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3. Do men and women follow different trajectories to reach extreme longevity?

Author

Franceschi, C., Motta, L., Valensin, S., Rapisarda, R., Franzone, A., Berardelli, M., Motta, M., Monti, D., Bonafè, M., Ferrucci, L., Deiana, L., Pes, G. M., Carru, C., Desole, M. S., Barbi, C., Sartoni, G., Gemelli, C., Lescai, F., Olivieri, F., Marchegiani, F., Cardelli, M., Cavallone, L., Gueresi, P., Cossarizza, A., Troiano, L., Pini, G., Sansoni, P., Passeri, G., Lisa, R., Spazzafumo, L., Amadio, L., Giunta, S., Stecconi, R., Morresi, R., Viticchi, C., Mattace, R., De Benedictis, G., Baggio, G., and the Italian Multicenter Study on Centenarians (IMUSCE)

Published
2000
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4. Publisher Correction: Homologous recombination DNA repair defects in PALB2-associated breast cancers (npj Breast Cancer, (2019), 5, 1, (23), 10.1038/s41523-019-0115-9)

Author

Li, A, Geyer, FC, Blecua, P, Lee, JY, Selenica, P, Brown, DN, Pareja, F, Lee, SSK, Kumar, R, Rivera, B, Bi, R, Piscuoglio, S, Wen, HY, Lozada, JR, Gularte-Mérida, R, Cavallone, L, Aghmesheh, M, Amor, D, Andrews, L, Antill, Y, Balleine, R, Beesley, J, Blackburn, A, Bogwitz, M, Brown, M, Burgess, M, Burke, J, Butow, P, Caldon, L, Campbell, I, Christian, A, Clarke, C, Cohen, P, Crook, A, Cui, J, Cummings, M, Dawson, SJ, De Fazio, A, Delatycki, M, Dobrovic, A, Dudding, T, Duijf, P, Edkins, E, Edwards, S, Farshid, G, Fellows, A, Field, M, Flanagan, J, Fong, P, Forbes, J, Forrest, L, Fox, S, French, J, Friedlander, M, Ortega, DG, Gattas, M, Giles, G, Gill, G, Gleeson, M, Greening, S, Haan, E, Harris, M, Hayward, N, Hickie, I, Hopper, J, Hunt, C, James, P, Jenkins, M, Kefford, R, Kentwell, M, Kirk, J, Kollias, J, Lakhani, S, Lindeman, G, Lipton, L, Lobb, L, Lok, S, Macrea, F, Mann, G, Marsh, D, McLachlan, SA, Meiser, B, Milne, R, Nightingale, S, O’Connell, S, Pachter, N, Patterson, B, Phillips, K, Saleh, M, Salisbury, E, Saunders, C, Saunus, J, Scott, C, Scott, R, Sexton, A, Shelling, A, Simpson, P, Spigelman, A, Spurdle, M, and Stone, J

Abstract

© 2019, The Author(s). In the original version of this paper, the link to the data record in the Data Availability Statement was incorrectly listed as https:// doi.org/10.6084/m9.figshare.8138912.44. The link has been corrected to https://doi.org/10.6084/m9.figshare.8138912. This has been corrected in the HTML and PDF versions of this article.

Published
2019

5. Homologous recombination DNA repair defects in PALB2-associated breast cancers

Author

Li, A. (Anqi), Geyer, F. C. (Felipe C.), Blecua, P. (Pedro), Lee, J. Y. (Ju Youn), Selenica, P. (Pier), Brown, D. N. (David N.), Pareja, F. (Fresia), Lee, S. S. (Simon S. K.), Kumar, R. (Rahul), Rivera, B. (Barbara), Bi, R. (Rui), Piscuoglio, S. (Salvatore), Wen, H. Y. (Hannah Y.), Lozada, J. R. (John R.), Gularte-Merida, R. (Rodrigo), Cavallone, L. (Luca), Rezoug, Z. (Zoulikha), Nguyen-Dumont, T. (Tu), Peterlongo, P. (Paolo), Tondini, C. (Carlo), Terkelsen, T. (Thorkild), Ronlund, K. (Karina), Boonen, S. E. (Susanne E.), Mannerma, A. (Arto), Winqvist, R. (Robert), Janatova, M. (Marketa), Rajadurai, P. (Pathmanathan), Xia, B. (Bing), Norton, L. (Larry), Robson, M. E. (Mark E.), Ng, P.-S. (Pei-Sze), Looi, L.-M. (Lai-Meng), Southey, M. C. (Melissa C.), Weigelt, B. (Britta), Soo-Hwang, T. (Teo), Tischkowitz, M. (Marc), Foulkes, W. D. (William D.), Reis-Filho, J. S. (Jorge S.), Aghmesheh, M. (Morteza), Amor, D. (David), Andrews, L. (Leslie), Antill, Y. (Yoland), Balleine, R. (Rosemary), Beesley, J. (Jonathan), Blackburn, A. (Anneke), Bogwitz, M. (Michael), Brown, M. (Melissa), Burgess, M. (Matthew), Burke, J. (Jo), Butow, P. (Phyllis), Caldon, L. (Liz), Campbell, I. (Ian), Christian, A. (Alice), Clarke, C. (Christine), Cohen, P. (Paul), Crook, A. (Ashley), Cui, J. (James), Cummings, M. (Margaret), Dawson, S.-J. (Sarah-Jane), De Fazio, A. (Anna), Delatycki, M. (Martin), Dobrovic, A. (Alex), Dudding, T. (Tracy), Duijf, P. (Pascal), Edkins, E. (Edward), Edwards, S. (Stacey), Farshid, G. (Gelareh), Fellows, A. (Andrew), Field, M. (Michael), Flanagan, J. (James), Fong, P. (Peter), Forbes, J. (John), Forrest, L. (Laura), Fox, S. (Stephen), French, J. (Juliet), Friedlander, M. (Michael), Ortega, D. G. (David Gallego), Gattas, M. (Michael), Giles, G. (Graham), Gill, G. (Grantley), Gleeson, M. (Margaret), Greening, S. (Sian), Haan, E. (Eric), Harris, M. (Marion), Hayward, N. (Nick), Hickie, I. (Ian), Hopper, J. (John), Hunt, C. (Clare), James, P. (Paul), Jenkins, M. (Mark), Kefford, R. (Rick), Kentwell, M. (Maira), Kirk, J. (Judy), Kollias, J. (James), Lakhani, S. (Sunil), Lindeman, G. (Geoff), Lipton, L. (Lara), Lobb, L. (Lizz), Lok, S. (Sheau), Macrea, F. (Finlay), Mane, G. (Graham), Marsh, D. (Deb), Mclachlan, S.-A. (Sue-Anne), Meiser, B. (Bettina), Milne, R. (Roger), Nightingale, S. (Sophie), O'Connell, S. (Shona), Pachter, N. (Nick), Patterson, B. (Briony), Phillips, K. (Kelly), Saleh, M. (Mona), Salisbury, E. (Elizabeth), Saunders, C. (Christobel), Saunus, J. (Jodi), Scott, C. (Clare), Scott, R. (Rodney), Sexton, A. (Adrienne), Shelling, A. (Andrew), Simpson, P. (Peter), Spigelman, A. (Allan), Spurdle, M. (Mandy), Stone, J. (Jennifer), Taylor, J. (Jessica), Thorne, H. (Heather), Trainer, A. (Alison), Trench, G. (Georgia), Tucker, K. (Kathy), Visvader, J. (Jane), Walker, L. (Logan), Wallis, M. (Mathew), Williams, R. (Rachael), Winship, I. (Ingrid), Wu, K. (Kathy), Young, M. A. (Mary Anne), Li, Anqi, Geyer, Felipe C, Blecua, Pedro, Lee, Ju Youn, Duijf, Pascal, Reis-Filho, Jorge S, Li, Anqi [0000-0003-1409-1858], Kumar, Rahul [0000-0002-6927-5390], Rivera, Barbara [0000-0001-9434-6288], Piscuoglio, Salvatore [0000-0003-2686-2939], Lozada, John R. [0000-0001-8953-4110], Gularte-Mérida, Rodrigo [0000-0002-4383-2523], Peterlongo, Paolo [0000-0001-6951-6855], Robson, Mark E. [0000-0002-3109-1692], Looi, Lai-Meng [0000-0001-8325-0117], Foulkes, William D. [0000-0001-7427-4651], Apollo - University of Cambridge Repository, Lozada, John R [0000-0001-8953-4110], Robson, Mark E [0000-0002-3109-1692], and Foulkes, William D [0000-0001-7427-4651]

Subjects
0301 basic medicine, IMPACT, DNA repair, PALB2, gene frequency, lcsh:RC254-282, RECOMMENDATIONS, Germline, Article, Loss of heterozygosity, 03 medical and health sciences, 0302 clinical medicine, Germline mutation, breast cancer, Breast cancer, 631/67/68, MUTATIONAL PROCESSES, Cancer genomics, Medicine, Pharmacology (medical), Radiology, Nuclear Medicine and imaging, Allele, AMERICAN SOCIETY, Cancer genetics, Genetics, Science & Technology, Massive parallel sequencing, LANDSCAPE, business.industry, 631/67/1347, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, 692/699/67/69, BRCA2, GENE, 3. Good health, 030104 developmental biology, Oncology, gene inactivation, 030220 oncology & carcinogenesis, kConFab Investigators, Homologous recombination, business, Life Sciences & Biomedicine, CLINICAL ONCOLOGY/COLLEGE
Abstract

Mono-allelic germline pathogenic variants in the Partner And Localizer of BRCA2 (PALB2) gene predispose to a high-risk of breast cancer development, consistent with the role of PALB2 in homologous recombination (HR) DNA repair. Here, we sought to define the repertoire of somatic genetic alterations in PALB2-associated breast cancers (BCs), and whether PALB2-associated BCs display bi-allelic inactivation of PALB2 and/or genomic features of HR-deficiency (HRD). Twenty-four breast cancer patients with pathogenic PALB2 germline mutations were analyzed by whole-exome sequencing (WES, n = 16) or targeted capture massively parallel sequencing (410 cancer genes, n = 8). Somatic genetic alterations, loss of heterozygosity (LOH) of the PALB2 wild-type allele, large-scale state transitions (LSTs) and mutational signatures were defined. PALB2-associated BCs were found to be heterogeneous at the genetic level, with PIK3CA (29%), PALB2 (21%), TP53 (21%), and NOTCH3 (17%) being the genes most frequently affected by somatic mutations. Bi-allelic PALB2 inactivation was found in 16 of the 24 cases (67%), either through LOH (n = 11) or second somatic mutations (n = 5) of the wild-type allele. High LST scores were found in all 12 PALB2-associated BCs with bi-allelic PALB2 inactivation sequenced by WES, of which eight displayed the HRD-related mutational signature 3. In addition, bi-allelic inactivation of PALB2 was significantly associated with high LST scores. Our findings suggest that the identification of bi-allelic PALB2 inactivation in PALB2-associated BCs is required for the personalization of HR-directed therapies, such as platinum salts and/or PARP inhibitors, as the vast majority of PALB2-associated BCs without PALB2 bi-allelic inactivation lack genomic features of HRD.

Published
2019
Full Text
View/download PDF

6. Homologous recombination DNA repair defects in PALB2-associated breast cancers

Author

Li, A, Geyer, FC, Blecua, P, Lee, JY, Selenica, P, Brown, DN, Pareja, F, Lee, SSK, Kumar, R, Rivera, B, Bi, R, Piscuoglio, S, Wen, HY, Lozada, JR, Gularte-Mérida, R, Cavallone, L, Aghmesheh, M, Amor, D, Andrews, L, Antill, Y, Balleine, R, Beesley, J, Blackburn, A, Bogwitz, M, Brown, M, Burgess, M, Burke, J, Butow, P, Caldon, L, Campbell, I, Christian, A, Clarke, C, Cohen, P, Crook, A, Cui, J, Cummings, M, Dawson, SJ, De Fazio, A, Delatycki, M, Dobrovic, A, Dudding, T, Duijf, P, Edkins, E, Edwards, S, Farshid, G, Fellows, A, Field, M, Flanagan, J, Fong, P, Forbes, J, Forrest, L, Fox, S, French, J, Friedlander, M, Ortega, DG, Gattas, M, Giles, G, Gill, G, Gleeson, M, Greening, S, Haan, E, Harris, M, Hayward, N, Hickie, I, Hopper, J, Hunt, C, James, P, Jenkins, M, Kefford, R, Kentwell, M, Kirk, J, Kollias, J, Lakhani, S, Lindeman, G, Lipton, L, Lobb, L, Lok, S, Macrea, F, Mann, G, Marsh, D, McLachlan, SA, Meiser, B, Milne, R, Nightingale, S, O’Connell, S, Pachter, N, Patterson, B, Phillips, K, Saleh, M, Salisbury, E, Saunders, C, Saunus, J, Scott, C, Scott, R, Sexton, A, Shelling, A, Simpson, P, Spigelman, A, Spurdle, M, and Stone, J

Abstract

© 2019, The Author(s). Mono-allelic germline pathogenic variants in the Partner And Localizer of BRCA2 (PALB2) gene predispose to a high-risk of breast cancer development, consistent with the role of PALB2 in homologous recombination (HR) DNA repair. Here, we sought to define the repertoire of somatic genetic alterations in PALB2-associated breast cancers (BCs), and whether PALB2-associated BCs display bi-allelic inactivation of PALB2 and/or genomic features of HR-deficiency (HRD). Twenty-four breast cancer patients with pathogenic PALB2 germline mutations were analyzed by whole-exome sequencing (WES, n = 16) or targeted capture massively parallel sequencing (410 cancer genes, n = 8). Somatic genetic alterations, loss of heterozygosity (LOH) of the PALB2 wild-type allele, large-scale state transitions (LSTs) and mutational signatures were defined. PALB2-associated BCs were found to be heterogeneous at the genetic level, with PIK3CA (29%), PALB2 (21%), TP53 (21%), and NOTCH3 (17%) being the genes most frequently affected by somatic mutations. Bi-allelic PALB2 inactivation was found in 16 of the 24 cases (67%), either through LOH (n = 11) or second somatic mutations (n = 5) of the wild-type allele. High LST scores were found in all 12 PALB2-associated BCs with bi-allelic PALB2 inactivation sequenced by WES, of which eight displayed the HRD-related mutational signature 3. In addition, bi-allelic inactivation of PALB2 was significantly associated with high LST scores. Our findings suggest that the identification of bi-allelic PALB2 inactivation in PALB2-associated BCs is required for the personalization of HR-directed therapies, such as platinum salts and/or PARP inhibitors, as the vast majority of PALB2-associated BCs without PALB2 bi-allelic inactivation lack genomic features of HRD.

Published
2019

9. Inflammation, genetics, and longevity: further studies on the protective effects in men of IL-10-1082 promoter SNP and its interaction with TNF-α -308 promoter SNP. (Letter to JMG)

Author

Lio, D., Scola, L., Crivello, A., Colonna-Romano, G., Candore, G., Bonafe, M., Cavallone, L., Marchegiani, F., Olivieri, F., Franceschi, C., and Caruso, C.

Subjects
Physiological aspects, Genetic aspects, Research, Health aspects, Men -- Health aspects -- Research -- Physiological aspects, Medical genetics -- Research -- Health aspects -- Physiological aspects, Men's health -- Health aspects -- Physiological aspects -- Research, Tumor necrosis factor -- Physiological aspects -- Genetic aspects -- Health aspects -- Research, Interleukin-10 -- Physiological aspects -- Research -- Health aspects, Inflammation -- Genetic aspects -- Research, Aging (Biology) -- Genetic aspects -- Health aspects -- Physiological aspects -- Research, Longevity -- Genetic aspects -- Physiological aspects -- Health aspects -- Research, Elderly men -- Health aspects -- Physiological aspects -- Research, Aging -- Genetic aspects -- Health aspects -- Physiological aspects -- Research, Aged men -- Health aspects -- Physiological aspects -- Research
Abstract

Ageing is associated with chronic, low grade inflammatory activity leading to long term tissue damage, and systemic chronic inflammation has been found to be related to mortality risk from all [...]

Published
2003

10. Homologous recombination DNA repair defects in PALB2-associated breast cancers.

Author

Duijf P., Kentwell M., Kirk J., Kollias J., Lakhani S., Lindeman G., Lipton L., Lobb L., Lok S., Macrea F., Mann G., Marsh D., McLachlan S.-A., Meiser B., Milne R., Nightingale S., O'Connell S., Pachter N., Patterson B., Phillips K., Saleh M., Salisbury E., Saunders C., Saunus J., Scott C., Scott R., Sexton A., Shelling A., Simpson P., Spigelman A., Spurdle M., Stone J., Taylor J., Thorne H., Trainer A., Trench G., Walker L., Wallis M., Williams R., Winship I., Wu K., Young M.A., Rezoug Z., Nguyen-Dumont T., Peterlongo P., Tondini C., Terkelsen T., Ronlund K., Boonen S.E., Mannerma A., Winqvist R., Janatova M., Rajadurai P., Xia B., Norton L., Robson M.E., Ng P.-S., Looi L.-M., Southey M.C., Weigelt B., Soo-Hwang T., Tischkowitz M., Foulkes W.D., Reis-Filho J.S., Harris M., Tucker K., Visvader J., Li A., Geyer F.C., Blecua P., Lee J.Y., Selenica P., Brown D.N., Pareja F., Lee S.S.K., Kumar R., Rivera B., Bi R., Piscuoglio S., Wen H.Y., Lozada J.R., Gularte-Merida R., Cavallone L., Aghmesheh M., Amor D., Andrews L., Antill Y., Balleine R., Beesley J., Blackburn A., Bogwitz M., Brown M., Burgess M., Burke J., Butow P., Caldon L., Campbell I., Christian A., Clarke C., Cohen P., Crook A., Cui J., Cummings M., Dawson S.-J., De Fazio A., Delatycki M., Dobrovic A., Dudding T., Edkins E., Edwards S., Farshid G., Fellows A., Field M., Flanagan J., Fong P., Forbes J., Forrest L., Fox S., French J., Friedlander M., Ortega D.G., Gattas M., Giles G., Gill G., Gleeson M., Greening S., Haan E., Hayward N., Hickie I., Hopper J., Hunt C., James P., Jenkins M., Kefford R., Duijf P., Kentwell M., Kirk J., Kollias J., Lakhani S., Lindeman G., Lipton L., Lobb L., Lok S., Macrea F., Mann G., Marsh D., McLachlan S.-A., Meiser B., Milne R., Nightingale S., O'Connell S., Pachter N., Patterson B., Phillips K., Saleh M., Salisbury E., Saunders C., Saunus J., Scott C., Scott R., Sexton A., Shelling A., Simpson P., Spigelman A., Spurdle M., Stone J., Taylor J., Thorne H., Trainer A., Trench G., Walker L., Wallis M., Williams R., Winship I., Wu K., Young M.A., Rezoug Z., Nguyen-Dumont T., Peterlongo P., Tondini C., Terkelsen T., Ronlund K., Boonen S.E., Mannerma A., Winqvist R., Janatova M., Rajadurai P., Xia B., Norton L., Robson M.E., Ng P.-S., Looi L.-M., Southey M.C., Weigelt B., Soo-Hwang T., Tischkowitz M., Foulkes W.D., Reis-Filho J.S., Harris M., Tucker K., Visvader J., Li A., Geyer F.C., Blecua P., Lee J.Y., Selenica P., Brown D.N., Pareja F., Lee S.S.K., Kumar R., Rivera B., Bi R., Piscuoglio S., Wen H.Y., Lozada J.R., Gularte-Merida R., Cavallone L., Aghmesheh M., Amor D., Andrews L., Antill Y., Balleine R., Beesley J., Blackburn A., Bogwitz M., Brown M., Burgess M., Burke J., Butow P., Caldon L., Campbell I., Christian A., Clarke C., Cohen P., Crook A., Cui J., Cummings M., Dawson S.-J., De Fazio A., Delatycki M., Dobrovic A., Dudding T., Edkins E., Edwards S., Farshid G., Fellows A., Field M., Flanagan J., Fong P., Forbes J., Forrest L., Fox S., French J., Friedlander M., Ortega D.G., Gattas M., Giles G., Gill G., Gleeson M., Greening S., Haan E., Hayward N., Hickie I., Hopper J., Hunt C., James P., Jenkins M., and Kefford R.

Abstract

Mono-allelic germline pathogenic variants in the Partner And Localizer of BRCA2 (PALB2) gene predispose to a high-risk of breast cancer development, consistent with the role of PALB2 in homologous recombination (HR) DNA repair. Here, we sought to define the repertoire of somatic genetic alterations in PALB2-associated breast cancers (BCs), and whether PALB2-associated BCs display bi-allelic inactivation of PALB2 and/or genomic features of HR-deficiency (HRD). Twenty-four breast cancer patients with pathogenic PALB2 germline mutations were analyzed by whole-exome sequencing (WES, n = 16) or targeted capture massively parallel sequencing (410 cancer genes, n = 8). Somatic genetic alterations, loss of heterozygosity (LOH) of the PALB2 wild-type allele, large-scale state transitions (LSTs) and mutational signatures were defined. PALB2-associated BCs were found to be heterogeneous at the genetic level, with PIK3CA (29%), PALB2 (21%), TP53 (21%), and NOTCH3 (17%) being the genes most frequently affected by somatic mutations. Bi-allelic PALB2 inactivation was found in 16 of the 24 cases (67%), either through LOH (n = 11) or second somatic mutations (n = 5) of the wild-type allele. High LST scores were found in all 12 PALB2-associated BCs with bi-allelic PALB2 inactivation sequenced by WES, of which eight displayed the HRD-related mutational signature 3. In addition, bi-allelic inactivation of PALB2 was significantly associated with high LST scores. Our findings suggest that the identification of bi-allelic PALB2 inactivation in PALB2-associated BCs is required for the personalization of HR-directed therapies, such as platinum salts and/or PARP inhibitors, as the vast majority of PALB2-associated BCs without PALB2 bi-allelic inactivation lack genomic features of HRD.Copyright © 2019, The Author(s).

Published
2019

11. Publisher Correction: Homologous recombination DNA repair defects in PALB2-associated breast cancers (npj Breast Cancer, (2019), 5, 1, (23), 10.1038/s41523-019-0115-9).

Author

Cummings M., Walker L., Wallis M., Williams R., Winship I., Wu K., Young M.A., Rezoug Z., Nguyen-Dumont T., Peterlongo P., Tondini C., Terkelsen T., Ronlund K., Boonen S.E., Mannerma A., Winqvist R., Janatova M., Rajadurai P., Xia B., Norton L., Robson M.E., Ng P.-S., Looi L.-M., Southey M.C., Weigelt B., Soo-Hwang T., Tischkowitz M., Foulkes W.D., Reis-Filho J.S., Li A., Geyer F.C., Blecua P., Lee J.Y., Selenica P., Brown D.N., Pareja F., Lee S.S.K., Kumar R., Rivera B., Bi R., Piscuoglio S., Wen H.Y., Lozada J.R., Gularte-Merida R., Cavallone L., Aghmesheh M., Amor D., Andrews L., Antill Y., Balleine R., Beesley J., Blackburn A., Bogwitz M., Brown M., Burgess M., Burke J., Butow P., Caldon L., Campbell I., Christian A., Clarke C., Cohen P., Crook A., Cui J., Dawson S.-J., De Fazio A., Delatycki M., Dobrovic A., Dudding T., Duijf P., Edkins E., Edwards S., Farshid G., Fellows A., Field M., Flanagan J., Fong P., Forbes J., Forrest L., Fox S., French J., Friedlander M., Ortega D.G., Gattas M., Giles G., Gill G., Gleeson M., Greening S., Haan E., Harris M., Hayward N., Hickie I., Hopper J., Hunt C., James P., Jenkins M., Kefford R., Kentwell M., Kirk J., Kollias J., Lakhani S., Lindeman G., Lipton L., Lobb L., Lok S., Macrea F., Mann G., Marsh D., McLachlan S.-A., Meiser B., Milne R., Nightingale S., O'Connell S., Pachter N., Patterson B., Phillips K., Saleh M., Salisbury E., Saunders C., Saunus J., Scott C., Scott R., Sexton A., Shelling A., Simpson P., Spigelman A., Spurdle M., Stone J., Taylor J., Thorne H., Trainer A., Trench G., Tucker K., Visvader J., Cummings M., Walker L., Wallis M., Williams R., Winship I., Wu K., Young M.A., Rezoug Z., Nguyen-Dumont T., Peterlongo P., Tondini C., Terkelsen T., Ronlund K., Boonen S.E., Mannerma A., Winqvist R., Janatova M., Rajadurai P., Xia B., Norton L., Robson M.E., Ng P.-S., Looi L.-M., Southey M.C., Weigelt B., Soo-Hwang T., Tischkowitz M., Foulkes W.D., Reis-Filho J.S., Li A., Geyer F.C., Blecua P., Lee J.Y., Selenica P., Brown D.N., Pareja F., Lee S.S.K., Kumar R., Rivera B., Bi R., Piscuoglio S., Wen H.Y., Lozada J.R., Gularte-Merida R., Cavallone L., Aghmesheh M., Amor D., Andrews L., Antill Y., Balleine R., Beesley J., Blackburn A., Bogwitz M., Brown M., Burgess M., Burke J., Butow P., Caldon L., Campbell I., Christian A., Clarke C., Cohen P., Crook A., Cui J., Dawson S.-J., De Fazio A., Delatycki M., Dobrovic A., Dudding T., Duijf P., Edkins E., Edwards S., Farshid G., Fellows A., Field M., Flanagan J., Fong P., Forbes J., Forrest L., Fox S., French J., Friedlander M., Ortega D.G., Gattas M., Giles G., Gill G., Gleeson M., Greening S., Haan E., Harris M., Hayward N., Hickie I., Hopper J., Hunt C., James P., Jenkins M., Kefford R., Kentwell M., Kirk J., Kollias J., Lakhani S., Lindeman G., Lipton L., Lobb L., Lok S., Macrea F., Mann G., Marsh D., McLachlan S.-A., Meiser B., Milne R., Nightingale S., O'Connell S., Pachter N., Patterson B., Phillips K., Saleh M., Salisbury E., Saunders C., Saunus J., Scott C., Scott R., Sexton A., Shelling A., Simpson P., Spigelman A., Spurdle M., Stone J., Taylor J., Thorne H., Trainer A., Trench G., Tucker K., and Visvader J.

Abstract

In the original version of this paper, the link to the data record in the Data Availability Statement was incorrectly listed as https:// doi.org/10.6084/m9.figshare.8138912.44. The link has been corrected to https://doi.org/10.6084/m9.figshare.8138912. This has been corrected in the HTML and PDF versions of this article.Copyright © 2019, The Author(s).

Published
2019

12. Homologous recombination DNA repair defects in PALB2-associated breast cancers (vol 5, 23, 2019)

Author

Li, A, Geyer, FC, Blecua, P, Lee, JY, Selenica, P, Brown, DN, Pareja, F, Lee, SSK, Kumar, R, Rivera, B, Bi, R, Piscuoglio, S, Wen, HY, Lozada, JR, Gularte-Merida, R, Cavallone, L, Rezoug, Z, Tu, N-D, Peterlongo, P, Tondini, C, Terkelsen, T, Ronlund, K, Boonen, SE, Mannerma, A, Winqvist, R, Janatova, M, Rajadurai, P, Xia, B, Norton, L, Robson, ME, Ng, P-S, Looi, L-M, Southey, MC, Weigelt, B, Soo-Hwang, T, Tischkowitz, M, Foulkes, WD, Reis-Filho, JS, Aghmesheh, M, Amor, D, Andrews, L, Antill, Y, Balleine, R, Beesley, J, Blackburn, A, Bogwitz, M, Brown, M, Burgess, M, Burke, J, Butow, P, Caldon, L, Campbell, I, Christian, A, Clarke, C, Cohen, P, Crook, A, Cui, J, Cummings, M, Dawson, S-J, De Fazio, A, Delatycki, M, Dobrovic, A, Dudding, T, Duijf, P, Edkins, E, Edwards, S, Farshid, G, Fellows, A, Field, M, Flanagan, J, Fong, P, Forbes, J, Forrest, L, Fox, S, French, J, Friedlander, M, Ortega, DG, Gattas, M, Giles, G, Gill, G, Gleeson, M, Greening, S, Haan, E, Harris, M, Hayward, N, Hickie, I, Hopper, J, Hunt, C, James, P, Jenkins, M, Kefford, R, Kentwell, M, Kirk, J, Kollias, J, Lakhani, S, Lindeman, G, Lipton, L, Lobb, L, Lok, S, Macrea, F, Mann, G, Marsh, D, McLachlan, S-A, Meiser, B, Milne, R, Nightingale, S, O'Connell, S, Pachter, N, Patterson, B, Phillips, K, Saleh, M, Salisbury, E, Saunders, C, Saunus, J, Scott, C, Scott, R, Sexton, A, Shelling, A, Simpson, P, Spigelman, A, Spurdle, M, Stone, J, Taylor, J, Thorne, H, Trainer, A, Trench, G, Tucker, K, Visvader, J, Walker, L, Wallis, M, Williams, R, Winship, I, Wu, K, Young, MA, Li, A, Geyer, FC, Blecua, P, Lee, JY, Selenica, P, Brown, DN, Pareja, F, Lee, SSK, Kumar, R, Rivera, B, Bi, R, Piscuoglio, S, Wen, HY, Lozada, JR, Gularte-Merida, R, Cavallone, L, Rezoug, Z, Tu, N-D, Peterlongo, P, Tondini, C, Terkelsen, T, Ronlund, K, Boonen, SE, Mannerma, A, Winqvist, R, Janatova, M, Rajadurai, P, Xia, B, Norton, L, Robson, ME, Ng, P-S, Looi, L-M, Southey, MC, Weigelt, B, Soo-Hwang, T, Tischkowitz, M, Foulkes, WD, Reis-Filho, JS, Aghmesheh, M, Amor, D, Andrews, L, Antill, Y, Balleine, R, Beesley, J, Blackburn, A, Bogwitz, M, Brown, M, Burgess, M, Burke, J, Butow, P, Caldon, L, Campbell, I, Christian, A, Clarke, C, Cohen, P, Crook, A, Cui, J, Cummings, M, Dawson, S-J, De Fazio, A, Delatycki, M, Dobrovic, A, Dudding, T, Duijf, P, Edkins, E, Edwards, S, Farshid, G, Fellows, A, Field, M, Flanagan, J, Fong, P, Forbes, J, Forrest, L, Fox, S, French, J, Friedlander, M, Ortega, DG, Gattas, M, Giles, G, Gill, G, Gleeson, M, Greening, S, Haan, E, Harris, M, Hayward, N, Hickie, I, Hopper, J, Hunt, C, James, P, Jenkins, M, Kefford, R, Kentwell, M, Kirk, J, Kollias, J, Lakhani, S, Lindeman, G, Lipton, L, Lobb, L, Lok, S, Macrea, F, Mann, G, Marsh, D, McLachlan, S-A, Meiser, B, Milne, R, Nightingale, S, O'Connell, S, Pachter, N, Patterson, B, Phillips, K, Saleh, M, Salisbury, E, Saunders, C, Saunus, J, Scott, C, Scott, R, Sexton, A, Shelling, A, Simpson, P, Spigelman, A, Spurdle, M, Stone, J, Taylor, J, Thorne, H, Trainer, A, Trench, G, Tucker, K, Visvader, J, Walker, L, Wallis, M, Williams, R, Winship, I, Wu, K, and Young, MA

Abstract

[This corrects the article DOI: 10.1038/s41523-019-0115-9.].

Published
2019

13. Abstract P2-02-02: Dynamics of ctDNA changes during neoadjuvant chemotherapy in triple-negative breast cancer patients

Author

Cavallone, L, primary, Adriana, A-M, additional, Aldamry, M, additional, Lafleur, J, additional, Cathy, L, additional, Alirezaie, N, additional, Bareke, E, additional, Majewski, J, additional, Ferrario, C, additional, Mihalciou, C, additional, Roy, J-A, additional, Markus, E, additional, Robidoux, A, additional, Pelmus, M, additional, Aleynikova, O, additional, Discepola, F, additional, and Basik, M, additional

Published
2018
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16. The interleukin-6 -174 G>C promoter polymorphism is associated with a higher risk of death after an acute coronary syndrome in male elderly patients

Author

Antonicelli, R, Olivieri, F, Bonafã, M, Cavallone, L, Spazzafumo, L, Marchegiani, F, Cardelli, M, Recanatini, A, Testarmata, P, Boemi, M, Parati, G, Franceschi, C, Franceschi, C., PARATI, GIANFRANCO, Antonicelli, R, Olivieri, F, Bonafã, M, Cavallone, L, Spazzafumo, L, Marchegiani, F, Cardelli, M, Recanatini, A, Testarmata, P, Boemi, M, Parati, G, Franceschi, C, Franceschi, C., and PARATI, GIANFRANCO

Abstract

Background: Interleukin-6 (IL-6) and tumor necrosis factor-α (TNF-α) are key mediators of inflammation and their increased plasma levels are associated with acute coronary syndrome (ACS). Polymorphisms in the promoter region of IL-6 (-174 G>C) and TNF-α(-308 G>A) demonstrated to affect gene expression were analyzed to test their predictive power for cardiovascular death over one year follow-up in elderly male ACS patients. Methods: We assessed the IL-6 -174 G>C polymorphism and TNF-α -308 G>A polymorphism in 139 consecutive elderly male patients affected by an ACS, such as ST-Elevation (STEMI), No ST-Elevation (NSTEMI) Myocardial Infarction and Unstable Angina. The presence of well known risk factors for Coronary Heart Diseases (CHD) were also assessed in all ACS patients. Survival rate was assessed after one year follow-up. Results: We found that IL-6 -174 G>C polymorphism is an independent predictor of cardiovascular death after an ACS in male patients. In particular ACS patients carrying the IL-6 -174 C- (GG) genotypes showed a marked increase in one year follow-up mortality rate (HR=3.89, 95% CI 1.71-8.86, p=0.001). Moreover CRP serum levels ≥5.5 mg/dl (HR= 3.79, 95% CI 1.71-8.42, p=0.001), a history of CHD (HR=2.96, 95% CI 1.22-7.20, p=0.016) and the absence of statins treatment (HR=3.27, 95% CI 1.17-9.18, p=0.021), significantly increased one year risk of death in male ACS patients. Conclusions: These data suggest that IL-6 -174 G>C polymorphism can be added to other clinical markers in order to identify a subgroup of elderly ACS male patients at higher risk of death. © 2005 Elsevier Ireland Ltd. All rights reserved

Published
2005

17. An integrated genomic approach identifies ARID1A as a candidate tumor-suppressor gene in breast cancer

Author

Mamo, A, primary, Cavallone, L, additional, Tuzmen, S, additional, Chabot, C, additional, Ferrario, C, additional, Hassan, S, additional, Edgren, H, additional, Kallioniemi, O, additional, Aleynikova, O, additional, Przybytkowski, E, additional, Malcolm, K, additional, Mousses, S, additional, Tonin, P N, additional, and Basik, M, additional

Published
2011
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18. Inflammation, genetics, and longevity: further studies on the protective effects in men of IL-10-1082 promoter SNP and its interaction with TNFα-308 promoter SNP.

Author

Lio, D., Scola, L., Crivello, A., Colonna-Romano, G., Candore, G., Bonafè, M., Cavallone, L., Marchegiani, F., Olivieri, F., Franceschi, C., and Caruso, C.

Subjects
PROMOTERS (Genetics), INFLAMMATION, CENTENARIANS, AGE factors in disease, LONGEVITY, NUCLEOTIDES
Abstract

Investigates the frequency of the -1082g→A IL-10 promoter single nucleotide polymorphism (SNP) in a larger cohort of 72 centenarian men, including 25 typed in a previous study, and the interaction of this polymorphism with -308A↠G TNF-α SNP. Conclusion that inflammatory markers predict disability and mortality in elderly cohorts; Suggestion that a persistent inflammatory state is involved in the causal pathway of certain age-related chronic conditions.

Published
2003
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19. Gender-specific association between --1082 IL-10 promoter polymorphism and longevity.

Author

Lio, D., Scola, L., Crivello, A., Colonna-Romano, G., Candore, G., Bonafe, M., Cavallone, L., Franceschi, C., and Caruso, C.

Subjects
INTERLEUKIN-10, GENETICS of longevity, GENETIC polymorphisms
Abstract

Examines the association of -1082G genotype with interleukin-10 high production. Genetic polymorphism; Genetics of longevity; Association of longevity with genotypes coding for a pro-inflammatory profile.

Published
2002
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20. Reproducibility of the heat/capsaicin skin sensitization model in healthy volunteers

Author

Cavallone LF, Frey K, Montana MC, Joyal J, Regina KJ, Petersen KL, and Gereau RW

Subjects
Medicine (General), R5-920
Abstract

Laura F Cavallone,1 Karen Frey,1 Michael C Montana,1 Jeremy Joyal,1 Karen J Regina,1 Karin L Petersen,2 Robert W Gereau IV11Department of Anesthesiology, Washington University in St Louis, School of Medicine, St Louis, MO, USA; 2California Pacific Medical Center Research Institute, San Francisco, CA, USAIntroduction: Heat/capsaicin skin sensitization is a well-characterized human experimental model to induce hyperalgesia and allodynia. Using this model, gabapentin, among other drugs, was shown to significantly reduce cutaneous hyperalgesia compared to placebo. Since the larger thermal probes used in the original studies to produce heat sensitization are now commercially unavailable, we decided to assess whether previous findings could be replicated with a currently available smaller probe (heated area 9 cm2 versus 12.5–15.7 cm2).Study design and methods: After Institutional Review Board approval, 15 adult healthy volunteers participated in two study sessions, scheduled 1 week apart (Part A). In both sessions, subjects were exposed to the heat/capsaicin cutaneous sensitization model. Areas of hypersensitivity to brush stroke and von Frey (VF) filament stimulation were measured at baseline and after rekindling of skin sensitization. Another group of 15 volunteers was exposed to an identical schedule and set of sensitization procedures, but, in each session, received either gabapentin or placebo (Part B).Results: Unlike previous reports, a similar reduction of areas of hyperalgesia was observed in all groups/sessions. Fading of areas of hyperalgesia over time was observed in Part A. In Part B, there was no difference in area reduction after gabapentin compared to placebo.Conclusion: When using smaller thermal probes than originally proposed, modifications of other parameters of sensitization and/or rekindling process may be needed to allow the heat/capsaicin sensitization protocol to be used as initially intended. Standardization and validation of experimental pain models is critical to the advancement of translational pain research.Keywords: experimental pain model, hyperalgesia, peripheral sensitization, central sensitization

Published
2013

21. Identification of gene fusion transcripts by transcriptome sequencing in BRCA1-mutated breast cancers and cell lines

Author

Ha Kevin CH, Lalonde Emilie, Li Lili, Cavallone Luca, Natrajan Rachael, Lambros Maryou B, Mitsopoulos Costas, Hakas Jarle, Kozarewa Iwanka, Fenwick Kerry, Lord Chris J, Ashworth Alan, Vincent-Salomon Anne, Basik Mark, Reis-Filho Jorge S, Majewski Jacek, and Foulkes William D

Subjects
Internal medicine, RC31-1245, Genetics, QH426-470
Abstract

Abstract Background Gene fusions arising from chromosomal translocations have been implicated in cancer. However, the role of gene fusions in BRCA1-related breast cancers is not well understood. Mutations in BRCA1 are associated with an increased risk for breast cancer (up to 80% lifetime risk) and ovarian cancer (up to 50%). We sought to identify putative gene fusions in the transcriptomes of these cancers using high-throughput RNA sequencing (RNA-Seq). Methods We used Illumina sequencing technology to sequence the transcriptomes of five BRCA1-mutated breast cancer cell lines, three BRCA1-mutated primary tumors, two secretory breast cancer primary tumors and one non-tumorigenic breast epithelial cell line. Using a bioinformatics approach, our initial attempt at discovering putative gene fusions relied on analyzing single-end reads and identifying reads that aligned across exons of two different genes. Subsequently, latter samples were sequenced with paired-end reads and at longer cycles (producing longer reads). We then refined our approach by identifying misaligned paired reads, which may flank a putative gene fusion junction. Results As a proof of concept, we were able to identify two previously characterized gene fusions in our samples using both single-end and paired-end approaches. In addition, we identified three novel in-frame fusions, but none were recurrent. Two of the candidates, WWC1-ADRBK2 in HCC3153 cell line and ADNP-C20orf132 in a primary tumor, were confirmed by Sanger sequencing and RT-PCR. RNA-Seq expression profiling of these two fusions showed a distinct overexpression of the 3' partner genes, suggesting that its expression may be under the control of the 5' partner gene's regulatory elements. Conclusions In this study, we used both single-end and paired-end sequencing strategies to discover gene fusions in breast cancer transcriptomes with BRCA1 mutations. We found that the use of paired-end reads is an effective tool for transcriptome profiling of gene fusions. Our findings suggest that while gene fusions are present in some BRCA1-mutated breast cancers, they are infrequent and not recurrent. However, private fusions may still be valuable as potential patient-specific biomarkers for diagnosis and treatment.

Published
2011
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22. Haplotype analysis of TP53 polymorphisms, Arg72Pro and Ins16, in BRCA1 and BRCA2 mutation carriers of French Canadian descent

Author

Ghadirian Parviz, Maugard Christine, Arcand Suzanna L, Cavallone Luca, Mes-Masson Anne-Marie, Provencher Diane, and Tonin Patricia N

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background The TP53 polymorphisms Arg72Pro (Ex4+199 G>C) and Ins16 (IVS3+24 ins16) have been proposed to modify risk of breast cancer associated with germline BRCA1 and BRCA2 mutations. Allele frequencies of these polymorphisms were investigated to determine if they modify risk in BRCA mutation carriers in breast cancer cases drawn from French Canadian cancer families, a population shown to exhibit strong founder effects. Methods The frequencies of the TP53 alleles, genotypes and haplotypes of 157 index breast cancer cases comprised of 42 BRCA1 mutation carriers, 57 BRCA2 mutation carriers, and 58 BRCA mutation-negative cases, where each case was drawn from independently ascertained families were compared. The effect of TP53 variants on the age of diagnosis was also investigated for these groups. The TP53 polymorphisms were also investigated in 112 women of French Canadian descent with no personal history of cancer. Results The BRCA mutation-positive groups had the highest frequency of homozygous carriers of the 72Pro allele compared with mutation-negative group. The TP53 polymorphisms exhibited linkage disequilibrium (p < 0.001), where the 72Arg and Ins16minus alleles occurred in strong disequilibrium. The highest frequency of carriers of Ins16minus-72Arg haplotype occurred in the BRCA mutation-negative groups. The BRCA1 mutation carriers homozygous for the 72Pro allele had the youngest ages of diagnosis of breast cancer. However none of these observations were statistically significant. In contrast, the BRCA2 mutation carriers homozygous for the 72Pro allele had a significantly older age of diagnosis of breast cancer (p = 0.018). Moreover, in this group, the mean age of diagnosis of breast cancer in carriers of the Ins16minus-72Arg haplotype was significantly younger than that of the individuals who did not this carry this haplotype (p = 0.009). Conclusion We observed no significant association of breast cancer risk with TP53 genetic variants based on BRCA1/2 mutation carrier status. Although the small sample size did not permit analysis of all possible haplotypes, we observed that BRCA2 mutation carriers harboring the Ins16minus-72Arg haplotype had a significantly younger mean age of diagnosis of breast cancer. These observations suggest that investigations in a larger French Canadian sample are warranted to further elucidate the effects of TP53 variants on age of diagnosis of breast cancer among BRCA1 and BRCA2 mutation carriers.

Published
2008
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23. Haplotype analysis of TP53 polymorphisms, Arg72Pro and Ins16, in BRCA1 and BRCA2 mutation carriers of French Canadian descent.

Author

Cavallone L, Arcand SL, Maugard C, Ghadirian P, Mes-Masson AM, Provencher D, Tonin PN, Cavallone, Luca, Arcand, Suzanna L, Maugard, Christine, Ghadirian, Parviz, Mes-Masson, Anne-Marie, Provencher, Diane, and Tonin, Patricia N

Abstract

Background: The TP53 polymorphisms Arg72Pro (Ex4+199 G>C) and Ins16 (IVS3+24 ins16) have been proposed to modify risk of breast cancer associated with germline BRCA1 and BRCA2 mutations. Allele frequencies of these polymorphisms were investigated to determine if they modify risk in BRCA mutation carriers in breast cancer cases drawn from French Canadian cancer families, a population shown to exhibit strong founder effects.Methods: The frequencies of the TP53 alleles, genotypes and haplotypes of 157 index breast cancer cases comprised of 42 BRCA1 mutation carriers, 57 BRCA2 mutation carriers, and 58 BRCA mutation-negative cases, where each case was drawn from independently ascertained families were compared. The effect of TP53 variants on the age of diagnosis was also investigated for these groups. The TP53 polymorphisms were also investigated in 112 women of French Canadian descent with no personal history of cancer.Results: The BRCA mutation-positive groups had the highest frequency of homozygous carriers of the 72Pro allele compared with mutation-negative group. The TP53 polymorphisms exhibited linkage disequilibrium (p < 0.001), where the 72Arg and Ins16minus alleles occurred in strong disequilibrium. The highest frequency of carriers of Ins16minus-72Arg haplotype occurred in the BRCA mutation-negative groups. The BRCA1 mutation carriers homozygous for the 72Pro allele had the youngest ages of diagnosis of breast cancer. However none of these observations were statistically significant. In contrast, the BRCA2 mutation carriers homozygous for the 72Pro allele had a significantly older age of diagnosis of breast cancer (p = 0.018). Moreover, in this group, the mean age of diagnosis of breast cancer in carriers of the Ins16minus-72Arg haplotype was significantly younger than that of the individuals who did not this carry this haplotype (p = 0.009).Conclusion: We observed no significant association of breast cancer risk with TP53 genetic variants based on BRCA1/2 mutation carrier status. Although the small sample size did not permit analysis of all possible haplotypes, we observed that BRCA2 mutation carriers harboring the Ins16minus-72Arg haplotype had a significantly younger mean age of diagnosis of breast cancer. These observations suggest that investigations in a larger French Canadian sample are warranted to further elucidate the effects of TP53 variants on age of diagnosis of breast cancer among BRCA1 and BRCA2 mutation carriers. [ABSTRACT FROM AUTHOR]

Published
2008
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24. A Genetic-Demographic Approach Reveals Male-Specific Association Between Survival and Tumor Necrosis Factor (A/G)-308 Polymorphism

Author

Rosamaria Lisa, Francesca Marchegiani, Maurizio Cardelli, Giovanna De Benedictis, Fabiola Oliveri, Francesco Lescai, Alberto Montesanto, Serena Dato, Luca Cavallone, Claudio Franceschi, Cardelli M., Cavallone L., Marchegiani F., Oliveri F., Dato S., Montesanto A., Lescai F., Lisa R., De Benedictis G., and Franceschi C.

Subjects
Adult, Male, Oncology, Aging, medicine.medical_specialty, media_common.quotation_subject, Longevity, Major histocompatibility complex, Internal medicine, Humans, Medicine, Allele, Longevity, genetics, Gene, Aged, media_common, Aged, 80 and over, Polymorphism, Genetic, biology, Tumor Necrosis Factor-alpha, business.industry, Haplotype, Tumor Necrosis Factor-alpha, genetics, Middle Aged, Immunology, Life expectancy, biology.protein, Microsatellite, Female, Tumor necrosis factor alpha, Geriatrics and Gerontology, business
Abstract

The (A/G)-308 polymorphism of the tumor necrosis factor alpha gene (TNF) is associated with age-related diseases, but its influence on longevity is controversial. We genotyped for this polymorphism 747 Italian volunteers (401 women and 346 men, age 19-110 years). By applying a genetic-demographic (GD) approach we found that, in men, the survival function of allele A carriers is lower than that of noncarriers at all the ages (p =.044). After defining (by exploiting again demographic information) three age classes, we found that the frequency of men carrying the A allele decreases with age (p =.019), thus confirming the GD analysis results. The same analyses gave negative results in women. Therefore, allele A has a detrimental effect on life expectancy, and this effect is specific to men. A haplotype analysis carried out in men by screening the TNFa, TNFc, and TNFe microsatellite polymorphisms (spanning about 20 kb) confirmed the association of the TNF region with life expectancy.

Published
2008
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25. A novel sampling design to explore gene-longevity associations: the ECHA study

Author

James W. Vaupel, Emidio Feraco, Dina Bellizzi, Andrea Novelletto, Jean-Marie Robine, Giuseppina Rose, Giovanna De Benedictis, Luca Cavallone, Erika Marzi, Amandine Cournil, Jutta Gampe, Claudio Franceschi, Axel Skytthe, Bernard Jeune, Francesco De Rango, Giuseppe Passarino, Vincenzo Mari, Serena Dato, De Rango F., Dato S., Bellizzi D., Rose G., Marzi E., Cavallone L., Franceschi C., Skytthe A., Jeune B., Cournil A., Robine J.M., Gampe J., Vaupel J.W., Mari V., Feraco E., Passarino G., Novelletto A., and De Benedictis G.

Subjects
Male, Genetic Linkage, Offspring, Denmark, media_common.quotation_subject, Longevity, Population, Biology, Identity by descent, Gene Frequency, Genetic linkage, Genetics, Humans, education, Allele frequency, Genetics (clinical), Aged, media_common, Aged, 80 and over, education.field_of_study, Chromosomes, Human, Pair 11, Siblings, Haplotype, Middle Aged, Settore BIO/18 - Genetica, Haplotypes, Italy, Research Design, Chromosomes, Human, Pair 6, Female, France, Centenarian
Abstract

Udgivelsesdato: 2008-Feb To investigate the genetic contribution to familial similarity in longevity, we set up a novel experimental design where cousin-pairs born from siblings who were concordant or discordant for the longevity trait were analyzed. To check this design, two chromosomal regions already known to encompass longevity-related genes were examined: 6p21.3 (genes TNFalpha, TNFbeta, HSP70.1) and 11p15.5 (genes SIRT3, HRAS1, IGF2, INS, TH). Population pools of 1.6, 2.3 and 2.0 million inhabitants were screened, respectively, in Denmark, France and Italy to identify families matching the design requirements. A total of 234 trios composed by one centenarian, his/her child and a child of his/her concordant or discordant sib were collected. By using population-specific allele frequencies, we reconstructed haplotype phase and estimated the likelihood of Identical By Descent (IBD) haplotype sharing in cousin-pairs born from concordant and discordant siblings. In addition, we analyzed haplotype transmission from centenarians to offspring, and a statistically significant Transmission Ratio Distortion (TRD) was observed for both chromosomal regions in the discordant families (P=0.007 for 6p21.3 and P=0.015 for 11p15.5). In concordant families, a marginally significant TRD was observed at 6p21.3 only (P=0.06). Although no significant difference emerged between the two groups of cousin-pairs, our study gave new insights on the hindrances to recruiting a suitable sample to obtain significant IBD data on longevity-related chromosomal regions. This will allow to dimension future sampling campaigns to study-genetic basis of human longevity.European Journal of Human Genetics (2008) 16, 236-242; doi:10.1038/sj.ejhg.5201950; published online 7 November 2007.

Published
2007
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26. A Polymorphism of the YTHDF2 Gene (1p35) Located in an Alu-Rich Genomic Domain Is Associated With Human Longevity

Author

Elena Mugianesi, Rosamaria Lisa, Raffaella Moresi, Luca Cavallone, Simona Giovagnetti, Claudio Franceschi, Maurizio Cardelli, Fabiola Olivieri, Francesca Marchegiani, Cardelli M., Marchegiani F., Cavallone L., Olivieri F., Giovagnetti S., Mugianesi E., Moresi R., Lisa R., and Franceschi C.

Subjects
Adult, Male, Aging, Adolescent, Genotype, Longevity, Alu element, Locus (genetics), Biology, Alu Elements, Humans, Lymphocytes, RNA, Messenger, Allele, Genotyping, Aged, Aged, 80 and over, Genetics, Messenger RNA, Polymorphism, Genetic, Reverse Transcriptase Polymerase Chain Reaction, Middle Aged, Molecular biology, Introns, Microsatellite, Female, Human genome, Geriatrics and Gerontology
Abstract

The uneven distribution of Alu repetitive elements in the human genome is related to specific functional properties of genomic regions. We report the identification of a locus associated with human longevity in one of the chromosomal regions with the highest density of Alu elements, in 1p35. The locus, corresponding to a (TG)n microsatellite in the YTHDF2 gene, was identified by characterizing an ‘‘anonymous’’ marker detectable through interAlu fingerprinting, which previously evidenced an increased homozygosity in centenarians. After genotyping 412 participants of different ages, including 137 centenarians, we confirmed the increased homozygosity in centenarians at this locus, and observed a concomitantly increased frequency of the most frequent allele and the corresponding homozygous genotype. Remarkably, the same genotype was associated with increased YTHDF2 messenger RNA levels in immortalized lymphocytes. Finally, YTHDF2 messenger RNA resulted to be mainly expressed in testis and placenta. The data suggest a possible role of this locus in human longevity.

Published
2006
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27. A novel mitochondrial DNA-like sequence insertion polymorphism in Intron I of the FOXO1A gene

Author

Chariklia Petropoulou, Luca Cavallone, Claudia Giampieri, Giuseppina Carrieri, Simona Giovagnetti, Claudio Franceschi, Efstathios S. Gonos, Rosamaria Lisa, Matteo Centurelli, Elena Mugianesi, Massimiliano Bonafè, Stefano Cenerelli, Francesca Marchegiani, Maurizio Cardelli, Roberto Testa, Fabiola Olivieri, Massimo Boemi, GIAMPIERI C., CENTURELLI M., BONAFE M., OLIVIERI F., CARDELLI M., MARCHEGIANI F., CAVALLONE L., GIOVAGNETTI S., MUGIANESI E., CARRIERI G., LISA R., CENERELLI S., TESTA R., BOEMI M., PETROPOULOU C., GONOS E.S., and FRANCESCHI C.

Subjects
Adult, Male, Transposable element, Mitochondrial DNA, Adolescent, Genotype, DNA Mutational Analysis, Population, Biology, DNA, Mitochondrial, Polymorphism, Single Nucleotide, Linkage Disequilibrium, chemistry.chemical_compound, Gene Frequency, Genetics, Humans, Gene family, education, Gene, Alleles, Aged, Sequence Deletion, Adenosine Triphosphatases, Aged, 80 and over, education.field_of_study, Forkhead Box Protein O1, Intron, Forkhead Transcription Factors, DNA, General Medicine, Middle Aged, Molecular biology, Introns, Pedigree, DNA-Binding Proteins, Mutagenesis, Insertional, genomic DNA, Haplotypes, Italy, chemistry, Female, Insulin Resistance, Transcription Factors
Abstract

The human forkhead box O1A (FOXO1A) gene belongs to the human forkhead gene family and acts downstream of the human insulin signalling pathway. In this study, polymorphisms of the Intron I of FOXO1A gene were studied in Italian healthy people and insulin resistant subjects. No significant association between the germ-line variability in the Intron I of FOXO1A and insulin resistance was observed. Interestingly, during the study, a new 39-bp sequence insertion polymorphism in Intron I of FOXO1A gene was described. The polymorphism was found to co-segregate in a co-dominant Mendelian fashion and to be present in an ethnically distinct population (Greeks). A BLAST search showed that the sequence shares 100% identity with a mtDNA (mitochondrial DNA) sequence coding for the ATP synthase 8 (ATPase8) and ATP synthase 6 (ATPase6) genes. Hence, FOXO1A Intron I is a polymorphic nuclear region involved in the exchange of DNA material between mitochondrial and genomic DNA, which is a well-established mechanism of evolutionary change in eukaryotes.

Published
2004
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28. Tumor suppressor BRCA1 epigenetically controls oncogenic microRNA-155.

Author

Chang S, Wang RH, Akagi K, Kim KA, Martin BK, Cavallone L, Haines DC, Basik M, Mai P, Poggi E, Isaacs C, Looi LM, Mun KS, Greene MH, Byers SW, Teo SH, Deng CX, and Sharan SK

Subjects
Analysis of Variance, BRCA1 Protein genetics, Blotting, Southern, Chromatin Immunoprecipitation, DNA Repair genetics, Epigenesis, Genetic genetics, Female, Gene Expression Regulation, Neoplastic physiology, Histone Deacetylase 2 metabolism, Humans, Immunohistochemistry, Immunoprecipitation, In Situ Hybridization, Microarray Analysis, Mutation, Missense genetics, Reverse Transcriptase Polymerase Chain Reaction, BRCA1 Protein metabolism, DNA Repair physiology, Epigenesis, Genetic physiology, Gene Expression Regulation, Neoplastic genetics, MicroRNAs metabolism
Abstract

BRCA1, a well-known tumor suppressor with multiple interacting partners, is predicted to have diverse biological functions. However, so far its only well-established role is in the repair of damaged DNA and cell cycle regulation. In this regard, the etiopathological study of low-penetrant variants of BRCA1 provides an opportunity to uncover its other physiologically important functions. Using this rationale, we studied the R1699Q variant of BRCA1, a potentially moderate-risk variant, and found that it does not impair DNA damage repair but abrogates the repression of microRNA-155 (miR-155), a bona fide oncomir. Mechanistically, we found that BRCA1 epigenetically represses miR-155 expression via its association with HDAC2, which deacetylates histones H2A and H3 on the miR-155 promoter. We show that overexpression of miR-155 accelerates but the knockdown of miR-155 attenuates the growth of tumor cell lines in vivo. Our findings demonstrate a new mode of tumor suppression by BRCA1 and suggest that miR-155 is a potential therapeutic target for BRCA1-deficient tumors.

Published
2011
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29. P53 codon 72 polymorphism and longevity: additional data on centenarians from continental Italy and Sardinia.

Author

Bonafè M, Olivieri F, Mari D, Baggio G, Mattace R, Berardelli M, Sansoni P, De Benedictis G, De Luca M, Marchegiani F, Cavallone L, Cardelli M, Giovagnetti S, Ferrucci L, Amadio L, Lisa R, Tucci MG, Troiano L, Pini G, Gueresi P, Morellini M, Sorbi S, Passeri G, Barbi C, Valensin S, Monti D, Deiana L, Pes GM, Carru C, and Franceschi C

Subjects
Age Factors, Aged, Aged, 80 and over, Case-Control Studies, Ethnicity genetics, Genetic Predisposition to Disease, Haplotypes genetics, Humans, Italy, Neoplasms genetics, Sample Size, Codon genetics, Genes, p53 genetics, Longevity genetics, Polymorphism, Genetic genetics
Published
1999
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