TY - JOUR
T1 - Distinct gene mutation profiles among luminal-type and basal-type breast cancer cell lines
AU - Hollestelle, Antoinette
AU - Nagel, JHA (Jord)
AU - Smid, Marcel
AU - Lam, S
AU - Elstrodt, F
AU - Wasielewski, M (Marijke)
AU - Ng, SS
AU - French, Pim
AU - Peeters, Justine
AU - Rozendaal, MJ
AU - Riaz, Muhammad
AU - Koopman, DG (Daphne)
AU - ten Hagen, Timo
AU - de Leeuw, BHCGM
AU - Zwarthoff, Ellen
AU - Teunisse, A
AU - van der Spek, Peter
AU - Klijn, Jan
AU - Dinjens, Winand
AU - Ethier, SP
AU - Clevers, H
AU - Jochemsen, AG
AU - den Bakker, Michael
AU - Foekens, John
AU - Martens, John
AU - Schutte, Mieke
PY - 2010
Y1 - 2010
N2 - Breast cancer has for long been recognized as a highly diverse tumor group, but the underlying genetic basis has been elusive. Here, we report an extensive molecular characterization of a collection of 41 human breast cancer cell lines. Protein and gene expression analyses indicated that the collection of breast cancer cell lines has retained most, if not all, molecular characteristics that are typical for clinical breast cancers. Gene mutation analyses identified 146 oncogenic mutations among 27 well-known cancer genes, amounting to an average of 3.6 mutations per cell line. Mutations in genes from the p53, RB and PI3K tumor suppressor pathways were widespread among all breast cancer cell lines. Most important, we have identified two gene mutation profiles that are specifically associated with luminal-type and basal-type breast cancer cell lines. The luminal mutation profile involved E-cadherin and MAP2K4 gene mutations and amplifications of Cyclin D1, ERBB2 and HDM2, whereas the basal mutation profile involved BRCA1, RB1, RAS and BRAF gene mutations and deletions of p16 and p14ARF. These subtype-specific gene mutation profiles constitute a genetic basis for the heterogeneity observed among human breast cancers, providing clues for their underlying biology and providing guidance for targeted pharmacogenetic intervention in breast cancer patients.
AB - Breast cancer has for long been recognized as a highly diverse tumor group, but the underlying genetic basis has been elusive. Here, we report an extensive molecular characterization of a collection of 41 human breast cancer cell lines. Protein and gene expression analyses indicated that the collection of breast cancer cell lines has retained most, if not all, molecular characteristics that are typical for clinical breast cancers. Gene mutation analyses identified 146 oncogenic mutations among 27 well-known cancer genes, amounting to an average of 3.6 mutations per cell line. Mutations in genes from the p53, RB and PI3K tumor suppressor pathways were widespread among all breast cancer cell lines. Most important, we have identified two gene mutation profiles that are specifically associated with luminal-type and basal-type breast cancer cell lines. The luminal mutation profile involved E-cadherin and MAP2K4 gene mutations and amplifications of Cyclin D1, ERBB2 and HDM2, whereas the basal mutation profile involved BRCA1, RB1, RAS and BRAF gene mutations and deletions of p16 and p14ARF. These subtype-specific gene mutation profiles constitute a genetic basis for the heterogeneity observed among human breast cancers, providing clues for their underlying biology and providing guidance for targeted pharmacogenetic intervention in breast cancer patients.
U2 - 10.1007/s10549-009-0460-8
DO - 10.1007/s10549-009-0460-8
M3 - Article
C2 - 19593635
SN - 0167-6806
VL - 121
SP - 53
EP - 64
JO - Breast Cancer Research and Treatment
JF - Breast Cancer Research and Treatment
IS - 1
ER -