H.G. Seijen scite author profile

As part of our studies into the role of germinal centers, we investigated whether each de novo generated germinal center (GC) develops from one single GC precursor cell (GCPC, monoclonal development), a few GCPC (oligoclonal development) or from many GCPC (polyclonal development). Thus, lethally (9 Gy) X-irradiated AO (RT1u) rats were reconstituted with 10(8) thoracic duct lymphocytes (TDL) containing mixtures of AO and AO X BN cells in various ratios. The AO TDL were tolerant for AO X BN cells by using TDL from AO----(AO X BN)F1 (RT1u/n) X-irradiation bone marrow chimeras. To induce GC formation in the spleen of TDL-reconstituted rats, animals were i.v. injected with 10(9) sheep red blood cells. Five days after reconstitution and antigenic challenge spleens were taken for analysis of cellular make up of de novo generated GC. Spleen sections were immunohistochemically stained with monoclonal antibody F17-23-2, recognizing major histocompatibility complex class II antigens of the RT1n haplotype but not the RT1u haplotype, to discriminate between B cells of AO and AO X BN origin. Analysis of the GC in spleens of rats reconstituted with a mixture of AO and AO X BN TDL revealed three types of GC: GC entirely composed of AO cells, GC entirely composed of AO X BN cells and GC containing a mixture of both. The relative frequencies of these three types of GC indicated that in our experimental system, de novo GC developed oligoclonally from one to three GCPC. These data strongly suggest that GC are sites of antigen-driven expansion of peripheral B cells to very large clones.

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RT7‐Defined Alloantigens in Rats are Part of the Leucocyte Common Antigen Family

Kampinga

Kroese

Pol

et al. 1990

Scand J Immunol

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Haemopoietic cells carry a variety of cell-surface molecules, some of which are known to have allotypic variation. In rats, the RT7 alloantigenic system has been well documented using alloantisera. We have produced the first mouse hybridoma cell line secreting an antibody, HIS41, which binds to leucocytes of rat strains carrying the RT7.2 but not the RT7.1 determinant. An IgG2b isotype switch variant (HIS41.2b) of the original HIS41 (IgG1 isotype) was also made. HIS41 showed a clear and discrete binding in immunofluorescent and histological experiments and has already been used in several studies on haemopoietic cell turnover and differentiation employing PVG rats congenic for RT7. The present study addresses the question of whether the RT7 gene products are members of the L-CA family, which has been a matter of controversy over the last decade. When using HIS41 for the analysis of tissue distribution and molecular weight of RT7 gene products, a strong similarity was evident with the data reported for the L-CA detected by MRC OX-1 and MRC OX-30. These two MoAb have been reported to bind to all members of the L-CA family. All haemopoietic cells, excluding erythrocytes and the more mature stages of erythropoiesis, stained with HIS41. The molecular weights of HIS41 binding molecules on thymocytes and peripheral T cells were comparable to the L-CA precipitated by MRC OX-1. Capping and sequential immunoprecipitation studies indicated that HIS41 and MRC OX-30-binding molecules were identical. MRC OX-1, however, appeared to bind only a subset of these molecules. Thus, our study confirms the identity of RT7.2 gene products and L-CA. It also revealed a difference between MRC OX-1 and MRC OX-30 not noticed previously.

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Identification and localization of enzymes of the fumarate reductase and nitrate respiration systems of escherichia coli by crossed immunoelectrophoresis

Plas¹,

Hellingwerf²,

Seijen³

et al. 1983

J Bacteriol

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Crossed immunoelectrophoresis was used to analyze the components of membrane vesicles of anaerobically grown Escherichia coli. The number of precipitation lines in the crossed immunoelectrophoresis patterns of membrane vesicles isolated from E. coli grown anaerobically on glucose plus nitrate and on glycerol plus fumarate were 83 and 70, respectively. Zymogram staining techniques were used to identify immunoprecipitates corresponding to nitrate reductase, formate dehydrogenase, fumarate reductase, and glycerol-3-phosphate dehydrogenase in crossed immunoelectrophoresis reference patterns. The identification of fumarate reductase by its succinate oxidizing activity was confirmed with purified enzyme and with mutants lacking or overproducing this enzyme. In addition, precipitation lines were found for hydrogenase, cytochrome oxidase, the membrane-bound ATPase, and the dehydrogenases for succinate, malate, dihydroorotate, D-lactate, 6-phosphogluconate, and NADH. Adsorption experiments with intact and solubilized membrane vesicles showed that fumarate reductase, hydrogenase, glycerol-3-phosphate dehydrogenase, nitrate reductase, and ATPase are located at the inner surface of the cytoplasmic membrane; on the other hand, the results suggest that formate dehydrogenase is a transmembrane protein.

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H.G. Seijen

Germinal centers develop oligoclonally

RT7‐Defined Alloantigens in Rats are Part of the Leucocyte Common Antigen Family

Identification and localization of enzymes of the fumarate reductase and nitrate respiration systems of escherichia coli by crossed immunoelectrophoresis

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