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The Journal of Immunology, Vol 154, Issue 1 413-421, Copyright © 1995 by American Association of Immunologists
ARTICLES |
R Crouzier, T Martin and JL Pasquali
Laboratory of Immunopathology, University Hospital of Strasbourg, France.
Mixed cryoglobulinemia is usually considered to be a nonmalignant human B cell proliferation that produces a monoclonal IgM rheumatoid factor (RF). Important immunologic similarities and differences were described between the monoclonal B cells during mixed cryoglobulinemia and during malignant chronic lymphocytic leukemia (CLL):high frequency of the same VH and V kappa gene usage by both types of monoclonal B cells producing IgM with RF activity, apparent intraclonal homogeneity, but different expression of the pan T cell CD5 Ag. The description of an unusual CD5- negative B cell CLL case secreting a mutated IgM RF led the authors to suggest that the usage of non-mutated germline Ig genes is a property of cells derived from the CD5 lineage or stage of differentiation, rather than an intrinsic property of CLL or of IgM RF-producing cells in general. Because mixed cryoglobulinemia cells are usually CD5- negative, it was of interest to test for the existence of mutations in the VH and V kappa regions, as well as for the intraclonal homogeneity of the expressed Ig genes. In this study, we used the PCR technique to analyze the monoclonal rheumatoid factor (mRF) V genes from a patient with mixed cryoglobulinemia. We show that the CD5-negative monoclonal B cells express a slightly mutated V kappa 3 gene, but a more mutated VH1 gene whose genomic counterpart was shown to be the 51p1 germline gene. The sequence analysis of several independent clones shows some degree of intraclonal diversity, suggesting the existence of a clonal filiation. These results are discussed in terms of the origin of the monoclonal B cell during mixed cryoglobulinemia and CLL.
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