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Journal List > Retrovirology > v.6; 2009
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PubMed articles by:
Laufer, G.
Mayer, J.
Mueller, B.
Ruprecht, K.
Retrovirology. 2009; 6: 37.
Published online 2009 April 15. doi: 10.1186/1742-4690-6-37.
PMCID: PMC2672075
Copyright © 2009 Laufer et al; licensee BioMed Central Ltd.
Analysis of transcribed human endogenous retrovirus W env loci clarifies the origin of multiple sclerosis-associated retrovirus env sequences
Georg Laufer,1 Jens Mayer,2 Benedikt F Mueller,1 Nikolaus Mueller-Lantzsch,1 and Klemens Ruprechtcorresponding author1,3
1Institute of Virology, Saarland University Hospital, Homburg, Germany
2Department of Human Genetics, Saarland University Hospital, Homburg, Germany
3Department of Neurology, Saarland University Hospital, Homburg, Germany
corresponding authorCorresponding author.
Georg Laufer: G_1982/at/web.de; Jens Mayer: jens.mayer/at/uniklinik-saarland.de; Benedikt F Mueller: benedikt.f.mueller/at/gmx.de; Nikolaus Mueller-Lantzsch: vinmue/at/uks.eu; Klemens Ruprecht: klemens.ruprecht/at/uks.eu
Received January 14, 2009; Accepted April 15, 2009.
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
 
Abstract
Background
Multiple sclerosis-associated retrovirus (MSRV) RNA sequences have been detected in patients with multiple sclerosis (MS) and are related to the multi-copy human endogenous retrovirus family type W (HERV-W). Only one HERV-W locus (ERVWE1) codes for a complete HERV-W Env protein (Syncytin-1). Syncytin-1 and the putative MSRV Env protein have been involved in the pathogenesis of MS. The origin of MSRV and its precise relation to HERV-W were hitherto unknown.
Results
By mapping HERV-W env cDNA sequences (n = 332) from peripheral blood mononuclear cells of patients with MS and healthy controls onto individual genomic HERV-W env elements, we identified seven transcribed HERV-W env loci in these cells, including ERVWE1. Transcriptional activity of individual HERV-W env elements did not significantly differ between patients with MS and controls. Remarkably, almost 30% of HERV-W env cDNAs were recombined sequences that most likely arose in vitro between transcripts from different HERV-W env elements. Re-analysis of published MSRV env sequences revealed that all of them can be explained as originating from genomic HERV-W env loci or recombinations among them. In particular, a MSRV env clone previously used for the generation of monoclonal antibody 6A2B2, detecting an antigen in MS brain lesions, appears to be derived from a HERV-W env locus on chromosome Xq22.3. This locus harbors a long open reading frame for an N-terminally truncated HERV-W Env protein.
Conclusion
Our data clarify the origin of MSRV env sequences, have important implications for the status of MSRV, and open the possibility that a protein encoded by a HERV-W env element on chromosome Xq22.3 may be expressed in MS brain lesions.
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