Humans and animals undergo ageing, and although their primary cells undergo cellular senescence in culture, the relationship between these two processes is unclear. Here we show that γ-H2AX foci ...(γ-foci), which reveal DNA double-strand breaks (DSBs), accumulate in senescing human cell cultures and in ageing mice. They colocalize with DSB repair factors, but not significantly with telomeres. These cryptogenic γ-foci remain after repair of radiation-induced γ-foci, suggesting that they may represent DNA lesions with unrepairable DSBs. Thus, we conclude that accumulation of unrepairable DSBs may have a causal role in mammalian ageing.
A hallmark in the pathogenesis of cancer is the increased expression of heat shock proteins (Hsps) and other molecular chaperones observed in many tumor types, which is considered to be an adaptive ...response to enhance tumor cell survival. Heat shock transcription factor 1 (Hsf1) is a major transactivator of Hsp induction and has been proposed to affect tumor initiation and progression, regulating expression of Hsps and other molecular targets. In this report, we provide direct in vivo evidence that Hsf1 plays a critical role in the evolution of spontaneous tumors arising in p53(-/-) mice. Thus, loss of Hsf1 function did not prolong tumor-free survival, but surprisingly altered the spectrum of tumors that arose in p53(-/-) mice. Tumor development is rapid in p53(-/-) mice, which predominantly (about 70%) succumb to lymphomas. In contrast, hsf1(-/-)p53(-/-) mice rarely develop lymphomas (<8%), but succumb to other tumor types including testicular carcinomas and soft tissue sarcomas. Our findings suggest that an increase in p53-independent apoptotic cell death in association with altered cytokine signaling and suppressed production of inflammatory factors in hsf1(-/-) mice may contribute to selective lymphoma suppression. In conclusion, the data presented here link the loss of Hsf1-dependent function to decreased susceptibility to spontaneous lymphomagenesis, which may have implications for cancer prevention and therapy.
E-cadherin is a cell-cell adhesion molecule that acts as a suppressor of cancer cell invasion and its expression is downregulated in many advanced, poorly differentiated, human cancers. In this ...study, we found that the expression of DLC1 (deleted in liver cancer 1) tumor-suppressor gene in metastatic prostate carcinoma (PCA) cells increased the expression of E-cadherin and resulted in an elevated rate of cell-cell aggregation as measured by aggregation assay. DLC1-mediated increase in E-cadherin expression was not dependent on α-catenin, a DLC1-binding protein associated with E-cadherin, and/or cellular density. The increase of E-cadherin expression occurred at mRNA level and relied on DLC1 RhoGAP function, leading to suppression of high level of RhoA-GTP and RhoC-GTP activity in metastatic PCA cells. Application of Rho/ROCK inhibitors produced the same effect as introduction of DLC1. Knocking down of RhoA produced a moderate increase in E-cadherin whereas knocking down of RhoC resulted in a significant increase of E-cadherin. Downregulation of E-cadherin caused by constitutively active RhoA(V14) and RhoC(V14) could not be reversed by expression of DLC1 in DLC1-negative cell line. DLC1-mediated suppression of metastatic PCA cells invasion was comparable with the one associated with ectopic E-cadherin expression, or caused by suppression of Rho pathway either by Rho/ROCK inhibitors, or by shRNA repression. This study demonstrates that DLC1 expression positively regulates E-cadherin and suppresses highly metastatic PCA cell invasion by modulating Rho pathway, which appears as a feasible therapeutic target in cancers with high activity of RhoGTPases.
While investigating the novel anticancer drug ecteinascidin 743 (Et743), a natural marine product isolated from the Caribbean sea squirt, we discovered a new cell-killing mechanism mediated by DNA ...nucleotide excision repair (NER). A cancer cell line selected for resistance to Et743 had chromosome alterations in a region that included the gene implicated in the hereditary disease xeroderma pigmentosum (XPG, also known as Ercc5). Complementation with wild-type XPG restored the drug sensitivity. Xeroderma pigmentosum cells deficient in the NER genes XPG, XPA, XPD or XPF were resistant to Et743, and sensitivity was restored by complementation with wild-type genes. Moreover, studies of cells deficient in XPC or in the genes implicated in Cockayne syndrome (CSA and CSB) indicated that the drug sensitivity is specifically dependent on the transcription-coupled pathway of NER. We found that Et743 interacts with the transcription-coupled NER machinery to induce lethal DNA strand breaks.
A number of genetic mutations have been identified in human breast cancers, yet the specific combinations of mutations required in concert to form breast carcinoma cells remain unknown. One approach ...to identifying the genetic and biochemical alterations required for this process involves the transformation of primary human mammary epithelial cells (HMECs) to carcinoma cells through the introduction of specific genes. Here we show that introduction of three genes encoding the SV40 large-T antigen, the telomerase catalytic subunit, and an H-Ras oncoprotein into primary HMECs results in cells that form tumors when transplanted subcutaneously or into the mammary glands of immunocompromised mice. The tumorigenicity of these transformed cells was dependent on the level of ras oncogene expression. Interestingly, transformation of HMECs but not two other human cell types was associated with amplifications of the c-myc oncogene, which occurred during the in vitro growth of the cells. Tumors derived from the transformed HMECs were poorly differentiated carcinomas that infiltrated through adjacent tissue. When these cells were injected subcutaneously, tumors formed in only half of the injections and with an average latency of 7.5 weeks. Mixing the epithelial tumor cells with Matrigel or primary human mammary fibroblasts substantially increased the efficiency of tumor formation and decreased the latency of tumor formation, demonstrating a significant influence of the stromal microenvironment on tumorigenicity. Thus, these observations establish an experimental system for elucidating both the genetic and cell biological requirements for the development of breast cancer.
DLC1 (deleted in liver cancer 1), a tumor suppressor gene that encodes a RhoGTPase-activating protein, is recurrently downregulated or silenced in various solid tumors and hematological malignancies ...because of epigenetic modifications or genomic deletion. Here, we identified DLC1 promoter hypermethylation in 43 out of 44 multiple myeloma (MM) cell lines, which resulted in downregulation or silencing of DLC1 in 41 samples. High frequency of tumor-specific methylation and attenuation or silencing of DLC1 expression could serve as an independent diagnostic marker for MM. Combined treatment with demethylating and acetylating agents significantly elevated the expression of DLC1 and suppressed MM cell proliferation. Two cell lines exhibiting complete promoter methylation and the absence of DLC1 expression were transduced by an adenoviral vector containing DLC1 cDNA. In both cell lines, the reexpression of DLC1 inhibited myeloma cell invasion and migration, reduced RhoA activity and resulted in the reorganization of actin cytoskeleton. These results provide the first evidence for the antiproliferative effect of DLC1 in a hematological cancer and implicate RhoA pathway in suppression of MM migration and invasion. Given the myeloma cells sensitivity to the reactivation of DLC1 function, the potential for molecular targeted therapy of DLC1-mediated pathways as well as epigenetic therapies hold prospects.
Human Mitochondrial Topoisomerase I Zhang, Hongliang; Barceló, Juana M.; Lee, Benson ...
Proceedings of the National Academy of Sciences - PNAS,
09/2001, Letnik:
98, Številka:
19
Journal Article
Recenzirano
Odprti dostop
Tension generated in the circular mitochondrial genome during replication and transcription points to the need for mtDNA topoisomerase activity. Here we report a 601-aa polypeptide highly homologous ...to nuclear topoisomerase I. The N-terminal domain of this novel topoisomerase contains a mitochondrial localization sequence and lacks a nuclear localization signal. Therefore, we refer to this polypeptide as top1mt. The pattern of top1mt expression matches the requirement for high mitochondrial activity in specific tissues. top1mt is a type IB topoisomerase that requires divalent metal (Ca2+or Mg2+) and alkaline pH for optimum activity. The TOP1mt gene is highly homologous to the nuclear TOP1 gene and consists of 14 exons. It is localized on human chromosome 8q24.3.
Abstract We previously identified KEPI as a morphine-regulated gene using subtractive hybridization and differential display PCR. Upon phosphorylation by protein kinase C, KEPI becomes a powerful ...inhibitor of protein phosphatase 1. To gain insights into KEPI functions, we created KEPI knockout (KO) mice on mixed 129S6×C57BL/6 genetic backgrounds. KEPI maps onto mouse chromosome 10 close to the locus that contains the μ-opioid receptor (Oprm1) and provides a major quantitative trait locus for morphine effects. Analysis of single nucleotide polymorphisms in and near the Oprm1 locus identified a doubly-recombinant mouse with C57BL/6 markers within 1 Mb on either side of the KEPI deletion. This strategy minimized the amount of 129S6 DNA surrounding the transgene and documented the C57BL/6 origin of the Oprm1 gene in this founder and its offspring. Recombinant KEPIKO mice displayed (a) normal analgesic responses and normal locomotion after initial morphine treatments, (b) accelerated development of tolerance to analgesic effects of morphine, (c) elevated activity of protein phosphatase 1 in thalamus, (d) attenuated morphine reward as assessed by conditioned place preference. These data support roles for KEPI action in adaptive responses to repeated administration of morphine that include analgesic tolerance and drug reward.
The WWOX (WW-domain containing oxidoreductase) is a candidate tumour suppressor gene spanning the same chromosome region, 16q23, as the second most common fragile site (FS), FRA16D. Deletions ...detected by comparative genomic hybridisation (CGH) and loss of heterozygosity at microsatellite markers on chromosome 16q are common in many human cancers including hepatocellular carcinoma (HCC). The development of human HCC is closely associated with exposure to oncogenic viruses and chemical carcinogens, agents known to frequently target common FS. We examined the status of WWOX genomic DNA, RNA and protein in 18 cell lines derived from human HCC and found recurrent alterations of the gene. Loss of DNA copy-number confined to band 16q23 was detected by CGH in several cell lines. Although homozygous deletions of the WWOX gene were not detected, WWOX mRNA expression was absent or lower in 60% of cell lines. The occurrence of aberrant WWOX reverse transcription-PCR products with deletion of exons 6-8 correlated significantly with altered WWOX expression. All of the cell lines showing mRNA downregulation had a decreased or undetectable level of WWOX protein as demonstrated by Western blotting with antibody to WWOX. Furthermore, 13 out of the 18 cell lines expressed decreased levels or no WWOX protein when compared with normal liver. These results show that WWOX gene is frequently altered in HCC and raise the possibility that this gene is implicated in hepatocarcinogenesis.
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