Cargando…
A personalised approach to prostate cancer screening based on genotyping of risk founder alleles
BACKGROUND: To evaluate whether genotyping for 18 prostate cancer founder variants is helpful in identifying high-risk individuals and for determining optimal screening regimens. METHODS: A serum PSA level was measured and a digital rectal examination (DRE) was performed on 2907 unaffected men aged...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Nature Publishing Group
2013
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3694242/ https://www.ncbi.nlm.nih.gov/pubmed/23722471 http://dx.doi.org/10.1038/bjc.2013.261 |
| _version_ | 1782274836352991232 |
|---|---|
| author | Cybulski, C Wokołorczyk, D Kluźniak, W Kashyap, A Gołąb, A Słojewski, M Sikorski, A Puszyński, M Soczawa, M Borkowski, T Borkowski, A Antczak, A Przybyła, J Sosnowski, M Małkiewicz, B Zdrojowy, R Domagała, P Piotrowski, K Menkiszak, J Krzystolik, K Gronwald, J Jakubowska, A Górski, B Dębniak, T Masojć, B Huzarski, T Muir, K R Lophatananon, A Lubiński, J Narod, S A |
| author_facet | Cybulski, C Wokołorczyk, D Kluźniak, W Kashyap, A Gołąb, A Słojewski, M Sikorski, A Puszyński, M Soczawa, M Borkowski, T Borkowski, A Antczak, A Przybyła, J Sosnowski, M Małkiewicz, B Zdrojowy, R Domagała, P Piotrowski, K Menkiszak, J Krzystolik, K Gronwald, J Jakubowska, A Górski, B Dębniak, T Masojć, B Huzarski, T Muir, K R Lophatananon, A Lubiński, J Narod, S A |
| author_sort | Cybulski, C |
| collection | PubMed |
| description | BACKGROUND: To evaluate whether genotyping for 18 prostate cancer founder variants is helpful in identifying high-risk individuals and for determining optimal screening regimens. METHODS: A serum PSA level was measured and a digital rectal examination (DRE) was performed on 2907 unaffected men aged 40–90. Three hundred and twenty-three men with an elevated PSA (⩾4 ng ml(−1)) or an abnormal DRE underwent a prostate biopsy. All men were genotyped for three founder alleles in BRCA1 (5382insC, 4153delA and C61G), for four alleles in CHEK2 (1100delC, IVS2+1G>A, del5395 and I157T), for one allele in NBS1 (657del5), for one allele in HOXB13 (G84E), and for nine low-risk single-nucleotide polymorphisms (SNPs). RESULTS: On the basis of an elevated PSA or an abnormal DRE, prostate cancer was diagnosed in 135 of 2907 men (4.6%). In men with a CHEK2 missense mutation I157T, the cancer detection rate among men with an elevated PSA or an abnormal DRE was much higher (10.2%, P=0.0008). The cancer detection rate rose with the number of SNP risk genotypes observed from 1.2% for men with no variant to 8.6% for men who carried six or more variants (P=0.04). No single variant was helpful on its own in predicting the presence of prostate cancer, however, the combination of all rare mutations and SNPs improved predictive power (area under the curve=0.59; P=0.03). CONCLUSION: These results suggest that testing for germline CHEK2 mutations improves the ability to predict the presence of prostate cancer in screened men, however, the clinical utility of incorporating DNA variants in the screening process is marginal. |
| format | Online Article Text |
| id | pubmed-3694242 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2013 |
| publisher | Nature Publishing Group |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-36942422014-06-25 A personalised approach to prostate cancer screening based on genotyping of risk founder alleles Cybulski, C Wokołorczyk, D Kluźniak, W Kashyap, A Gołąb, A Słojewski, M Sikorski, A Puszyński, M Soczawa, M Borkowski, T Borkowski, A Antczak, A Przybyła, J Sosnowski, M Małkiewicz, B Zdrojowy, R Domagała, P Piotrowski, K Menkiszak, J Krzystolik, K Gronwald, J Jakubowska, A Górski, B Dębniak, T Masojć, B Huzarski, T Muir, K R Lophatananon, A Lubiński, J Narod, S A Br J Cancer Genetics and Genomics BACKGROUND: To evaluate whether genotyping for 18 prostate cancer founder variants is helpful in identifying high-risk individuals and for determining optimal screening regimens. METHODS: A serum PSA level was measured and a digital rectal examination (DRE) was performed on 2907 unaffected men aged 40–90. Three hundred and twenty-three men with an elevated PSA (⩾4 ng ml(−1)) or an abnormal DRE underwent a prostate biopsy. All men were genotyped for three founder alleles in BRCA1 (5382insC, 4153delA and C61G), for four alleles in CHEK2 (1100delC, IVS2+1G>A, del5395 and I157T), for one allele in NBS1 (657del5), for one allele in HOXB13 (G84E), and for nine low-risk single-nucleotide polymorphisms (SNPs). RESULTS: On the basis of an elevated PSA or an abnormal DRE, prostate cancer was diagnosed in 135 of 2907 men (4.6%). In men with a CHEK2 missense mutation I157T, the cancer detection rate among men with an elevated PSA or an abnormal DRE was much higher (10.2%, P=0.0008). The cancer detection rate rose with the number of SNP risk genotypes observed from 1.2% for men with no variant to 8.6% for men who carried six or more variants (P=0.04). No single variant was helpful on its own in predicting the presence of prostate cancer, however, the combination of all rare mutations and SNPs improved predictive power (area under the curve=0.59; P=0.03). CONCLUSION: These results suggest that testing for germline CHEK2 mutations improves the ability to predict the presence of prostate cancer in screened men, however, the clinical utility of incorporating DNA variants in the screening process is marginal. Nature Publishing Group 2013-06-25 2013-05-30 /pmc/articles/PMC3694242/ /pubmed/23722471 http://dx.doi.org/10.1038/bjc.2013.261 Text en Copyright © 2013 Cancer Research UK http://creativecommons.org/licenses/by-nc-sa/3.0/ From twelve months after its original publication, this work is licensed under the Creative Commons Attribution-NonCommercial-Share Alike 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/ |
| spellingShingle | Genetics and Genomics Cybulski, C Wokołorczyk, D Kluźniak, W Kashyap, A Gołąb, A Słojewski, M Sikorski, A Puszyński, M Soczawa, M Borkowski, T Borkowski, A Antczak, A Przybyła, J Sosnowski, M Małkiewicz, B Zdrojowy, R Domagała, P Piotrowski, K Menkiszak, J Krzystolik, K Gronwald, J Jakubowska, A Górski, B Dębniak, T Masojć, B Huzarski, T Muir, K R Lophatananon, A Lubiński, J Narod, S A A personalised approach to prostate cancer screening based on genotyping of risk founder alleles |
| title | A personalised approach to prostate cancer screening based on genotyping of risk founder alleles |
| title_full | A personalised approach to prostate cancer screening based on genotyping of risk founder alleles |
| title_fullStr | A personalised approach to prostate cancer screening based on genotyping of risk founder alleles |
| title_full_unstemmed | A personalised approach to prostate cancer screening based on genotyping of risk founder alleles |
| title_short | A personalised approach to prostate cancer screening based on genotyping of risk founder alleles |
| title_sort | personalised approach to prostate cancer screening based on genotyping of risk founder alleles |
| topic | Genetics and Genomics |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3694242/ https://www.ncbi.nlm.nih.gov/pubmed/23722471 http://dx.doi.org/10.1038/bjc.2013.261 |
| work_keys_str_mv | AT cybulskic apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT wokołorczykd apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT kluzniakw apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT kashyapa apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT gołaba apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT słojewskim apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT sikorskia apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT puszynskim apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT soczawam apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT borkowskit apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT borkowskia apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT antczaka apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT przybyłaj apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT sosnowskim apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT małkiewiczb apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT zdrojowyr apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT domagałap apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT piotrowskik apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT menkiszakj apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT krzystolikk apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT gronwaldj apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT jakubowskaa apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT gorskib apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT debniakt apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT masojcb apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT huzarskit apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT muirkr apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT lophatananona apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT lubinskij apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT narodsa apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT apersonalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT cybulskic personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT wokołorczykd personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT kluzniakw personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT kashyapa personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT gołaba personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT słojewskim personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT sikorskia personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT puszynskim personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT soczawam personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT borkowskit personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT borkowskia personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT antczaka personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT przybyłaj personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT sosnowskim personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT małkiewiczb personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT zdrojowyr personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT domagałap personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT piotrowskik personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT menkiszakj personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT krzystolikk personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT gronwaldj personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT jakubowskaa personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT gorskib personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT debniakt personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT masojcb personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT huzarskit personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT muirkr personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT lophatananona personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT lubinskij personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT narodsa personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles AT personalisedapproachtoprostatecancerscreeningbasedongenotypingofriskfounderalleles |