The evaluation of p53 function in cells from members of cancer prone families

Lomax, Martine Elizabeth

January 1998

No description available.

572.8

Predisposing genes in hereditary breast and ovarian cancer

Huusko, P. (Pia)

18 August 1999

Abstract In the present study, mutations in BRCA1 and BRCA2, the two major genes predisposing individuals to hereditary breast and ovarian cancer, were screened in Finnish and Turkish cancer families. Germline BRCA1 mutations were found in 7% (6/88) and BRCA2 mutations in 6% (5/88) of the Finnish families studied in Oulu. Two distinct BRCA1 (3745delT, 4216nt-2A→G) and three BRCA2 (999delTCAAA, 6503delTT, 9346nt-2A→G) mutations were identified, all of which are recurrently found in Finland. In the 15 Turkish cancer families studied, 5382insC and 5622C→T were detected in BRCA1, and 3414delTCAG in BRCA2. The novel 3414del4 mutation was found in a family with a case of male breast cancer. In order to determine their ages and origin, 9 recurrent Finnish BRCA1 and BRCA2 mutations were studied further as regards haplotype conservation. Common origins approximately 18–80 generations (400–1600 years) ago were demonstrated for all studied mutations by partial haplotype sharing. The majority of the mutations showed geographical clustering, supporting the theory of regional founder effects. Four of the nine mutations are unique for Finland, whereas five have also been seen elsewhere. Mutations in the 5' end of BRCA1 tend to predispose individuals to ovarian cancer and those found in the 3' end to breast cancer. The age of ovarian cancer onset was significantly lower for BRCA1 (51 years) than for BRCA2 mutation carriers (61 years). Germline TP53 mutations were sought in the Finnish breast cancer families found to be negative after BRCA1 and BRCA2 screening but who exhibited some phenotypic features of the Li-Fraumeni syndrome. The Asn235Ser was found in a family displaying Li-Fraumeni syndrome phenotype and the Tyr220Cys in a family with a milder Li-Fraumeni-like phenotype. The nature of both mutations as cancer-predisposing alterations was supported by means of loss of heterozygosity (LOH) and p53 immunohistochemistry studies. Regional clustering of BRCA1 and BRCA2 founder mutations enables targeted genetic tests including especially those mutations characteristic of the birthplace of each patient. Additional genes are likely to explain a large proportion of the inherited susceptibility to breast cancer in particular. Germline TP53 mutations are expected to be found in the breast cancer families with other clinical features seen in the Li-Fraumeni syndrome.

BRCA1

BRCA2

Li-Fraumeni syndrome

founder mutations

The Role of miR-605 and its Variant in Li-Fraumeni Syndrome

Badr, Idsaid

18 March 2014

Li-Fraumeni Syndrome (LFS) is a rare cancer predisposition syndrome, typically involving germline mutations in the TP53 gene. Despite the high penetrance of TP53 mutations, LFS patients display striking phenotypic differences, suggesting the presence of secondary risk loci. To date, all genetic modifiers in LFS have been shown to map to either TP53 or its principal negative regulator, Mdm2. Given this strong association, we set out to interrogate the contribution of a recently-described miRNA regulator of the p53-MDM2 loop, called miR-605. We hypothesized that, if functional, the miR-605 gene and its variant (rs2043556) could impact cancer risk in TP53 mutation carriers. Consistent with this proposition, the variant allele of miR-605 was associated with a significant acceleration in tumor onset and caused a decrease in the processing efficiency of its host miRNA. We also demonstrate that miR-605 overexpression activates the MAPK pathway and leads to tumor suppression in TP53 mutant cell lines.

MicroRNA

Li-Fraumeni Syndrome

p53

Single Nucleotide Polymorphism

0369

0307

The Role of miR-605 and its Variant in Li-Fraumeni Syndrome

Badr, Idsaid

18 March 2014

Li-Fraumeni Syndrome (LFS) is a rare cancer predisposition syndrome, typically involving germline mutations in the TP53 gene. Despite the high penetrance of TP53 mutations, LFS patients display striking phenotypic differences, suggesting the presence of secondary risk loci. To date, all genetic modifiers in LFS have been shown to map to either TP53 or its principal negative regulator, Mdm2. Given this strong association, we set out to interrogate the contribution of a recently-described miRNA regulator of the p53-MDM2 loop, called miR-605. We hypothesized that, if functional, the miR-605 gene and its variant (rs2043556) could impact cancer risk in TP53 mutation carriers. Consistent with this proposition, the variant allele of miR-605 was associated with a significant acceleration in tumor onset and caused a decrease in the processing efficiency of its host miRNA. We also demonstrate that miR-605 overexpression activates the MAPK pathway and leads to tumor suppression in TP53 mutant cell lines.

MicroRNA

Li-Fraumeni Syndrome

p53

Single Nucleotide Polymorphism

0369

0307

IDENTIFICATION OF GENES THAT COOPERATE WITH P53 IN TUMORIGENESIS

Ayanga, Bernard Aguya

20 December 2006

No description available.

p53

Li-Fraumeni syndrome

Loss of Heterozygosity

Metastasis

Cancer

Stat5a

Atuação da mutação R337H em TP53 em pacientes de Li-Fraumeni em autofagia, senescência e função mitocondrial

Hütten, Michele Oliveira

January 2016

Introdução: As síndromes de Li-Fraumeni (LFS) e Li-Fraumeni Like (LFL) são síndromes hereditárias de predisposição a câncer frequentemente associadas à mutações germinativas no gene TP53. Devido à importância de p53 e diversidade de processos celulares que ela regula, várias vias de sinalização podem ser afetadas pela doença. Nesse estudo discutimos o impacto da mutação p.R337H na proliferação, senescência, autofagia, população e funcionalidade mitocondrial. Métodos: As taxas de proliferação foram avaliadas pelo ensaio de Population Doubling. Os experimentos de senescência, autofagia, massa total e funcionalidade mitocondrial foram realizados por citometria de fluxo. Resultados: As células contendo a mutação proliferaram mais do que as células controle. Além disso, as células mutadas não ativaram autofagia sob tratamento de Rapamicina nem senescência sob tratamento de Doxorubicina ou Cisplatina e exibiram maior população mitocondrial, mas com funcionalidade inalterada após os tratamentos. Conclusão: os dados sugerem que a mutação p.R337H em TP53 afeta a indução de senescência realizada por p53 e suas funções pró-autofágicas, bem como seu controle. As células mutadas proliferam mais do que células sem mutação em TP53 e exibiram maior massa mitocondrial sem perda de funcionalidade após o tratamento com Doxorubicina. / Background: Li-Fraumeni (LFS) and Li-Fraumeni Like (LFL) syndromes are hereditary cancer predisposition syndromes frequently associated with germline mutation in TP53. Due to the importance of the protein p53 and its regulation of several important cellular processes, impairment in some pathways can be implicated. Here we discuss the impact of p.R337H TP53 mutation on proliferation, senescence, autophagy, mitochondrial population and functionality. Methods: Growth rates were assayed with Population Doubling assay. Senescence and autophagy were assessed through flow cytometry and functionality and total population of mitochondria were also analyzed through flow cytometry. Results: mutated cells proliferated more than control cells. TP53 mutated cells didn’t build up autophagy under Rapamycin treatmend nor senescence under Doxorubicin or Cisplatin treatments and showed more mitochondrial mass, but no alterations in mitochondrial functionality after Doxorubicin treatment. Conclusion:data suggests that p.R337H TP53 mutation affect senescence induction by p53 and pro-autophagic actions of p53. Mutated cells proliferate more than control cells and exhibited larger mitochondrial mass without effects in their functionality in response to Doxorubicin treatment.

Síndrome de Li-Fraumeni

Síndrome de Li-Fraumeni Like

Li-Fraumeni syndrome

Autophagy

Senescence

p53

TP53

Genomic DNA Copy Number Variations and Cancer: Studies of Li-Fraumeni Syndrome and its Variants

Shlien, Adam

18 January 2012

Copy number variations (CNVs) are a major source of inter-individual genetic difference, accounting for a greater proportion of the human genome than other forms of variation. Recently, the identification of benign and pathogenic CNVs has improved due to arrays with increased coverage. Nevertheless, most CNVs have not been studied with great precision and questions persist regarding their exact breakpoint, gene content, frequency and functional impact. This is especially true in cancer, in which a role for CNVs as risk factors is under-explored. Li-Fraumeni syndrome (LFS) is a dominantly inherited disorder with an increased risk of early-onset breast cancer, sarcomas, brain tumors and other neoplasms in individuals harboring germline TP53 mutations. Known genetic determinants of LFS do not fully explain its clinical phenotype. In this thesis we describe the association between CNVs and LFS. First, by examining DNA from a healthy population and an LFS cohort using oligonucleotide arrays, we show that the number of CNVs per genome is well conserved in the healthy population, but remarkably enriched in these cancer-prone individuals. We found a significant increase in CNVs among carriers of germline TP53 mutations with a familial cancer history. Second, we find that ii specific CNVs at 17p13.1 are associated with LFS or developmental delay, depending on the exact breakpoint with respect to TP53. Using a purpose built array with 93.75% accuracy, we fine-mapped these microdeletions and find that they arise by Alu-mediated non-allelic homologous recombination, and contain common genes, whose under-expression distinguishes the two phenotypes. Third, we explore somatic CNVs in choroid plexus carcinoma tumor genomes. We show that this tumor is over-represented in LFS, and the number of somatic CNVs is associated with TP53 mutations and disease progression. These studies represent the first genomic analyses of LFS, and suggest a more generalized association between CNVs and cancer.

Cancer

Genomics

Copy number variations

Copy number variants

Li-Fraumeni syndrome

p53

TP53

0369

Genomic DNA Copy Number Variations and Cancer: Studies of Li-Fraumeni Syndrome and its Variants

Shlien, Adam

18 January 2012

Copy number variations (CNVs) are a major source of inter-individual genetic difference, accounting for a greater proportion of the human genome than other forms of variation. Recently, the identification of benign and pathogenic CNVs has improved due to arrays with increased coverage. Nevertheless, most CNVs have not been studied with great precision and questions persist regarding their exact breakpoint, gene content, frequency and functional impact. This is especially true in cancer, in which a role for CNVs as risk factors is under-explored. Li-Fraumeni syndrome (LFS) is a dominantly inherited disorder with an increased risk of early-onset breast cancer, sarcomas, brain tumors and other neoplasms in individuals harboring germline TP53 mutations. Known genetic determinants of LFS do not fully explain its clinical phenotype. In this thesis we describe the association between CNVs and LFS. First, by examining DNA from a healthy population and an LFS cohort using oligonucleotide arrays, we show that the number of CNVs per genome is well conserved in the healthy population, but remarkably enriched in these cancer-prone individuals. We found a significant increase in CNVs among carriers of germline TP53 mutations with a familial cancer history. Second, we find that ii specific CNVs at 17p13.1 are associated with LFS or developmental delay, depending on the exact breakpoint with respect to TP53. Using a purpose built array with 93.75% accuracy, we fine-mapped these microdeletions and find that they arise by Alu-mediated non-allelic homologous recombination, and contain common genes, whose under-expression distinguishes the two phenotypes. Third, we explore somatic CNVs in choroid plexus carcinoma tumor genomes. We show that this tumor is over-represented in LFS, and the number of somatic CNVs is associated with TP53 mutations and disease progression. These studies represent the first genomic analyses of LFS, and suggest a more generalized association between CNVs and cancer.

Cancer

Genomics

Copy number variations

Copy number variants

Li-Fraumeni syndrome

p53

TP53

0369

Atuação da mutação R337H em TP53 em pacientes de Li-Fraumeni em autofagia, senescência e função mitocondrial

Hütten, Michele Oliveira

January 2016

Introdução: As síndromes de Li-Fraumeni (LFS) e Li-Fraumeni Like (LFL) são síndromes hereditárias de predisposição a câncer frequentemente associadas à mutações germinativas no gene TP53. Devido à importância de p53 e diversidade de processos celulares que ela regula, várias vias de sinalização podem ser afetadas pela doença. Nesse estudo discutimos o impacto da mutação p.R337H na proliferação, senescência, autofagia, população e funcionalidade mitocondrial. Métodos: As taxas de proliferação foram avaliadas pelo ensaio de Population Doubling. Os experimentos de senescência, autofagia, massa total e funcionalidade mitocondrial foram realizados por citometria de fluxo. Resultados: As células contendo a mutação proliferaram mais do que as células controle. Além disso, as células mutadas não ativaram autofagia sob tratamento de Rapamicina nem senescência sob tratamento de Doxorubicina ou Cisplatina e exibiram maior população mitocondrial, mas com funcionalidade inalterada após os tratamentos. Conclusão: os dados sugerem que a mutação p.R337H em TP53 afeta a indução de senescência realizada por p53 e suas funções pró-autofágicas, bem como seu controle. As células mutadas proliferam mais do que células sem mutação em TP53 e exibiram maior massa mitocondrial sem perda de funcionalidade após o tratamento com Doxorubicina. / Background: Li-Fraumeni (LFS) and Li-Fraumeni Like (LFL) syndromes are hereditary cancer predisposition syndromes frequently associated with germline mutation in TP53. Due to the importance of the protein p53 and its regulation of several important cellular processes, impairment in some pathways can be implicated. Here we discuss the impact of p.R337H TP53 mutation on proliferation, senescence, autophagy, mitochondrial population and functionality. Methods: Growth rates were assayed with Population Doubling assay. Senescence and autophagy were assessed through flow cytometry and functionality and total population of mitochondria were also analyzed through flow cytometry. Results: mutated cells proliferated more than control cells. TP53 mutated cells didn’t build up autophagy under Rapamycin treatmend nor senescence under Doxorubicin or Cisplatin treatments and showed more mitochondrial mass, but no alterations in mitochondrial functionality after Doxorubicin treatment. Conclusion:data suggests that p.R337H TP53 mutation affect senescence induction by p53 and pro-autophagic actions of p53. Mutated cells proliferate more than control cells and exhibited larger mitochondrial mass without effects in their functionality in response to Doxorubicin treatment.

Síndrome de Li-Fraumeni

Síndrome de Li-Fraumeni Like

Li-Fraumeni syndrome

Autophagy

Senescence

p53

TP53

Atuação da mutação R337H em TP53 em pacientes de Li-Fraumeni em autofagia, senescência e função mitocondrial

Hütten, Michele Oliveira

January 2016

Introdução: As síndromes de Li-Fraumeni (LFS) e Li-Fraumeni Like (LFL) são síndromes hereditárias de predisposição a câncer frequentemente associadas à mutações germinativas no gene TP53. Devido à importância de p53 e diversidade de processos celulares que ela regula, várias vias de sinalização podem ser afetadas pela doença. Nesse estudo discutimos o impacto da mutação p.R337H na proliferação, senescência, autofagia, população e funcionalidade mitocondrial. Métodos: As taxas de proliferação foram avaliadas pelo ensaio de Population Doubling. Os experimentos de senescência, autofagia, massa total e funcionalidade mitocondrial foram realizados por citometria de fluxo. Resultados: As células contendo a mutação proliferaram mais do que as células controle. Além disso, as células mutadas não ativaram autofagia sob tratamento de Rapamicina nem senescência sob tratamento de Doxorubicina ou Cisplatina e exibiram maior população mitocondrial, mas com funcionalidade inalterada após os tratamentos. Conclusão: os dados sugerem que a mutação p.R337H em TP53 afeta a indução de senescência realizada por p53 e suas funções pró-autofágicas, bem como seu controle. As células mutadas proliferam mais do que células sem mutação em TP53 e exibiram maior massa mitocondrial sem perda de funcionalidade após o tratamento com Doxorubicina. / Background: Li-Fraumeni (LFS) and Li-Fraumeni Like (LFL) syndromes are hereditary cancer predisposition syndromes frequently associated with germline mutation in TP53. Due to the importance of the protein p53 and its regulation of several important cellular processes, impairment in some pathways can be implicated. Here we discuss the impact of p.R337H TP53 mutation on proliferation, senescence, autophagy, mitochondrial population and functionality. Methods: Growth rates were assayed with Population Doubling assay. Senescence and autophagy were assessed through flow cytometry and functionality and total population of mitochondria were also analyzed through flow cytometry. Results: mutated cells proliferated more than control cells. TP53 mutated cells didn’t build up autophagy under Rapamycin treatmend nor senescence under Doxorubicin or Cisplatin treatments and showed more mitochondrial mass, but no alterations in mitochondrial functionality after Doxorubicin treatment. Conclusion:data suggests that p.R337H TP53 mutation affect senescence induction by p53 and pro-autophagic actions of p53. Mutated cells proliferate more than control cells and exhibited larger mitochondrial mass without effects in their functionality in response to Doxorubicin treatment.

Síndrome de Li-Fraumeni

Síndrome de Li-Fraumeni Like

Li-Fraumeni syndrome

Autophagy

Senescence

p53

TP53