TY - JOUR
T1 - Interplay between BRCA1 and RHAMM regulates epithelial apicobasal polarization and may influence risk of breast cancer
AU - GEMO Study Collaborators
AU - Maxwell, Christopher A.
AU - Benítez, Javier
AU - Gómez-Baldó, Laia
AU - Osorio, Ana
AU - Bonifaci, Núria
AU - Fernández-Ramires, Ricardo
AU - Costes, Sylvain V.
AU - Guinó, Elisabet
AU - Chen, Helen
AU - Evans, Gareth J.R.
AU - Mohan, Pooja
AU - Català, Isabel
AU - Petit, Anna
AU - Aguilar, Helena
AU - Villanueva, Alberto
AU - Aytes, Alvaro
AU - Serra-Musach, Jordi
AU - Rennert, Gad
AU - Lejbkowicz, Flavio
AU - Peterlongo, Paolo
AU - Manoukian, Siranoush
AU - Peissel, Bernard
AU - Ripamonti, Carla B.
AU - Bonanni, Bernardo
AU - Viel, Alessandra
AU - Allavena, Anna
AU - Bernard, Loris
AU - Radice, Paolo
AU - Friedman, Eitan
AU - Kaufman, Bella
AU - Laitman, Yael
AU - Dubrovsky, Maya
AU - Milgrom, Roni
AU - Jakubowska, Anna
AU - Cybulski, Cezary
AU - Gorski, Bohdan
AU - Jaworska, Katarzyna
AU - Durda, Katarzyna
AU - Sukiennicki, Grzegorz
AU - Lubiński, Jan
AU - Shugart, Yin Yao
AU - Domchek, Susan M.
AU - Letrero, Richard
AU - Weber, Barbara L.
AU - Hogervorst, Frans B.L.
AU - Rookus, Matti A.
AU - Collee, J. Margriet
AU - Devilee, Peter
AU - Ligtenberg, Marjolijn J.
AU - Daly, Mary B.
PY - 2011/11/1
Y1 - 2011/11/1
N2 - Differentiated mammary epithelium shows apicobasal polarity, and loss of tissue organization is an early hallmark of breast carcinogenesis. In BRCA1 mutation carriers, accumulation of stem and progenitor cells in normal breast tissue and increased risk of developing tumors of basal-like type suggest that BRCA1 regulates stem/progenitor cell proliferation and differentiation. However, the function of BRCA1 in this process and its link to carcinogenesis remain unknown. Here we depict a molecular mechanism involving BRCA1 and RHAMM that regulates apicobasal polarity and, when perturbed, may increase risk of breast cancer. Starting from complementary genetic analyses across families and populations, we identified common genetic variation at the low-penetrance susceptibility HMMR locus (encoding for RHAMM) that modifies breast cancer risk among BRCA1, but probably not BRCA2, mutation carriers: n = 7,584, weighted hazard ratio (wHR) = 1.09 (95% CI 1.02-1.16), ptrend = 0.017; and n = 3,965, wHR = 1.04 (95% CI 0.94-1.16), ptrend = 0.43; respectively. Subsequently, studies of MCF10A apicobasal polarization revealed a central role for BRCA1 and RHAMM, together with AURKA and TPX2, in essential reorganization of microtubules. Mechanistically, reorganization is facilitated by BRCA1 and impaired by AURKA, which is regulated by negative feedback involving RHAMM and TPX2. Taken together, our data provide fundamental insight into apicobasal polarization through BRCA1 function, which may explain the expanded cell subsets and characteristic tumor type accompanying BRCA1 mutation, while also linking this process to sporadic breast cancer through perturbation of HMMR/RHAMM.
AB - Differentiated mammary epithelium shows apicobasal polarity, and loss of tissue organization is an early hallmark of breast carcinogenesis. In BRCA1 mutation carriers, accumulation of stem and progenitor cells in normal breast tissue and increased risk of developing tumors of basal-like type suggest that BRCA1 regulates stem/progenitor cell proliferation and differentiation. However, the function of BRCA1 in this process and its link to carcinogenesis remain unknown. Here we depict a molecular mechanism involving BRCA1 and RHAMM that regulates apicobasal polarity and, when perturbed, may increase risk of breast cancer. Starting from complementary genetic analyses across families and populations, we identified common genetic variation at the low-penetrance susceptibility HMMR locus (encoding for RHAMM) that modifies breast cancer risk among BRCA1, but probably not BRCA2, mutation carriers: n = 7,584, weighted hazard ratio (wHR) = 1.09 (95% CI 1.02-1.16), ptrend = 0.017; and n = 3,965, wHR = 1.04 (95% CI 0.94-1.16), ptrend = 0.43; respectively. Subsequently, studies of MCF10A apicobasal polarization revealed a central role for BRCA1 and RHAMM, together with AURKA and TPX2, in essential reorganization of microtubules. Mechanistically, reorganization is facilitated by BRCA1 and impaired by AURKA, which is regulated by negative feedback involving RHAMM and TPX2. Taken together, our data provide fundamental insight into apicobasal polarization through BRCA1 function, which may explain the expanded cell subsets and characteristic tumor type accompanying BRCA1 mutation, while also linking this process to sporadic breast cancer through perturbation of HMMR/RHAMM.
KW - Aurora Kinase A
KW - Aurora Kinases
KW - BRCA1 Protein/genetics
KW - BRCA2 Protein/genetics
KW - Breast Neoplasms/genetics
KW - Breast/cytology
KW - Cell Line, Tumor
KW - Cell Polarity/genetics
KW - Epithelial Cells/cytology
KW - Extracellular Matrix Proteins/genetics
KW - Female
KW - Genes, BRCA1
KW - Genes, BRCA2
KW - Genetic Predisposition to Disease
KW - Genetic Variation
KW - Genotype
KW - HeLa Cells
KW - Heterozygote
KW - Humans
KW - Hyaluronan Receptors/genetics
KW - Microtubules/physiology
KW - Protein Serine-Threonine Kinases/metabolism
KW - Receptors, Estrogen/analysis
UR - http://www.scopus.com/inward/record.url?scp=82455175797&partnerID=8YFLogxK
UR - https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=purepublist2023&SrcAuth=WosAPI&KeyUT=WOS:000298152600012&DestLinkType=FullRecord&DestApp=WOS
U2 - 10.1371/journal.pbio.1001199
DO - 10.1371/journal.pbio.1001199
M3 - Article
C2 - 22110403
SN - 1544-9173
VL - 9
SP - e1001199
JO - PLoS Biology
JF - PLoS Biology
IS - 11
M1 - e1001199
ER -