Impact of amino acid substitutions at secondary structures in the BRCT domains of the tumor suppressor BRCA1: Implications for clinical annotation

Vanessa C. Fernandes; Volha A. Golubeva; Giuliano Di Pietro; Cara Shields; Kwabena Amankwah; Thales C. Nepomuceno; Giuliana de Gregoriis; Renata B.V. Abreu; Carly Harro; Thiago T. Gomes; Ricceli F. Silva; Guilherme Suarez-Kurtz; Fergus J. Couch; Edwin S. Iversen; Alvaro N.A. Monteiro; Marcelo A. Carvalho

doi:10.1074/jbc.RA118.005274

Impact of amino acid substitutions at secondary structures in the BRCT domains of the tumor suppressor BRCA1: Implications for clinical annotation

Vanessa C. Fernandes, Volha A. Golubeva, Giuliano Di Pietro, Cara Shields, Kwabena Amankwah, Thales C. Nepomuceno, Giuliana de Gregoriis, Renata B.V. Abreu, Carly Harro, Thiago T. Gomes, Ricceli F. Silva, Guilherme Suarez-Kurtz, Fergus J. Couch, Edwin S. Iversen, Alvaro N.A. Monteiro, Marcelo A. Carvalho

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Abstract

Genetic testing for BRCA1, a DNA repair protein, can identify carriers of pathogenic variants associated with a substantially increased risk for breast and ovarian cancers. However, an association with increased risk is unclear for a large fraction of BRCA1 variants present in the human population. Most of these variants of uncertain clinical significance lead to amino acid changes in the BRCA1 protein. Functional assays are valuable tools to assess the potential pathogenicity of these variants. Here, we systematically probed the effects of substitutions in the C terminus of BRCA1: the N- and C-terminal borders of its tandem BRCT domain, the BRCT-[N-C] linker region, and the 1 and 1 helices in BRCT-[N] and -[C]. Using a validated transcriptional assay based on a fusion of the GAL4 DNA-binding domain to the BRCA1 C terminus (amino acids 1396 –1863), we assessed the functional impact of 99 missense variants of BRCA1. We include the data obtained for these 99 missense variants in a joint analysis to generate the likelihood of pathogenicity for 347 missense variants in BRCA1 using VarCall, a Bayesian integrative statistical model. The results from this analysis increase our understanding of BRCA1 regions less tolerant to changes, identify functional borders of structural domains, and predict the likelihood of pathogenicity for 98% of all BRCA1 missense variants in this region recorded in the population. This knowledge will be critical for improving risk assessment and clinical treatment of carriers of BRCA1 variants.

Original language	English (US)
Pages (from-to)	5980-5992
Number of pages	13
Journal	Journal of Biological Chemistry
Volume	294
Issue number	15
DOIs	https://doi.org/10.1074/jbc.RA118.005274
State	Published - Apr 12 2019

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Cell Biology

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10.1074/jbc.RA118.005274

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Fernandes, V. C., Golubeva, V. A., Pietro, G. D., Shields, C., Amankwah, K., Nepomuceno, T. C., de Gregoriis, G., Abreu, R. B. V., Harro, C., Gomes, T. T., Silva, R. F., Suarez-Kurtz, G., Couch, F. J., Iversen, E. S., Monteiro, A. N. A., & Carvalho, M. A. (2019). Impact of amino acid substitutions at secondary structures in the BRCT domains of the tumor suppressor BRCA1: Implications for clinical annotation. Journal of Biological Chemistry, 294(15), 5980-5992. https://doi.org/10.1074/jbc.RA118.005274

Fernandes, VC, Golubeva, VA, Pietro, GD, Shields, C, Amankwah, K, Nepomuceno, TC, de Gregoriis, G, Abreu, RBV, Harro, C, Gomes, TT, Silva, RF, Suarez-Kurtz, G, Couch, FJ, Iversen, ES, Monteiro, ANA & Carvalho, MA 2019, 'Impact of amino acid substitutions at secondary structures in the BRCT domains of the tumor suppressor BRCA1: Implications for clinical annotation', Journal of Biological Chemistry, vol. 294, no. 15, pp. 5980-5992. https://doi.org/10.1074/jbc.RA118.005274

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title = "Impact of amino acid substitutions at secondary structures in the BRCT domains of the tumor suppressor BRCA1: Implications for clinical annotation",

abstract = "Genetic testing for BRCA1, a DNA repair protein, can identify carriers of pathogenic variants associated with a substantially increased risk for breast and ovarian cancers. However, an association with increased risk is unclear for a large fraction of BRCA1 variants present in the human population. Most of these variants of uncertain clinical significance lead to amino acid changes in the BRCA1 protein. Functional assays are valuable tools to assess the potential pathogenicity of these variants. Here, we systematically probed the effects of substitutions in the C terminus of BRCA1: the N- and C-terminal borders of its tandem BRCT domain, the BRCT-[N-C] linker region, and the 1 and 1 helices in BRCT-[N] and -[C]. Using a validated transcriptional assay based on a fusion of the GAL4 DNA-binding domain to the BRCA1 C terminus (amino acids 1396 –1863), we assessed the functional impact of 99 missense variants of BRCA1. We include the data obtained for these 99 missense variants in a joint analysis to generate the likelihood of pathogenicity for 347 missense variants in BRCA1 using VarCall, a Bayesian integrative statistical model. The results from this analysis increase our understanding of BRCA1 regions less tolerant to changes, identify functional borders of structural domains, and predict the likelihood of pathogenicity for 98% of all BRCA1 missense variants in this region recorded in the population. This knowledge will be critical for improving risk assessment and clinical treatment of carriers of BRCA1 variants.",

author = "Fernandes, {Vanessa C.} and Golubeva, {Volha A.} and Pietro, {Giuliano Di} and Cara Shields and Kwabena Amankwah and Nepomuceno, {Thales C.} and {de Gregoriis}, Giuliana and Abreu, {Renata B.V.} and Carly Harro and Gomes, {Thiago T.} and Silva, {Ricceli F.} and Guilherme Suarez-Kurtz and Couch, {Fergus J.} and Iversen, {Edwin S.} and Monteiro, {Alvaro N.A.} and Carvalho, {Marcelo A.}",

note = "Funding Information: This work was supported by National Institutes of Health Grant U01 CA116167, the Fundac¸{\~a}o Carlos Chagas Filho de Amparo {\`a} Pesquisa do Estado do Rio de Janeiro, Conselho Nacional de Desenvolvimento Cienti-fico e Tecnol{\'o}gico, Fundac¸{\~a}o do C{\^a}ncer (Programa de Oncobiologia), and in part by the Molecular Genomics Core Facilities at the Moffitt Cancer Center through National Institutes of Health NCI CCSG Grant P30-CA76292. The authors declare that they have no conflicts of interest with the contents of this article. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. Publisher Copyright: {\textcopyright} 2019 Fernandes et al.",

year = "2019",

month = apr,

day = "12",

doi = "10.1074/jbc.RA118.005274",

language = "English (US)",

volume = "294",

pages = "5980--5992",

journal = "Journal of Biological Chemistry",

issn = "0021-9258",

publisher = "American Society for Biochemistry and Molecular Biology Inc.",

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TY - JOUR

T1 - Impact of amino acid substitutions at secondary structures in the BRCT domains of the tumor suppressor BRCA1

T2 - Implications for clinical annotation

AU - Fernandes, Vanessa C.

AU - Golubeva, Volha A.

AU - Pietro, Giuliano Di

AU - Shields, Cara

AU - Amankwah, Kwabena

AU - Nepomuceno, Thales C.

AU - de Gregoriis, Giuliana

AU - Abreu, Renata B.V.

AU - Harro, Carly

AU - Gomes, Thiago T.

AU - Silva, Ricceli F.

AU - Suarez-Kurtz, Guilherme

AU - Couch, Fergus J.

AU - Iversen, Edwin S.

AU - Monteiro, Alvaro N.A.

AU - Carvalho, Marcelo A.

N1 - Funding Information: This work was supported by National Institutes of Health Grant U01 CA116167, the Fundac¸ão Carlos Chagas Filho de Amparo à Pesquisa do Estado do Rio de Janeiro, Conselho Nacional de Desenvolvimento Cienti-fico e Tecnológico, Fundac¸ão do Câncer (Programa de Oncobiologia), and in part by the Molecular Genomics Core Facilities at the Moffitt Cancer Center through National Institutes of Health NCI CCSG Grant P30-CA76292. The authors declare that they have no conflicts of interest with the contents of this article. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. Publisher Copyright: © 2019 Fernandes et al.

PY - 2019/4/12

Y1 - 2019/4/12

N2 - Genetic testing for BRCA1, a DNA repair protein, can identify carriers of pathogenic variants associated with a substantially increased risk for breast and ovarian cancers. However, an association with increased risk is unclear for a large fraction of BRCA1 variants present in the human population. Most of these variants of uncertain clinical significance lead to amino acid changes in the BRCA1 protein. Functional assays are valuable tools to assess the potential pathogenicity of these variants. Here, we systematically probed the effects of substitutions in the C terminus of BRCA1: the N- and C-terminal borders of its tandem BRCT domain, the BRCT-[N-C] linker region, and the 1 and 1 helices in BRCT-[N] and -[C]. Using a validated transcriptional assay based on a fusion of the GAL4 DNA-binding domain to the BRCA1 C terminus (amino acids 1396 –1863), we assessed the functional impact of 99 missense variants of BRCA1. We include the data obtained for these 99 missense variants in a joint analysis to generate the likelihood of pathogenicity for 347 missense variants in BRCA1 using VarCall, a Bayesian integrative statistical model. The results from this analysis increase our understanding of BRCA1 regions less tolerant to changes, identify functional borders of structural domains, and predict the likelihood of pathogenicity for 98% of all BRCA1 missense variants in this region recorded in the population. This knowledge will be critical for improving risk assessment and clinical treatment of carriers of BRCA1 variants.

AB - Genetic testing for BRCA1, a DNA repair protein, can identify carriers of pathogenic variants associated with a substantially increased risk for breast and ovarian cancers. However, an association with increased risk is unclear for a large fraction of BRCA1 variants present in the human population. Most of these variants of uncertain clinical significance lead to amino acid changes in the BRCA1 protein. Functional assays are valuable tools to assess the potential pathogenicity of these variants. Here, we systematically probed the effects of substitutions in the C terminus of BRCA1: the N- and C-terminal borders of its tandem BRCT domain, the BRCT-[N-C] linker region, and the 1 and 1 helices in BRCT-[N] and -[C]. Using a validated transcriptional assay based on a fusion of the GAL4 DNA-binding domain to the BRCA1 C terminus (amino acids 1396 –1863), we assessed the functional impact of 99 missense variants of BRCA1. We include the data obtained for these 99 missense variants in a joint analysis to generate the likelihood of pathogenicity for 347 missense variants in BRCA1 using VarCall, a Bayesian integrative statistical model. The results from this analysis increase our understanding of BRCA1 regions less tolerant to changes, identify functional borders of structural domains, and predict the likelihood of pathogenicity for 98% of all BRCA1 missense variants in this region recorded in the population. This knowledge will be critical for improving risk assessment and clinical treatment of carriers of BRCA1 variants.

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Impact of amino acid substitutions at secondary structures in the BRCT domains of the tumor suppressor BRCA1: Implications for clinical annotation

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