Krzysztof Gawrychowski scite author profile

It has been suggested based on familial data that Nijmegen breakage syndrome (NBS) heterozygotes have an increased risk of malignant tumors. We found 15 carriers of the 657del5 mutation and 8 carriers of the R215W molecular variant of the NBS1 gene among 1,289 consecutive patients from Central Poland with various cancers and only 10 and 4 such carriers, respectively, in 1,620 controls from this region. Most of the 657del5 mutation carriers were found among patients with melanoma (4/105), non-Hodgkin lymphoma (2/ 42) and breast cancer (4/224) and of the 234 patients with colorectal carcinoma 3 carried the 657del5 mutation and 3 others the R215W molecular variant. The frequencies of 657del5 mutation carriers among patients with melanoma and non-Hodgkin lymphoma and of R215W carriers in patients with colorectal cancer were significantly higher than in controls (p < 0.01, < 0.05 and < 0.05 respectively). The pooled frequencies of 657del5 and R215W mutations in all cancer patients were also significantly higher than in controls (p < 0.05). Two carriers of the 657del5 mutation had second primary tumors. Malignant tumors among parents and siblings of 657del5 mutation carriers (14/77) were twice more frequent than in population controls. Three carriers of this mutation (2 probands with melanoma) reported melanoma in relatives. These results suggest strongly that NBS1 heterozygosity may be associated with elevated risk of some cancers. Larger studies are needed to evaluate the impact of the high frequency of germline NBS1 mutations on the cancer burden in the Slav populations. © 2004 Wiley-Liss, Inc. Key words: NBS1 gene; heterozygous mutation carriers; 657del5 mutation; R215W molecular variant; cancer riskThe chromosomal instability disorder, Nijmegen breakage syndrome (NBS), is characterized by microcephaly, growth retardation, immunodeficiency, hypersensitivity to X-irradiation and increased predisposition to lymphoid malignancy. 1 The gene mutated in NBS was identified in 1998. [2][3][4] Nibrin, the product of the NBS1 gene, is part of the MRE11/RAD50 complex, which is involved in the repair of DNA double strand breaks (DSBs). Double strand breaks are not only induced by mutagens but are also intermediates of DNA processing in immune gene rearrangements, the maintenance of telomeres, and in meiotic recombination. Nibrin is involved in the processing of all these types of DSBs. 2 This explains the complex NBS phenotype, including the very high incidence of lymphomas and other malignant tumors, which are the major cause of deaths among NBS patients already during childhood and adolescence. 5 The majority of NBS patients are of Central and Eastern European origin and share the common founder mutation in the NBS1 gene, 657del5. 6 NBS shares many clinical and cellular features with ataxiatelangiectasia (AT), and it was shown that they are also pathogenetically related. 7-10 Interestingly, the cancer risk in NBS1 homozygotes is higher than that of AT patients. 5 Heterozygous relatives of AT probands have an approximately 2...

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Clinically relevant bleeding in cancer patients treated for venous thromboembolism from the CATCH study

Kamphuisen

Lee

Meyer

et al. 2018

Journal of Thrombosis and Haemostasis

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Background Cancer patients with acute venous thromboembolism (VTE) receiving anticoagulant treatment have an increased bleeding risk. Objectives We performed a prespecified secondary analysis of the randomized, open-label, Phase III CATCH trial (NCT01130025) to assess the rate and sites of and the risk factors for clinically relevant bleeding (CRB). Patients/Methods Patients with active cancer and acute, symptomatic VTE received either tinzaparin 175 IU kg once daily or warfarin (target International Normalized Ratio [INR] of 2.0-3.0) for 6 months. Fisher's exact test was used to screen prespecified clinical risk factors; those identified as being significantly associated with an increased risk of CRB then underwent competing risk regression analysis of time to first CRB. Results Among 900 randomized patients, 138 (15.3%) had 180 CRB events. CRB occurred in 60 patients (81 events) in the tinzaparin group and in 78 patients (99 events) in the warfarin group (hazard ratio [HR] 0.64; 95% confidence interval [CI] 0.45-0.89). Common bleeding sites were gastrointestinal (36.7%; n = 66), genitourinary (22.8%; n = 41), and nasal (10.0%; n = 18). In multivariate analysis, the risk of CRB increased with age > 75 years (HR 1.83, 95% CI 1.14-2.94) and intracranial malignancy (HR 1.97, 95% CI 1.07-3.62). In the warfarin group, 40.4% of CRB events occurred in patients with with an INR of < 3.0. A lower time in therapeutic range was associated with a higher risk of CRB. Conclusions CRB is a frequent complication in cancer patients with VTE during anticoagulant treatment, and is associated with age > 75 years and intracranial malignancy.

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The influence of theobromine on angiogenic activity and proangiogenic cytokines production of human ovarian cancer cells.

Barcz¹,

Sommer²,

Sokolnicka³

et al. 1998

Oncol Rep

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Clinical Significance of Serum CA-125 and Soluble Tumor Necrosis Factor Receptor Type I in Cervical Adenocarcinoma Patients

Kotowicz

Kamińska²,

Fuksiewicz³

et al. 2010

International Journal of Gynecological Cancer

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The Angiogenic Activity of Ascites in the Course of Ovarian Cancer as a Marker of Disease Progression

Gawrychowski¹,

Szewczyk

Skopińska-Różewska

et al. 2014

Disease Markers

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Ovarian cancer cells are able to create invasive implants in the peritoneum and their growth is directly associated with the angiogenetic potential. This effect is probably stimulated by vascular endothelial growth factor (VEGF) and interleukin-8 (IL-8), which are both found in ascites. The aim of this study was to assess the influence of ascites produced by ovarian cancer on the angiogenesis. Peritoneal fluid was collected from patients with advanced ovarian cancer; cancer cells were separated from CD45+ leukocytes. Angiogenesis was assessed in mice, after intradermal injection of full cellular suspension together with supernatant or phosphate buffered saline, purified cancer cells suspension, or CD45+ leukocytes suspension. The angiogenesis index (AI) was assessed after 72 hours. VEGF and Il-8 were measured in the supernatant and cellular suspension. AI was the highest in the isolated cancer cells suspensions as well in the group stimulated with supernatant. Both VEGF and IL-8 were high in supernatants from ascites rich in cancer cells (>45%). A significant correlation was revealed between IL-8 concentration and AI. We conclude that ascites in patients with advanced ovarian cancer stimulates angiogenesis and this mechanism is dependent mostly on cancer cells activity and enhanced by cooperation with infiltrating leukocytes.

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