126 research outputs found
Individuals with presumably hereditary uveal melanoma do not harbour germline mutations in the coding regions of either the P16INK4A, P14ARF or cdk4 genes
In familial cutaneous malignant melanoma (CMM), disruption of the retinoblastoma (pRB) pathway frequently occurs through inactivating mutations in the p16 (p16INK4A/CDKN2A/MTS1) gene or activating mutations in the G1-specific cyclin dependent kinase 4 gene (CDK4). Uveal malignant melanoma (UMM) also occurs in a familial setting, or sometimes in association with familial or sporadic CMM. Molecular studies of sporadic UMM have revealed somatic deletions covering the INK4A-ARF locus (encoding P16INK4Aand P14ARF) in a large proportion of tumours. We hypothesized that germline mutations in the p16INK4A, p14ARFor CDK4 genes might contribute to some cases of familial UMM, or to some cases of UMM associated with another melanoma. Out of 155 patients treated at the Institut Curie for UMM between 1994 and 1997, and interviewed about their personal and familial history of melanoma, we identified seven patients with a relative affected with UMM (n = 6) or CMM (n = 1), and two patients who have had, in addition to UMM, a personal history of second melanoma, UMM (n = 1), or CMM (n = 1). We screened by polymerase chain reaction single-strand conformation polymorphism the entire coding sequence of the INK4A-ARF locus (exon 1α from p16INK4A, exon 1β from p14ARF, and exons 2 and 3, common to both genes), as well as the exons 2, 5 and 8 of the CDK4 gene, coding for the functional domains involved in p16 and/or cyclin D1 binding. A previously reported polymorphism in exon 3 of the INK4A-ARF locus was found in one patient affected with bilateral UMM, but no germline mutations were detected, either in the p16INK4A, p14ARFor CDK4 genes. Our data support the involvement of other genes in predisposition to uveal melanoma. © 2000 Cancer Research Campaig
P53 germline mutations in childhood cancers and cancer risk for carrier individuals
The family history of cancer in children treated for a solid malignant tumour in the Paediatric Oncology Department at Institute Gustave-Roussy, has been investigated. In order to determine the role of germline p53 mutations in genetic predisposition to childhood cancer, germline p53 mutations were sought in individuals with at least one relative (first- or second-degree relative or first cousin) affected by any cancer before 46 years of age, or affected by multiple cancers. Screening for germline p53 mutation was possible in 268 index cases among individuals fulfilling selection criteria. Seventeen (6.3%) mutations were identified, of which 13 were inherited and four were de novo. Using maximum likelihood methods that incorporate retrospective family data and correct for ascertainment bias, the lifetime risk of cancer for mutation carriers was estimated to be 73% for males and nearly 100% for females with a high risk of breast cancer accounting for the difference. The risk of cancer associated with such mutations is very high and no evidence of low penetrance mutation was found. These mutations are frequently inherited but de novo mutations are not rare. © 2000 Cancer Research Campaig
Mutations in BHD and TP53 genes, but not in HNF1β gene, in a large series of sporadic chromophobe renal cell carcinoma
BHD, TP53, and HNF1β on chromosome 17 were studied in 92 cases of renal cell carcinoma (46 chromophobe, 19 clear cell, 18 oncocytoma, and nine papillary). Six, thirteen, and zero cases had, respectively BHD, TP53, and HNF1β mutations, (84% mutations involved chromophobe), suggesting a role for BHD and TP53 in chromophobe subtype
The role of cancer predisposition syndrome in children and adolescents with very rare tumours
Germline predisposing pathogenic variants (GPVs) are present in approximately 8 to 10% of children with all cancer types. Very rare tumours (VRTs) represent many different diseases, defined with an annual incidence < 2 / 1,000,000, and correspond to 11% of all cancers in patients aged 0-14 years. Some of these VRTs, including cancer typical for adults, develop in children with a cancer predisposition syndrome (CPS). Classically, three situations lead to consider this association: Some patients develop a VRT for which histology itself strongly suggests a GPV related to a CPS; others are referred for germline genetic testing because of a family or personal history and finally, a systematic molecular genomic tumour analysis, reveals a PV typical to a CPS. Depending on the samples tested and type of analysis performed, information can be directly available about the germline status of such a PV. Depicting the association between CPS and VRT is clinically important as some of these tumour types require adapted therapy, sometimes in the frontline setting, and the proposal of a specific surveillance programme to detect other malignancies. The diagnosis of CPS necessitates a careful familial evaluation and genetic counselling regarding the risks faced by the child or other family members. The aim of this paper is to propose a literature review of solid VRTs occurring in paediatric and young adult patients associated with CPSs
The role of cancer predisposition syndrome in children and adolescents with very rare tumours
Germline predisposing pathogenic variants (GPVs) are present in approximately 8–10 % of children with all cancer types. Very rare tumours (VRTs) represent many different diseases, defined with an annual incidence < 2 / 1,000,000, and correspond to 11 % of all cancers in patients aged 0–14 years. Some of these VRTs, including cancer typical for adults, develop in children with a cancer predisposition syndrome (CPS). Classically, three situations lead to consider this association: Some patients develop a VRT for which histology itself strongly suggests a GPV related to a CPS; others are referred for germline genetic testing because of a family or personal history and finally, a systematic molecular genomic tumour analysis, reveals a PV typical to a CPS. Depending on the samples tested and type of analysis performed, information can be directly available about the germline status of such a PV. Depicting the association between CPS and VRT is clinically important as some of these tumour types require adapted therapy, sometimes in the frontline setting, and the proposal of a specific surveillance programme to detect other malignancies. The diagnosis of CPS necessitates a careful familial evaluation and genetic counselling regarding the risks faced by the child or other family members. The aim of this paper is to propose a literature review of solid VRTs occurring in paediatric and young adult patients associated with CPSs
Association of MC1R Variants and host phenotypes with melanoma risk in CDKN2A mutation carriers: a GenoMEL study
<p><b>Background</b> Carrying the cyclin-dependent kinase inhibitor 2A (CDKN2A) germline mutations is associated with a high risk for melanoma. Penetrance of CDKN2A mutations is modified by pigmentation characteristics, nevus phenotypes, and some variants of the melanocortin-1 receptor gene (MC1R), which is known to have a role in the pigmentation process. However, investigation of the associations of both MC1R variants and host phenotypes with melanoma risk has been limited.</p>
<p><b>Methods</b> We included 815 CDKN2A mutation carriers (473 affected, and 342 unaffected, with melanoma) from 186 families from 15 centers in Europe, North America, and Australia who participated in the Melanoma Genetics Consortium. In this family-based study, we assessed the associations of the four most frequent MC1R variants (V60L, V92M, R151C, and R160W) and the number of variants (1, ≥2 variants), alone or jointly with the host phenotypes (hair color, propensity to sunburn, and number of nevi), with melanoma risk in CDKN2A mutation carriers. These associations were estimated and tested using generalized estimating equations. All statistical tests were two-sided.</p>
<p><b>Results</b> Carrying any one of the four most frequent MC1R variants (V60L, V92M, R151C, R160W) in CDKN2A mutation carriers was associated with a statistically significantly increased risk for melanoma across all continents (1.24 × 10−6 ≤ P ≤ .0007). A consistent pattern of increase in melanoma risk was also associated with increase in number of MC1R variants. The risk of melanoma associated with at least two MC1R variants was 2.6-fold higher than the risk associated with only one variant (odds ratio = 5.83 [95% confidence interval = 3.60 to 9.46] vs 2.25 [95% confidence interval = 1.44 to 3.52]; Ptrend = 1.86 × 10−8). The joint analysis of MC1R variants and host phenotypes showed statistically significant associations of melanoma risk, together with MC1R variants (.0001 ≤ P ≤ .04), hair color (.006 ≤ P ≤ .06), and number of nevi (6.9 × 10−6 ≤ P ≤ .02).</p>
<p><b>Conclusion</b> Results show that MC1R variants, hair color, and number of nevi were jointly associated with melanoma risk in CDKN2A mutation carriers. This joint association may have important consequences for risk assessments in familial settings.</p>
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