J. Földi scite author profile

We have studied the arrangement of the alpha, beta and gamma T cell receptor (TCR) genes in 27 patients with T cell lymphoproliferative disorders. Nine patients had acute lymphoblastic leukaemia (T-ALL), nine patients had prolymphocytic leukaemia (PLL), six patients presented with a T-CLL/T-lymphocytosis syndrome, two patients had Sezary syndrome (SS) and one patient had HTLV-I positive T-cell leukaemia/lymphoma (ATLL). alpha TCR gene rearrangement could be demonstrated by the use of three available probes in only one case. By contrast, both beta and gamma TCR gene rearrangement could be demonstrated by Southern blot analysis of DNA samples digested with appropriate restriction enzymes in the majority of cases. In general, when rearrangements were present they involved both alleles. The proportion of rearranged chromosomes was lower in T-ALL than in other forms of T-cell leukaemia and it was lower in cases with the CD4-/CD8+ phenotype than in those with a CD4+/CD8- phenotype. In three out of 34 cases of B-cell leukaemia the TCR beta-gene but not the TCR gamma-gene was rearranged, just as in two out of 26 cases of T-cell leukaemia the immunoglobulin (Ig) heavy chain but not the light chain genes were rearranged. These data suggest that development of the machinery required for gene rearrangement may precede commitment to B or T cell lineage. The use of this technique is especially useful for the classification of cases of ALL in which the cells are negative with respect to most current phenotypic markers and in cases of T cell lymphocytosis in which the finding of a gene rearrangement identifies a monoclonal cell population.

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Enhanced nonenzymatic glycosylation of blood proteins in stored blood

Szelényi

Földi

Hollán

1983

Transfusion

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Significantly enhanced nonenzymatic glycosylation of hemoglobin, plasma, and erythrocyte membrane proteins was demonstrated following storage of whole blood in the liquid state under conventional blood bank conditions. Among the blood components studied, the proteins of the erythrocyte membrane were mainly involved, although the levels of glycosylated hemoglobin and plasma proteins were also significantly increased. In contrast to the nonenzymatic glycosylation observed in vivo in patients with diabetes, the in vitro process is less intensive and most probably results in less functional alteration.

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Differential Gene Expression Pattern between Normal Human Trophoblast and Choriocarcinoma Cell Lines: Downregulation of Heat Shock Protein-27 in Choriocarcinoma in Vitro and in Vivo

Végh

Fülöp

Liu

et al. 1999

Gynecologic Oncology

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Immunoglobulin variable regions usage by B-lymphocytes infiltrating a human breast medullary carcinoma

et al. 1999

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J. Földi

Constitutive and NF-κB—like proteins in the regulation of the serum amyloid a gene by interleukin 1

α, β and γ T-cell receptor genes: rearrangements correlate with haematological phenotype in T cell leukaemias

Enhanced nonenzymatic glycosylation of blood proteins in stored blood

Differential Gene Expression Pattern between Normal Human Trophoblast and Choriocarcinoma Cell Lines: Downregulation of Heat Shock Protein-27 in Choriocarcinoma in Vitro and in Vivo

Immunoglobulin variable regions usage by B-lymphocytes infiltrating a human breast medullary carcinoma

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