetic variation from 1,092 human genomes.

Authors:  Goncalo R Abecasis; Adam Auton; Lisa D Brooks; Mark A DePristo; Richard M Durbin; Robert E Handsaker; Hyun Min Kang; Gabor T Marth; Gil A McVean
Journal:  Nature       Date:  2012-11-01       Impact factor: 49.962
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  8 in total

1.  Alpaca (Vicugna pacos), the first nonprimate species with a phosphoantigen-reactive Vγ9Vδ2 T cell subset.

Authors:  Alina S Fichtner; Mohindar M Karunakaran; Siyi Gu; Christopher T Boughter; Marta T Borowska; Lisa Starick; Anna Nöhren; Thomas W Göbel; Erin J Adams; Thomas Herrmann
Journal:  Proc Natl Acad Sci U S A       Date:  2020-03-05       Impact factor: 11.205

2.  The Armadillo (Dasypus novemcinctus): A Witness but Not a Functional Example for the Emergence of the Butyrophilin 3/Vγ9Vδ2 System in Placental Mammals.

Authors:  Alina Suzann Fichtner; Mohindar Murugesh Karunakaran; Lisa Starick; Richard W Truman; Thomas Herrmann
Journal:  Front Immunol       Date:  2018-02-23       Impact factor: 7.561

Review 3.  An Update on the Molecular Basis of Phosphoantigen Recognition by Vγ9Vδ2 T Cells.

Authors:  Thomas Herrmann; Alina Suzann Fichtner; Mohindar Murugesh Karunakaran
Journal:  Cells       Date:  2020-06-09       Impact factor: 6.600

4.  Identification of the primate-specific gene BTN3A2 as an additional schizophrenia risk gene in the MHC loci.

Authors:  Yong Wu; Rui Bi; Chunhua Zeng; Changguo Ma; Chunli Sun; Jingzheng Li; Xiao Xiao; Ming Li; Deng-Feng Zhang; Ping Zheng; Nengyin Sheng; Xiong-Jian Luo; Yong-Gang Yao
Journal:  EBioMedicine       Date:  2019-05-24       Impact factor: 8.143

Review 5.  Harnessing donor unrestricted T-cells for new vaccines against tuberculosis.

Authors:  Simone A Joosten; Tom H M Ottenhoff; David M Lewinsohn; Daniel F Hoft; D Branch Moody; Chetan Seshadri
Journal:  Vaccine       Date:  2019-04-27       Impact factor: 3.641

6.  Mendelian randomization integrating GWAS and eQTL data revealed genes pleiotropically associated with major depressive disorder.

Authors:  Huarong Yang; Di Liu; Chuntao Zhao; Bowen Feng; Wenjin Lu; Xiaohan Yang; Minglu Xu; Weizhu Zhou; Huiquan Jing; Jingyun Yang
Journal:  Transl Psychiatry       Date:  2021-04-17       Impact factor: 6.222

Review 7.  Prognostic and Therapeutic Significance of BTN3A Proteins in Tumors.

Authors:  Sihan Chen; Zhangyun Li; Wenyi Huang; Yanyan Wang; Shaohua Fan
Journal:  J Cancer       Date:  2021-05-27       Impact factor: 4.207

8.  Analysis of macaque BTN3A genes and transcripts in the extended MHC: conserved orthologs of human γδ T cell modulators.

Authors:  Nanine de Groot; Rens Groen; Vaneesha Orie; Jesse Bruijnesteijn; Natasja G de Groot; Gaby G M Doxiadis; Ronald E Bontrop
Journal:  Immunogenetics       Date:  2019-08-05       Impact factor: 2.846
  8 in total

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