L. Trümper scite author profile

We have used a single-cell based polymerase chain reaction (PCR) amplification technique to examine the gene expression pattern in single Hodgkin's and Reed-Sternberg (H&RS) cells from seven patients with Hodgkin's disease. Single cells were isolated from lymph nodes obtained at diagnosis (5 of 7 patients) or in first or second relapse (2 of 7 patients). Gene expression was examined by hybridization to a panel of 22 cDNA probes. Forty-nine H&RS cells (and 23 CD3+ or CD20+ lymphocytes as controls) from four patients with nodular sclerosing Hodgkin's disease (HD) and one patient each with lymphocyte predominant and mixed-cellularity HD were successfully analyzed by PCR. This analysis provides evidence that single H&RS cells can coexpress genes characteristic of several hematopoietic lineages (monocytes and lymphocytes). Genes characteristic of activated lymphoid cells are expressed in most H&RS cells. Heterogeneity of expression for certain genes between different cases was found and may eventually define molecular subgroups of HD. These findings indicate that H&RS cells of HD resemble activated hematopoietic cells. Phenotypically similar cells from different cases exhibit characteristic molecular differences. In one patient, 5 of 7 single RS cells showed identical p53 cDNA mutations at codon 246 on specific reverse transcriptase [RT]-PCR and sequencing of exons 5 through 8. The novel experimental approach may provide a valuable tool for understanding the molecular events in newly diagnosed Hodgkin's disease and progression of the disease.

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Diagnosis of pancreatic adenocarcinoma by polymerase chain reaction from pancreatic secretions

Trümper

Bürger²,

Bonin³

et al. 1994

Br J Cancer

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Evidence for a selected humoral immune response encoded by VH4 family genes in the synovial membrane of a patient with rheumatoid arthritis (RA)

Voswinkel

Trümper

Carbon

et al. 1996

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SUMMARYThe analysis of rearranged antibody-encoding genes from B cell foci in rheumatoid synovial tissue has characterized these cells as highly mutated memory B cells with a high proportion of members of the V H 4 family. In order to characterize further the V H 4 response in one patient, B cell-rich areas from different sections of synovial membrane (SM) were identified by CD20 staining, isolated by microdissection and pooled, in order to analyse highly enriched B cells without selection by in vitro culture procedures. From DNA of about 5 2 10 3 B cells rearranged V H genes were amplified by polymerase chain reaction (PCR) and cloned. Sequencing of 11 clones containing rearranged V H 4 gene products revealed that seven were potentially functional, and all were mutated with 84-96% homology to known germ-line (gl) genes and V H 4 gl genes amplified from the patient's genomic DNA. Analysis of the complementarity determining region (CDR) 3 revealed that two products represented members of one B cell clone which differed by five nucleotide changes. Three of the five mutations encoded amino acid replacements in CDRs indicating antigen-driven expansion of one specific clone. Additional analyses of 25 members of three B cell clones from isolated aggregates showing intraclonal diversity in one of three clones provided further evidence that antigen selection takes place in the SM. Overall, the pattern of mutations and the replacement to silent (R:S) ratios were diverse, with six products indicating antigen selection by their high R:S ratios in CDRs. Although DNA analysis does not allow a characterization of antibody specificities, we can conclude from our analysis of antibody-encoding genes that selection by antigen and expansion of specific clones occur in the SM against the background of polyclonal activation.

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Analysis of VH gene rearrangements from synovial B cells of patients with rheumatoid arthritis reveals infiltration of the synovial membrane by memory B cells

Gause

Gundlach

Carbon

et al. 1997

Rheumatology International

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The VH gene (Variable gene segments of the heavy chain locus) repertoire can be investigated by DNA analysis of rearranged immunoglobulin VH genes, which also allows for an indirect estimation of antibody selection by analysis of somatic mutations. Using a polymerase chain reaction (PCR) it is also possible to analyse these genes in small numbers of cells or even single cells. This approach was chosen to investigate germinal centre like lymphocyte follicles in the synovial membranes of two patients with rheumatoid arthritis (RA) in order to analyse the local humoral immune response in RA. Individual B-cell aggregates of synovial membrane of two patients with RA were isolated by micromanipulation from microscopic slides. VH-DH-JH (variable, diversity, and joining segments of the heavy chain locus) rearrangements in all possible VH-JH combinations were amplified from these B cell foci, cloned and subjected to sequence analysis. Sequence analysis revealed that most of the rearranged VH genes were somatically mutated with at least 1% (range 1.3-14.9%) somatic mutations and therefore were derived from antigen-selected memory B cells. Intraclonal diversity in one-third of the clones indicated the generation of memory B cells in the synovial membrane and characterized the synovial membrane as lymphatic tissue where secondary immune responses to an as yet unknown antigen take place.

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Hodgkin and Reed-Sternberg cells do not carry T-cell receptor gamma gene rearrangements: evidence from single-cell polymerase chain reaction examination

Daus

Trümper

Roth

et al. 1995

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Hodgkin and Reed-Sternberg (H&RS) cells are generally accepted to be the neoplastic cells of Hodgkin's disease (HD), even though they represent only a minority of the cellular infiltrate in affected tissues. Recent immunologic studies and Southern blot analyses of DNA extracted from whole lymph node tissue favored, but did not convincingly prove a lymphoid origin of H&RS cells. To detect rearrangements of the T-cell receptor gamma chain (TCR gamma) genes at the single-cell level as an indication of early T-cell lymphoid differentiation, we isolated H&RS cells by micromanipulation from cytospin preparations of fresh biopsy material. TCR gamma chain rearrangement was detected by polymerase chain reaction using four “forward primers” that were constructed corresponding to all four V families and two that were constructed corresponding to all four V families and two “reverse primers” corresponding to consensus sequences of J segments. Rearrangements of all V families in combination with the different J segments were detected in human peripheral blood and tonsillar T cells. Although rearrangements of TCR gamma chain genes were shown in single cells of 10 of 10 T-cell leukemias, no rearrangement of these genes was found in single H&RS cells from 13 consecutive patients with HD. Our results indicate that H&RS cells from the vast majority of cases are not derived from T cells. This finding may have implications for the pathogenesis of HD and the development of more effective treatment regimens.

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L. Trümper

Single-cell analysis of Hodgkin and Reed-Sternberg cells: molecular heterogeneity of gene expression and p53 mutations

Diagnosis of pancreatic adenocarcinoma by polymerase chain reaction from pancreatic secretions

Evidence for a selected humoral immune response encoded by VH4 family genes in the synovial membrane of a patient with rheumatoid arthritis (RA)

Analysis of VH gene rearrangements from synovial B cells of patients with rheumatoid arthritis reveals infiltration of the synovial membrane by memory B cells

Hodgkin and Reed-Sternberg cells do not carry T-cell receptor gamma gene rearrangements: evidence from single-cell polymerase chain reaction examination

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