Erratum: Gravitational-Wave Background as a Probe of the Primordial Black-Hole Abundance [Phys. Rev. Lett.<b>102</b>, 161101 (2009)]

Conventional cytogenetic analysis in B-cell chronic lymphocytic leukemia (B-CLL) has been very difficult, and the prognostic significance of specific chromosome aberrations is under discussion. Recent improvements in fluorescence in situ hybridization (ISH) techniques have provided an alternative approach for the detection of chromosome aberrations. Here, an interphase cytogenetic study was performed to analyze the incidence and prognostic significance of a p53 gene deletion in B-CLL and related disorders. We studied mononuclear cells from 100 patients with chronic B-cell leukemias [B-CLL, 90 patients; B-prolymphocytic leukemia (B-PLL), 7; Waldenstrom's macroglobulinemia (WM), 3] by fluorescence ISH with a genomic p53 DNA probe. In a subset of patients, additional G-banding analysis and single strand conformation polymorphism (SSCP) analysis was performed. Seventeen of the 100 patients [17%; B-CLL, 11 of 90 (12%); WM, 1 of 3; B-PLL, 5 of 7] exhibited a monoallelic p53 gene deletion by ISH. G- banding analysis demonstrated abnormalities of chromosome 17 in 13 of these 17 patients, all leading to loss of band 17p13. SSCP analysis showed aberrant bands in 9 of 14 patients with a p53 gene deletion. None of 12 patients with a p53 gene deletion compared with 20 of 36 patients (56%) without a deletion responded to therapy with fludarabine or pentostatin (P < .001). The difference in survival probabilities from the time of diagnosis and from the start of treatment with purine analogs between the two groups was highly significant (P < .001). In multivariate analysis, p53 gene deletion was the strongest prognostic factor for survival. In conclusion, p53 gene deletion predicts for non- response to therapy with purine analogs and for poor survival in chronic B-cell leukemias.

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Hepatic failure and liver cell damage in acute Wilson's disease involve CD95 (APO-1 /Fas) Mediated apoptosis

Strand

Hofmann

Grambihler

et al. 1998

Nat Med

257

129

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Wilson's disease can result in fulminant liver failure due to hepatic copper overload. The CD95 system mediates apoptosis and has been demonstrated to be involved in liver disease. In this study CD95 mediated apoptosis was investigated in patients with fulminant hepatic failure in the course of Wilson's disease and in an in vitro model of copper treated human hepatoma cells. In patients, hepatic expression of CD95 and CD95L mRNA and apoptosis were detected. Copper overload in vitro resulted in hepatocytic apoptosis which could be reduced with a neutralizing anti-CD95L antibody. Copper treatment of hepatocytes results in activation of the CD95 system and induction of apoptosis which is operative during the course of hepatic failure in acute Wilson's disease.

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In vitro experimental infection of primary human hepatocytes with hepatitis B virus

Galle¹,

Hagelstein²,

Kommerell³

et al. 1994

Gastroenterology

118

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Aberrant cytoplasmic expression of the p16 protein in breast cancer is associated with accelerated tumour proliferation

Emig

Magener²,

Ehemann³

et al. 1998

Br J Cancer

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Martin Volkmann

p53 gene deletion predicts for poor survival and non-response to therapy with purine analogs in chronic B-cell leukemias

Hepatic failure and liver cell damage in acute Wilson's disease involve CD95 (APO-1 /Fas) Mediated apoptosis

In vitro experimental infection of primary human hepatocytes with hepatitis B virus

Aberrant cytoplasmic expression of the p16 protein in breast cancer is associated with accelerated tumour proliferation

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