H. Kaufmann scite author profile

Interphase fluorescence in situ hybridization (FISH) studies of chromosomal region 13q14 were performed to investigate the incidence and clinical importance of deletions in multiple myeloma (MM). Monoallelic deletions of the retinoblastoma-1 (rb-1) gene and the D13S319 locus were observed in 48 of 104 patients (46.2%) and in 28 of 72 (38.9%) patients, respectively, with newly diagnosed MM. FISH studies found that 13q14 was deleted in all 17 patients with karyotypic evidence of monosomy 13 or deletion of 13q but also in 9 of 19 patients with apparently normal karyotypes. Patients with a 13q14 deletion were more likely to have stage III disease (P = .022), higher serum levels of β2-microglobulin (P = .059), and a higher percentage of bone marrow plasma cells (P = .085) than patients with a normal 13q14 status on FISH analysis. In patients with a deletion of 13q14, myeloma cell proliferation (Ki-67) was markedly increased (22.0% ± 6.9% compared with 15.6% ± 8.2% in patients without the deletion;P = .0008). Evaluation of bromodeoxyuridine incorporation in 5 patients revealed that both rb-1–deleted and rb-1–normal MM subpopulations were proliferative. The presence of a 13q14 deletion on FISH analysis was associated with a significantly lower rate of response to conventional-dose chemotherapy (40.8% compared with 78.6%; P = .009) and a shorter overall survival (24.2 months compared with > 60 months; P < .005) than in patients without the deletion. Multivariate analysis of prognostic factors confirmed the independent predictive value of 13q14 deletions for shortened survival. In conclusion, deletions of 13q14 are frequently detected by interphase FISH in patients with newly diagnosed MM, correlate with increased proliferative activity, and represent an independent adverse prognostic feature in MM.

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Predictive Role of Interphase Cytogenetics for Survival of Patients With Multiple Myeloma

Königsberg

Zojer

Ackermann

et al. 2000

JCO

161

109

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Adhesion and invasion of bovine endothelial cells byNeospora caninum

Gottstein²,

1996

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SUMMARYNeospora caninum is a recently identified coccidian parasite which was, until 1988, misdiagnosed as Toxoplasma gondii. It causes paralysis and death in dogs and neonatal mortality and abortion in cattle, sheep, goats and horses. The life-cycle of Neospora has not yet been elucidated. The only two stages identified so far are tissue cysts and intracellularly dividing tachyzoites. Very little is known about the biology of this species. We have set up a fluorescence-based adhesion / invasion assay in order to investigate the interaction of N. caninum tachyzoites with bovine aorta endothelial (BAE) cells in vitro. Treatment of both host cells and parasites with metabolic inhibitors determined the metabolic requirements for adhesion and invasion. Chemical and enzymatic modifications of parasite and endothelial cell surfaces were used in order to obtain information on the nature of cell surface components responsible for the interaction between parasite and host. Electron microscopical investigations defined the ultrastructural characteristics of the adhesion and invasion process, and provided information on the intracellular development of the parasites.

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New insights into the pathophysiology of multiple myeloma

Kaufmann

Drach

2003

The Lancet Oncology

120

105

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H. Kaufmann

Deletion of 13q14 remains an independent adverse prognostic variable in multiple myeloma despite its frequent detection by interphase fluorescence in situ hybridization

Predictive Role of Interphase Cytogenetics for Survival of Patients With Multiple Myeloma

Adhesion and invasion of bovine endothelial cells byNeospora caninum

New insights into the pathophysiology of multiple myeloma

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