A simple method for co-segregation analysis to evaluate the pathogenicity of unclassified variants; BRCA1 and BRCA2 as an example

Leila Mohammadi; Maaike P. Vreeswijk; Rogier Oldenburg; Ans van den Ouweland; Jan C. Oosterwijk; Annemarie H. van der Hout; Nicoline Hoogerbrugge; Marjolijn Ligtenberg; Margreet G. Ausems; Rob B. van der Luijt; Charlotte J. Dommering; Johan J. Gille; Senno Verhoef; Frans B. Hogervorst; Theo A. van Os; Encarna Gomez Garcia; Marinus J. Blok; Juul T. Wijnen; Quinta Helmer; Peter Devilee; Christi J. van Asperen; Hans C. van Houwelingen

doi:10.1186/1471-2407-9-211

A simple method for co-segregation analysis to evaluate the pathogenicity of unclassified variants; BRCA1 and BRCA2 as an example

Leila Mohammadi, Maaike P. Vreeswijk, Rogier Oldenburg, Ans van den Ouweland, Jan C. Oosterwijk, Annemarie H. van der Hout, Nicoline Hoogerbrugge, Marjolijn Ligtenberg, Margreet G. Ausems, Rob B. van der Luijt, Charlotte J. Dommering, Johan J. Gille, Senno Verhoef, Frans B. Hogervorst, Theo A. van Os, Encarna Gomez Garcia, Marinus J. Blok, Juul T. Wijnen, Quinta Helmer, Peter DevileeChristi J. van Asperen^*, Hans C. van Houwelingen

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Background: Assessment of the clinical significance of unclassified variants (UVs) identified in BRCA1 and BRCA2 is very important for genetic counselling. The analysis of co-segregation of the variant with the disease in families is a powerful tool for the classification of these variants. Statistical methods have been described in literature but these methods are not always easy to apply in a diagnostic setting.Methods: We have developed an easy to use method which calculates the likelihood ratio (LR) of an UV being deleterious, with penetrance as a function of age of onset, thereby avoiding the use of liability classes. The application of this algorithm is publicly available http://www.msbi.nl/cosegregation. It can easily be used in a diagnostic setting since it requires only information on gender, genotype, present age and/or age of onset for breast and/or ovarian cancer.Results: We have used the algorithm to calculate the likelihood ratio in favour of causality for 3 UVs in BRCA1 (p.M18T, p.S1655F and p.R1699Q) and 5 in BRCA2 (p.E462G p.Y2660D, p.R2784Q, p.R3052W and p.R3052Q). Likelihood ratios varied from 0.097 (BRCA2, p.E462G) to 230.69 (BRCA2, p.Y2660D). Typing distantly related individuals with extreme phenotypes (i.e. very early onset cancer or old healthy individuals) are most informative and give the strongest likelihood ratios for or against causality.Conclusion: Although co-segregation analysis on itself is in most cases insufficient to prove pathogenicity of an UV, this method simplifies the use of co-segregation as one of the key features in a multifactorial approach considerably.

Original language	English
Article number	211
Number of pages	11
Journal	BMC Cancer
Volume	9
DOIs	https://doi.org/10.1186/1471-2407-9-211
Publication status	Published - 29 Jun 2009

Keywords

Unknown clinical-significance
Dna-sequence variants
Cancer-susceptibility
Missense variants
Genes
Breast
Classification
Causality
Mutations
Model

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Mohammadi, L., Vreeswijk, M. P., Oldenburg, R., van den Ouweland, A., Oosterwijk, J. C., van der Hout, A. H., Hoogerbrugge, N., Ligtenberg, M., Ausems, M. G., van der Luijt, R. B., Dommering, C. J., Gille, J. J., Verhoef, S., Hogervorst, F. B., van Os, T. A., Garcia, E. G., Blok, M. J., Wijnen, J. T., Helmer, Q., ... van Houwelingen, H. C. (2009). A simple method for co-segregation analysis to evaluate the pathogenicity of unclassified variants; BRCA1 and BRCA2 as an example. BMC Cancer, 9, Article 211. https://doi.org/10.1186/1471-2407-9-211

@article{33d10fe276ba463ba42fb321b8996660,

title = "A simple method for co-segregation analysis to evaluate the pathogenicity of unclassified variants; BRCA1 and BRCA2 as an example",

abstract = "Background: Assessment of the clinical significance of unclassified variants (UVs) identified in BRCA1 and BRCA2 is very important for genetic counselling. The analysis of co-segregation of the variant with the disease in families is a powerful tool for the classification of these variants. Statistical methods have been described in literature but these methods are not always easy to apply in a diagnostic setting.Methods: We have developed an easy to use method which calculates the likelihood ratio (LR) of an UV being deleterious, with penetrance as a function of age of onset, thereby avoiding the use of liability classes. The application of this algorithm is publicly available http://www.msbi.nl/cosegregation. It can easily be used in a diagnostic setting since it requires only information on gender, genotype, present age and/or age of onset for breast and/or ovarian cancer.Results: We have used the algorithm to calculate the likelihood ratio in favour of causality for 3 UVs in BRCA1 (p.M18T, p.S1655F and p.R1699Q) and 5 in BRCA2 (p.E462G p.Y2660D, p.R2784Q, p.R3052W and p.R3052Q). Likelihood ratios varied from 0.097 (BRCA2, p.E462G) to 230.69 (BRCA2, p.Y2660D). Typing distantly related individuals with extreme phenotypes (i.e. very early onset cancer or old healthy individuals) are most informative and give the strongest likelihood ratios for or against causality.Conclusion: Although co-segregation analysis on itself is in most cases insufficient to prove pathogenicity of an UV, this method simplifies the use of co-segregation as one of the key features in a multifactorial approach considerably.",

keywords = "Unknown clinical-significance, Dna-sequence variants, Cancer-susceptibility, Missense variants, Genes, Breast, Classification, Causality, Mutations, Model",

author = "Leila Mohammadi and Vreeswijk, {Maaike P.} and Rogier Oldenburg and {van den Ouweland}, Ans and Oosterwijk, {Jan C.} and {van der Hout}, {Annemarie H.} and Nicoline Hoogerbrugge and Marjolijn Ligtenberg and Ausems, {Margreet G.} and {van der Luijt}, {Rob B.} and Dommering, {Charlotte J.} and Gille, {Johan J.} and Senno Verhoef and Hogervorst, {Frans B.} and {van Os}, {Theo A.} and Garcia, {Encarna Gomez} and Blok, {Marinus J.} and Wijnen, {Juul T.} and Quinta Helmer and Peter Devilee and {van Asperen}, {Christi J.} and {van Houwelingen}, {Hans C.}",

year = "2009",

month = jun,

day = "29",

doi = "10.1186/1471-2407-9-211",

language = "English",

volume = "9",

journal = "BMC Cancer",

issn = "1471-2407",

publisher = "BioMed Central Ltd",

}

Mohammadi, L, Vreeswijk, MP, Oldenburg, R, van den Ouweland, A, Oosterwijk, JC, van der Hout, AH, Hoogerbrugge, N, Ligtenberg, M, Ausems, MG, van der Luijt, RB, Dommering, CJ, Gille, JJ, Verhoef, S, Hogervorst, FB, van Os, TA, Garcia, EG , Blok, MJ, Wijnen, JT, Helmer, Q, Devilee, P, van Asperen, CJ & van Houwelingen, HC 2009, 'A simple method for co-segregation analysis to evaluate the pathogenicity of unclassified variants; BRCA1 and BRCA2 as an example', BMC Cancer, vol. 9, 211. https://doi.org/10.1186/1471-2407-9-211

TY - JOUR

T1 - A simple method for co-segregation analysis to evaluate the pathogenicity of unclassified variants; BRCA1 and BRCA2 as an example

AU - Mohammadi, Leila

AU - Vreeswijk, Maaike P.

AU - Oldenburg, Rogier

AU - van den Ouweland, Ans

AU - Oosterwijk, Jan C.

AU - van der Hout, Annemarie H.

AU - Hoogerbrugge, Nicoline

AU - Ligtenberg, Marjolijn

AU - Ausems, Margreet G.

AU - van der Luijt, Rob B.

AU - Dommering, Charlotte J.

AU - Gille, Johan J.

AU - Verhoef, Senno

AU - Hogervorst, Frans B.

AU - van Os, Theo A.

AU - Garcia, Encarna Gomez

AU - Blok, Marinus J.

AU - Wijnen, Juul T.

AU - Helmer, Quinta

AU - Devilee, Peter

AU - van Asperen, Christi J.

AU - van Houwelingen, Hans C.

PY - 2009/6/29

Y1 - 2009/6/29

N2 - Background: Assessment of the clinical significance of unclassified variants (UVs) identified in BRCA1 and BRCA2 is very important for genetic counselling. The analysis of co-segregation of the variant with the disease in families is a powerful tool for the classification of these variants. Statistical methods have been described in literature but these methods are not always easy to apply in a diagnostic setting.Methods: We have developed an easy to use method which calculates the likelihood ratio (LR) of an UV being deleterious, with penetrance as a function of age of onset, thereby avoiding the use of liability classes. The application of this algorithm is publicly available http://www.msbi.nl/cosegregation. It can easily be used in a diagnostic setting since it requires only information on gender, genotype, present age and/or age of onset for breast and/or ovarian cancer.Results: We have used the algorithm to calculate the likelihood ratio in favour of causality for 3 UVs in BRCA1 (p.M18T, p.S1655F and p.R1699Q) and 5 in BRCA2 (p.E462G p.Y2660D, p.R2784Q, p.R3052W and p.R3052Q). Likelihood ratios varied from 0.097 (BRCA2, p.E462G) to 230.69 (BRCA2, p.Y2660D). Typing distantly related individuals with extreme phenotypes (i.e. very early onset cancer or old healthy individuals) are most informative and give the strongest likelihood ratios for or against causality.Conclusion: Although co-segregation analysis on itself is in most cases insufficient to prove pathogenicity of an UV, this method simplifies the use of co-segregation as one of the key features in a multifactorial approach considerably.

AB - Background: Assessment of the clinical significance of unclassified variants (UVs) identified in BRCA1 and BRCA2 is very important for genetic counselling. The analysis of co-segregation of the variant with the disease in families is a powerful tool for the classification of these variants. Statistical methods have been described in literature but these methods are not always easy to apply in a diagnostic setting.Methods: We have developed an easy to use method which calculates the likelihood ratio (LR) of an UV being deleterious, with penetrance as a function of age of onset, thereby avoiding the use of liability classes. The application of this algorithm is publicly available http://www.msbi.nl/cosegregation. It can easily be used in a diagnostic setting since it requires only information on gender, genotype, present age and/or age of onset for breast and/or ovarian cancer.Results: We have used the algorithm to calculate the likelihood ratio in favour of causality for 3 UVs in BRCA1 (p.M18T, p.S1655F and p.R1699Q) and 5 in BRCA2 (p.E462G p.Y2660D, p.R2784Q, p.R3052W and p.R3052Q). Likelihood ratios varied from 0.097 (BRCA2, p.E462G) to 230.69 (BRCA2, p.Y2660D). Typing distantly related individuals with extreme phenotypes (i.e. very early onset cancer or old healthy individuals) are most informative and give the strongest likelihood ratios for or against causality.Conclusion: Although co-segregation analysis on itself is in most cases insufficient to prove pathogenicity of an UV, this method simplifies the use of co-segregation as one of the key features in a multifactorial approach considerably.

KW - Unknown clinical-significance

KW - Dna-sequence variants

KW - Cancer-susceptibility

KW - Missense variants

KW - Genes

KW - Breast

KW - Classification

KW - Causality

KW - Mutations

KW - Model

U2 - 10.1186/1471-2407-9-211

DO - 10.1186/1471-2407-9-211

M3 - Article

C2 - 19563646

SN - 1471-2407

VL - 9

JO - BMC Cancer

JF - BMC Cancer

M1 - 211

ER -

A simple method for co-segregation analysis to evaluate the pathogenicity of unclassified variants; BRCA1 and BRCA2 as an example

Abstract

Keywords

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