Cells underwent comparable PDs in culture, following which cells became SA-b-galactosidase-positive and stopped dividing (Fig. 3c; Gisadenafil besylate MedChemExpress Supplementary Fig. 4a,b). Additionally, HMF and HDF exhibited a similar induction of p53 and p16/INK4a as they approached senescence (Fig. 3d; Supplementary Fig. 4c,d). These findings suggest that HIS, increased DDR and genomic instability are cell-type-specific. Considering the fact that BRCA1mut/ fibroblasts did not exhibit premature senescence, we subsequent examined irrespective of whether this proliferative barrier was induced in other epithelial cell forms. Primary keratinocytes (HDEs) were isolated from age-matched WT and BRCA1mutation carriers and also examined for senescence. Similar to BRCA1mut/ HMECs, premature development arrest was observed in BRCA1mut/ HDEs with standard capabilities of senescence (Avg PD 7.5 versus Avg PD 17, respectively; t-test P 0.01, Fig. 3e). In addition, premature senescence in BRCA1mut/ HDEs occurred without loss on the remaining WT allele indicating that the premature growth arrest was HIS (Fig. 3f). However, in contrast to BRCA1mut/ HMECs, telomere lengths and erosion prices did not differ in between WT and BRCA1mut/ HDEs (t-test P 0.324, Fig. 3g) suggesting that HIS in HDEs was not associated with telomere dysfunction. HIS is mediated by active pRb signalling pathway. P53 could be the significant inducer of senescence in response to DNA harm and telomere dysfunction38 and could be the main inducer of premature senescence in BRCA1-deficient cells6. Hence, we examined p53 activity and signalling pathway in senescent BRCA1mut/ HMECs and HDEs. The levels of crucial elements of DDR and p53 pathway activation, such as phosphorylated p53 (Ser15), total p53, p21, p27, p14/ARF too as phosphorylated ATM/ATR substrates, gH2AX and p53BP1, were not elevated in BRCA1mut/ HMECs or HDEs indicating that there was no preferential induction from the p53 pathway in BRCA1 heterozygous cells leading to HIS (Fig. 4a,b; Fig. 5a, Supplementary Figs 5a and 6a,b). Moreover, the number of cells with phosphorylated ATM/ATR substrates (t-test P 0.003)D-Phenothrin medchemexpress NATURE COMMUNICATIONS | six:7505 | DOI: 10.1038/ncomms8505 | nature.com/naturecommunications2015 Macmillan Publishers Restricted. All rights reserved.NATURE COMMUNICATIONS | DOI: ten.1038/ncommsARTICLEbHMEC PDs p53 (Ser15) p53 (total)50a60 Approx. population doublings 50 40 30 20 ten 0 MHMEC n=3 AVG PD=44 two.58 WT BRCA1 n=3 AVG PD=31 3.43 AgM0AgM0MP=0.004 Mp21 p-actinPatient 1 WT0 18 40 52 59 76 94 11 5 12 9 14 five 16 two 18 five 20Patient 1 BRCADays in cultured60 50 Ki67+ cells 40 30 20P0.0001 WT Ag BRCA1 Me20 Trypan blue+ cells 15 10 5P=0.P=0.002 WT Ag BRCA1 McHMECWTPDPDfBRCA1 IL-6 expression levels50 40 30 20 10MMP-2 expression levelsWT Ag BRCA1 M4 3 two 1P=0.02 WT Ag BRCA1 MPDP0.PD100 -gal+ cells 80 60 40 20-gal+ cellsWT BRCA100 80 60WT BRCAgWT-hTERTBRCA1-hTERT206 7 eight 9 10 11 12 six 7 eight 9 10t(12;13)hMHMEC M+19 20 21 22 X YXYGenotype WT-1 WT-2 WT-3 BRCA1-1 BRCA1-2 BRCA1-Diploid 6/20 7/20 5/11 8/16 5/20 20/Tetraploidy Total abnormalities Telomere assoc 2/20 13/20 0/11 1/16 9/20 0/20 12/20 0/20 6/11 8/16 15/20 0/20 (60 ) (0 ) (55 ) (50 ) (75 ) (0 ) 1/20 1/20 0/11 0/16 0/20 0/5385insCWT: Mutant: WT: Mutant:187delAGPatientPatientFigure two | HMECs undergo premature senescence. (a) Representative development curves of WT (n 3) and BRCA1mut/ (n three) HMECs. (b) Western blot evaluation of p16INK4a, total p53, p53 (Ser15) and p21 levels in WT and BRCA1mut/ HMECs at indicated PDs. M0, stasis, Ag, agonescence (WT HMECs), M, premature development arrest (B.