X chromosome inactivation pattern in BRCA gene mutation carriers

An association of preferential X chromosome inactivation (XCI) with BRCA gene status and breast/ovarian cancer risk has been reported. We evaluated XCI in a large group of BRCA mutation carriers compared to non-carriers and investigated associations between preferential XCI (?90:10) and age, mutated gene, cancer development and chemotherapy. XCI was analysed by human androgen receptor (HUMARA) assay and pyrosequencing in 437 BRCA1 or BRCA2 mutation carriers and 445 age-matched controls. The distribution of XCI patterns in the two groups was compared by logistic regression analysis. The association between preferential XCI and selected variables was investigated in both univariate and multivariate fashion. In univariate analyses preferential XCI was not significantly associated with the probability of being a BRCA mutation carrier, nor with cancer status, whereas chemotherapeutic regime and age both showed a significant association. In multivariate analysis only age maintained significance (odds ratio, 1.056; 95% confidence interval, 1.016–1.096). Our findings do not support the usefulness of XCI analysis for the identification of BRCA mutation carriers and cancer risk assessment. The increasing preferential XCI frequency with ageing and the association with chemotherapy justify extending the investigation to other categories of female cancer patients to identify possible X-linked loci implicated in cell survival.     

Heterozygote <Emphasis Type="Italic">BRCA1</Emphasis> status and skewed chromosome X inactivation

A high frequency of skewed X-chromosome inactivation has been reported in peripheral blood lymphocytes from early onset breast cancer or invasive ovarian cancer patients. Recent findings have shown that breast and ovarian carcinoma cells from BRCA1 mutation carrier women lack the hallmarks of inactive X chromatin structure. These observations suggested that loss of functional BRCA1 in female cells may perturb the process of X inactivation and have lead us to the hypothesis that analysis of skewing could be used as a predictive test for BRCA1 germline mutation in lymphocytes from breast cancer patients. In the present study, we have compared the X inactivation pattern in lymphoblastoid cell lines from 38 females carrying heterozygous BRCA1 mutation to 41 controls. X inactivation analysis was assessed on the polymorphic CAG repeat within the human androgen receptor gene. Our observations rule out an effect of a monoallelic BRCA1 germline mutation on the choice of inactivated chromosome X and therefore the possibility of using analysis of Xi skewing as a predictive test for BRCA1 germline mutation carrier status.     

The disappearing Barr body in breast and ovarian cancers

Interest has recently reawakened in whether loss of the heterochromatic X chromosome (Barr body) is prevalent in certain breast and ovarian cancers, and new insights into the mechanisms involved have emerged. Mitotic segregation errors commonly explain the loss of the inactive X chromosome (Xi), but compromise of Xi heterochromatin in some cancers may signal broader deficits of nuclear heterochromatin. The debated link between BRCA1 and Xi might reflect a general relationship between BRCA1 and heterochromatin, which could connect BRCA1 to both epigenetic and genetic instability. We suggest that heterochromatic instability is a common but largely unexplored mechanism, leading to widespread genomic misregulation and the evolution of some cancers.     

Characterization of loss-of-inactive X in Klinefelter syndrome and female-derived cancer cells

The increased risk of several types of cancer in Klinefelter syndrome (47XXY) suggests that the extra X chromosome may be involved in the tumorigenesis associated with this syndrome. Here, we show that cancer cells (PSK-1) derived from a patient with Klinefelter syndrome (47XXY) showing loss of an inactive X chromosome subsequently gained active X chromosomes. We found that this abnormal X chromosome composition in PSK-1 is caused by a loss of an inactive X chromosome followed by multiplication of identical active X chromosomes, not by reactivation of an inactive X chromosome. Furthermore, we extended the characterization of loss-of-inactive X in a series of 22 female-derived cancer cell lines (eight breast cancer cell lines, seven ovarian cancer cell lines, and seven cervical cancer cell lines). The data demonstrate that loss-of-inactive X in the female-derived cancer cells is mainly achieved by loss of an inactive X chromosomes followed by multiplication of an identical active X chromosomes. However, distinctive pathways, including reactivation of an inactive X chromosome, are also involved in the mechanisms for loss-of-inactive X and gain-of-active X in female-derived cancer cells. The biological significance of the loss-of-inactive X and gain-of-active X in the oncogenesis of Klinefelter syndrome and female-derived cancer cells are discussed.     

The fragile histidine triad/common chromosome fragile site 3B locus and repair-deficient cancers

In various studies of sporadic breast cancers, 40-70% were strongly positive for fragile histidine triad (Fhit) protein expression, whereas only 18% of BRCA2 mutant breast cancers demonstrated strong Fhit expression, suggesting that the BRCA2 repair function may be necessary to retain intact fragile common chromosome fragile site 3B(FRA3B)/FHITloci. In the current study, 22 breast tumors with deleterious BRCA1 mutations were analyzed for Fhit expression by immunohistochemistry in a case-control matched pair analysis. Loss of Fhit expression was significantly more frequent in the BRCA1 cancers compared with sporadic breast tumors (9% Fhit positive versus 68% Fhit positive), suggesting that the BRCA1 pathway is also important in protecting the FRA3B/FHIT locus from damage. To investigate the relationship between repair gene deficiencies and induction of chromosome fragile sites in vitro, we have analyzed the frequency of aphidicolin induction of chromosome gaps and breaks in PMS2-, BRCA1-, MSH2-, MLH1-, FHIT-, and TP53-deficient cell lines. Each of the repair-deficient cell lines showed elevated expression of chromosome gaps and breaks, consistent with the proposal that proteins involved in mismatch and double-strand break repair are important in maintaining the integrity of common fragile regions. Correspondingly, genes at common fragile sites may sustain elevated levels of DNA damage in cells with deficient DNA repair proteins such as those mutated in several familial cancer syndromes.     

Loss of heterozygosity in sporadic breast tumours at the BRCA2 locus on chromosome 13q12-q13.

Loss of heterozygosity (LOH) on chromosome 13 occurs on 25-30% of breast tumours. This may reflect the inactivation of the retinoblastoma susceptibility gene RB1. However, recently another candidate tumour-suppressor gene has been identified on chromosome 13 by linkage analysis, the breast cancer susceptibility gene BRCA2. To investigate the involvement of BRCA2 in sporadic breast cancer 200 breast tumours were tested for LOH on chromosome band 13q12-q14, using 11 highly polymorphic microsatellite markers. LOH was found in 65 tumours, which all showed simultaneously loss of BRCA2 and RB1. Of 12 breast tumour cell lines tested with polymorphic microsatellite markers, seven showed a contiguous region of homozygosity on 13q12-q14, suggesting LOH in the tumour from which the cell line had been derived. One cell line showed homozygosity in the BRCA2 region and heterozygosity at RB1. This is the only indication that BRCA2 is a distinct target for LOH on chromosome 13 in addition to RB1.     

lncRNA XIST调控miR-486-5p影响食管癌细胞增殖的实验研究

目的:探讨lncRNA XIST在食管癌组织中的表达情况以及其对食管癌细胞增殖的影响。方法:实时定量PCR检测23对食管癌及癌旁组织中lncRNA XIST的表达水平。采用lncRNA XIST siRNA转染lncRNA XIST表达最高的两株食管癌细胞，实时定量PCR检测转染效率；CCK-8检测细胞增殖情况；双荧光素酶报告基因检测lncRNA XIST与miR-486-5p的结合情况；实时定量PCR进一步检测miR-486-5p的表达。结果:实时定量PCR结果显示与癌旁组织相比食管癌组织中lncRNA XIST的表达水平显著升高（P＜0.01）。此外，在三株食管癌细胞中lncRNA XIST在Eca-109和TE-1细胞中表达最高。在Eca-109和TE-1细胞中转染lncRNA XIST siRNA后lncRNA XIST的表达水平分别降低了（75.50±0.89）%和（64.74±13.42）%。下调lncRNA XIST显著抑制食管癌细胞的增殖。双荧光素酶报告基因检测结果显示wt-XIST和miR-486-5p mimic共转染的细胞荧光素酶活性显著降低（P＜0.01）。此外，下调lncRNA XIST后两株细胞中miR-486-5p的表达水平均显著升高（P＜0.01）。结论:lncRNA XIST与食管癌的恶性进展密切相关，lncRNA XIST有望成为食管癌治疗的新靶点。     

Inactivation of human SRBC, located within the 11p15.5-p15.4 tumor suppressor region, in breast and lung cancers.

A cDNA clone encoding human SRBC [serum deprivation response factor (sdr)-related gene product that binds to c-kinase] was isolated in a yeast two-hybrid screening, with amino acids 1-304 of BRCA1 as the probe. The human SRBC gene (hSRBC) was mapped to chromosome region 11p15.5-p15.4, close to marker D11S1323, at which frequent loss of heterozygosity (LOH) has been observed in sporadic breast, lung, ovarian, and other types of adult cancers as well as childhood tumors. hSRBC-coding region mutations including frame shift and truncation mutations were detected in a few ovarian and lung cancer cell lines. More significantly, the expression of hSRBC protein was down-regulated in a large fraction [30 (70%) of 43] of breast, lung, and ovarian cancer cell lines, whereas strong expression of hSRBC protein was detected in normal mammary and lung epithelial cells. The down-regulation of hSRBC expression in cancer cells was associated with hypermethylation of CpG dinucleotides in its promoter region, and 3 (60%) of 5 primary breast tumors and 11 (79%) of 14 primary lung tumors were also found to be hypermethylated. Treatment of breast cancer MCF7 cells with 5'azacytidine and Trichostatin A resulted in expression of hSRBC, confirming DNA methylation as the mode of inactivation. Our results suggest that epigenetic or mutational inactivation of hSRBC may contribute to the pathogenesis of several types of human cancers, marking hSRBC as a candidate tumor suppressor gene.     

Inhibition of breast and brain cancer cell growth by BCCIPalpha, an evolutionarily conserved nuclear protein that interacts with BRCA2

BRCA2 is a tumor suppressor gene involved in mammary tumorigenesis. Although important functions have been assigned to a few conserved domains of BRCA2, little is known about the longest internal conserved domain encoded by exons 14-24. We identified a novel protein, designated BCCIPalpha, that interacts with part of the internal conserved region of human BRCA2. Human BCCIP represents a family of proteins that are evolutionarily conserved, and contain three distinct domains: an N-terminus acidic domain (NAD) of 30-60 amino acids, an internal conserved domain (ICD) of 180-220 amino acids, and a C-terminus variable domain (CVD) of 30-60 amino acids. The N-terminal half of the human BCCIP ICD shares moderate homology with regions of calmodulin and M-calpain, suggesting that BCCIP may also bind Ca. Human cells express both a longer, BCCIPalpha, and a shorter, BCCIPbeta, form of the protein, which differ in their CVD. BCCIP is a nuclear protein highly expressed in testis. Although BCCIPbeta expression is relatively consistent in cancer cells, the expression of BCCIPalpha varies in cancer cell lines. The BCCIPalpha gene is located at chromosome 10q25.3-26.2, a region frequently altered in brain and other cancers. Furthermore, expression of BCCIPalpha inhibits breast and brain cancer cell growth, but fails to inhibit HT1080 cells and a non-transformed human skin fibroblast. These results suggest that BCCIPalpha is an important cofactor for BRCA2 in tumor suppression.