Genetic and splice variations of Bos taurus CD46 shift cell permissivity to BVDV, the bovine pestivirus.

[en] The pestivirus bovine viral diarrhea virus (BVDV) is known to bind to the CD46 molecule, which subsequently promotes entry of the virus. Mapping of the BVD-virion-binding site has shown that two peptides, 66EQIV69 and 82GQVLAL87, located on antiparallel beta sheets in the most distal complement control protein module (CCP1), provide the attachment platform. In the present study, we reveal the existence of ten distinct allelic versions of the CCP1 module, varying significantly in frequency among taurine and indicine races. A complex mRNA splicing pattern was also evidenced for bovine CD46, generating three different serine-threonine-proline segments and five different cytoplasmic domains. The four most frequent allelic variants and the six splice variants were then expressed in BVDV-nonpermissive porcine cells and the quantity of progeny virions generated by each cell preparation was measured 48 h post-infection. As expected, ectopic expression of the 10 bovine CD46 isoforms rendered the PK15 cells permissive to BVDV, as attested by the 100,000-fold greater recovery of virions from these cells than from non-transfected cells. This permissivity increase was significantly lower (-33%, P<0.001) when the canonical CCP1 was replaced with the variant most frequent in zebus, suggesting positive or negative selection of this allele in the latter and in the former, respectively. The predicted secondary structure of this variant suggests that the measured loss of function is due to the disappearance of one of the two beta sheets constituting the BVDV attachment platform. On the other hand we showed that for a given CCP1, the titer recovered at 48 hpi also depended on the nature of the CD46 cytoplasmic domain (P<0.001). This result implies that virus binding generates a cytoplasmic-tail-dependent outside-in signal that determines permissivity to BVDV.

Disciplines :

Microbiology

Author, co-author :

Zezafoun, Hussein ; Université de Liège - ULiège > Doct. sc. vété. (Bologne)

Decreux, Annabelle; Université de Liège - ULiège

Desmecht, Daniel ; Université de Liège - ULiège > Département de morphologie et pathologie > Pathologie spéciale et autopsies

Language :

English

Title :

Genetic and splice variations of Bos taurus CD46 shift cell permissivity to BVDV, the bovine pestivirus.

Publication date :

28 September 2011

Journal title :

Veterinary Microbiology

ISSN :

0378-1135

eISSN :

1873-2542

Publisher :

Elsevier Science, Amsterdam, Netherlands

Volume :

152

Issue :

3-4

Pages :

315-27

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 19 January 2012

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Bibliography

Altschul S.F., Gish W., Miller W., Myers E.W., Lipman D.J. Basic local alignment search tool. J. Mol. Biol. 1990, 215:403-410.
Buchholz C.J., Koller D., Devaux P., Mumenthaler C., Schneider-Schaulies J., Braun W., Gerlier D., Cattaneo R. Mapping of the primary binding site of measles virus to its receptor CD46. J. Biol. Chem. 1997, 272:22072-22079.
Callebaut I., Labesse G., Durand P., Poupon A., Canard L., Chomilier J., Henrissat B., Mornon J.P. Deciphering protein sequence information through hydrophobic cluster analysis (HCA): current status and perspectives. Cell. Mol. Life Sci. 1997, 53:621-645.
Cattaneo R. Four viruses, two bacteria, and one receptor: membrane cofactor protein (CD46) as pathogens' magnet. J. Virol. 2004, 78:4385-4388.
Elvander M., Baule C., Persson M., Egyed L., Ballagi-Pordany A., Belak S., Alenius S. An experimental study of a concurrent primary infection with bovine respiratory syncytial virus (BRSV) and bovine viral diarrhoea virus (BVDV) in calves. Acta Vet. Scand. 1998, 39:251-264.
Ghali M., Schneider-Schaulies J. Receptor (CD46)- and replication-mediated interleukin-6 induction by measles virus in human astrocytoma cells. J. Neurovirol. 1998, 4:521-530.
Hirano A., Yang Z., Katayama Y., Korte-Sarfaty J., Wong T.C. Human CD46 enhances nitric oxide production in mouse macrophages in response to measles virus infection in the presence of gamma interferon: dependence on the CD46 cytoplasmic domains. J. Virol. 1999, 73:4776-4785.
Hosokawa M., Nonaka M., Okada N., Okada H. Molecular cloning of guinea pig membrane cofactor protein: preferential expression in testis. J. Immunol. 1996, 157:4946-4952.
Imani F., Proud D., Griffin D.E. Measles virus infection synergizes with IL-4 in IgE class switching. J. Immunol. 1999, 162:1597-1602.
Kallstrom H., Blackmer Gill D., Albiger B., Liszewski M.K., Atkinson J.P., Jonsson A.B. Attachment of Neisseria gonorrhoeae to the cellular pilus receptor CD46: identification of domains important for bacterial adherence. Cell. Microbiol. 2001, 3:133-143.
Kallstrom H., Islam M.S., Berggren P.O., Jonsson A.B. Cell signaling by the type IV pili of pathogenic Neisseria. J. Biol. Chem. 1998, 273:21777-21782.
Karosi T., Szalmas A., Csomor P., Konya J., Petko M., Sziklai I. Disease-associated novel CD46 splicing variants and pathologic bone remodeling in otosclerosis. Laryngoscope 2008, 118:1669-1676.
Karp C.L., Wysocka M., Wahl L.M., Ahearn J.M., Cuomo P.J., Sherry B., Trinchieri G., Griffin D.E. Mechanism of suppression of cell-mediated immunity by measles virus. Science 1996, 273:228-231.
Katayama Y., Hirano A., Wong T.C. Human receptor for measles virus (CD46) enhances nitric oxide production and restricts virus replication in mouse macrophages by modulating production of alpha/beta interferon. J. Virol. 2000, 74:1252-1257.
Krey T., Himmelreich A., Heimann M., Menge C., Thiel H.J., Maurer K., Rumenapf T. Function of bovine CD46 as a cellular receptor for bovine viral diarrhea virus is determined by complement control protein 1. J. Virol. 2006, 80:3912-3922.
Lindenbach B.D., Rice C.M. Flaviviridae: the viruses and their replication. Fields Virology 2000, vol. 1:991-1042. Lippincott-Raven, Philadelphia, PA. 4th ed.
Liszewski M.K., Post T.W., Atkinson J.P. Membrane cofactor protein (MCP or CD46): newest member of the regulators of complement activation gene cluster. Annu. Rev. Immunol. 1991, 9:431-455.
Liszewski M.K., Tedja I., Atkinson J.P. Membrane cofactor protein (CD46) of complement, processing differences related to alternatively spliced cytoplasmic domains. J. Biol. Chem. 1994, 269:10776-10779.
Marie J.C., Astier A.L., Rivailler P., Rabourdin-Combe C., Wild T.F., Horvat B. Linking innate and acquired immunity: divergent role of CD46 cytoplasmic domains in T cell induced inflammation. Nat. Immunol. 2002, 3:659-666.
Marie J.C., Kehren J., Trescol-Biemont M.C., Evlashev A., Valentin H., Walzer T., Tedone R., Loveland B., Nicolas J.F., Rabourdin-Combe C., Horvat B. Mechanism of measles virus-induced suppression of inflammatory immune responses. Immunity 2001, 14:69-79.
Maurer K., Krey T., Moennig V., Thiel H.J., Rumenapf T. CD46 is a cellular receptor for bovine viral diarrhea virus. J. Virol. 2004, 78:1792-1799.
Mori Y., Seya T., Huang H.L., Akkapaiboon P., Dhepakson P., Yamanishi K. Human herpesvirus 6 variant A but not variant B induces fusion from without in a variety of human cells through a human herpesvirus 6 entry receptor, CD46. J. Virol. 2002, 76:6750-6761.
Nomura M., Tsujimura A., Shida K., Matsumoto M., Matsuda Y., Toyoshima K., Seya T. Membrane and secretory forms of mouse membrane cofactor protein (CD46) generated from a single gene through alternative splicing. Immunogenetics 1999, 50:245-254.
Palm M., Leroy M., Thomas A., Linden A., Desmecht D. Differential anti-influenza activity among allelic variants at the Sus scrofa Mx1 locus. J. Interferon Cytokine Res. 2007, 27:147-155.
Reed L.J., Muench H. A simple method of estimating fifty per cent endpoints. Am. J. Epidemiol. 1938, 27:493-497.
Ronecker S., Zimmer G., Herrler G., Greiser-Wilke I., Grummer B. Formation of bovine viral diarrhea virus E1-E2 heterodimers is essential for virus entry and depends on charged residues in the transmembrane domains. J. Gen. Virol. 2008, 89:2114-2121.
Rozen S., Skaletsky H. Primer3 on the WWW for general users and for biologist programmers. Methods Mol. Biol. 2000, 132:365-386.
Russell S.M., Sparrow R.L., McKenzie I.F., Purcell D.F. Tissue-specific and allelic expression of the complement regulator CD46 is controlled by alternative splicing. Eur. J. Immunol. 1992, 22:1513-1518.
Santoro F., Greenstone H.L., Insinga A., Liszewski M.K., Atkinson J.P., Lusso P., Berger E.A. Interaction of glycoprotein H of human herpesvirus 6 with the cellular receptor CD46. J. Biol. Chem. 2003, 278:25964-25969.
Segerman A., Atkinson J.P., Marttila M., Dennerquist V., Wadell G., Arnberg N. Adenovirus type 11 uses CD46 as a cellular receptor. J. Virol. 2003, 77:9183-9191.
Thiel H.J., Meyers G., Stark R., Tautz N., Rumenapf T., Unger G., Conzelmann K.K. Molecular characterization of positive-strand RNA viruses: pestiviruses and the porcine reproductive and respiratory syndrome virus (PRRSV). Arch. Virol. Suppl. 1993, 7:41-52.
Tsujimura A., Nunoue K., Inoue N., Shida K., Kurita-Taniguchi M., Matsumoto M., Nomura M., Takeya T., Seya T. Three soluble form messages of murine CD46 are produced through alternative mRNA splicing. J. Biochem. 2001, 130:841-848.
Wang M., Marin A. Characterization and prediction of alternative splice sites. Gene 2006, 366:219-227.
Wu E., Trauger S.A., Pache L., Mullen T.-M., Von Seggern D.J., Siuzdak G., Nemerow G.R. Membrane cofactor protein is a receptor for adenoviruses associated with epidemic keratoconjunctivitis. J. Virol. 2004, 78:3897-3905.