Role of the tripartite motif protein 27 in cancer development.

BACKGROUND: The tripartite motif family protein 27 (TRIM27) is a transcriptional repressor that interacts with, and attenuates senescence induction by, the retinoblastoma-associated protein (RB1). High expression of TRIM27 was noted in several human cancer types including breast and endometrial cancer, where elevated TRIM27 expression predicts poor prognosis. Here, we investigated the role of TRIM27 expression in cancer development. METHODS: We assessed TRIM27 expression in human cancer using cancer profiling arrays containing paired tumor and normal cRNA (n = 261) as well as in murine skin cancer induced by 7, 12-dimethylbenzanthracene (DMBA)/12-O-tetradecanoylphorbol-13-acetate (TPA). We generated mice with disrupted expression of murine TRIM27 (Trim27(-/-)) and assessed their susceptibility to DMBA/TPA-induced skin tumor development compared with isogenic littermates (n = 26 mice per group). We assessed the effect of Trim27 loss on senescence propensity in mouse embryonic fibroblasts (MEFs) by quantifying cell proliferation alongside senescence markers (senescence-associated ß-galactosidase [SA-ß-gal] activity and hypertrophic cell morphology). The contribution of RB1 on senescence and cancer susceptibility (n > 20 mice per group) in Trim27(-/-) backgrounds was also assessed. Data were analyzed using the Student's t, χ(2), or log-rank test as indicated. All statistical tests were two-sided. RESULTS: TRIM27 transcript levels are statistically significantly increased in common human cancers, including colon and lung, vs normal tissues (TRIM27 expression relative to ubiquitin: cancers vs normal tissues, mean = 0.59, 95% confidence interval [CI] = 0.55 to 0.63 vs mean = 0.46, 95% CI =0.43 to 0.49, P < .001) as well as in chemically induced mouse skin cancer compared with matched normal tissue (Trim27 expression relative to Gapdh control: tumor vs normal skin, mean = 4.2, 95% CI = 3.97 to 4.43 vs mean = 0.96, 95% CI = 0.69 to 1.2, P < .001). Trim27(-/-) mice (n = 14) were resistant to chemically induced skin cancer development (eight [57.2%] of 14 mice were tumor free) compared with Trim27(+/+) wild-type littermates (n = 13) (one [7.7%] of 13 mice was tumor free). Trim27(-/-) MEFs show enhanced senescence propensity in response to replicative (percentage of SA-ß-gal-positive cells: Trim27(+/+) MEFs vs Trim27(-/-) MEFs, mean = 14.2%, 95% CI = 11.1% to 17.4% vs mean = 53.3%, 95% CI = 48.7% to 57.9%, P < .001) or oncogenic stress (percentage of SA-ß-gal-positive cells: Trim27(+/+) MEFs + Ras vs Trim27(-/-) MEFs + Ras, mean = 24.0%, 95% CI = 19.9% to 28.1% vs mean = 37.3%, 95% CI = 32.2% to 42.4%, P < .05) compared with Trim27(+/+) MEFs. These responses were alleviated following inactivation of murine RB1 (Rb1). Furthermore, Trim27(-/-) mice are not protected from cancers arising as a consequence of Rb1 deletion (median survival: Trim27(-/-)Rb(+/-) vs Trim27(+/+)Rb(+/-), 14 vs 13 months; difference = 1.0 month, 95% CI = 0.5 to 1.6 months, P = .14). CONCLUSION: TRIM27 expression is a modifier of disease incidence and progression relevant to the development of common human cancers and is a potential target for intervention in cancer.

Differential expression of MHC class II molecules in highly metastatic breast cancer cells is mediated by the regulation of the CIITA transcription Implication of CIITA in tumor and metastasis development.

We analyzed the differential gene expression between variants of MDA-MB-435 human breast cancer cell line that share an identical genetic background but have different metastatic ability. The major histocompatibility complex class II was found down-regulated in highly metastatic cells and correlated with MHC transactivator (CIITA) expression. Constitutive CIITA expression observed in poorly metastatic is driven by promoters III and IV of CIITA gene. Conversely, both promoters were ineffective in highly metastatic cells. The MHC class II and CIITA expression was restored in these cells upon stimulation with IFNgamma or by the treatment with a hypomethylating agent. Both treatments induced USF-1 and IRF binding complexes to promoter IV but only IFNgamma induced the binding of 435-Lung2 nuclear proteins to an ARE-1 site at the promoter III. Neither Southern blot nor bisulfite sequencing of promoter IV demonstrated strong hypermethylation of this promoter at the IFNgamma-responsive elements such as GAS, E-box or IRF-1. We suggest that partial or hemimethylation of promoter IV is sufficient to silence the CIITA expression in highly metastatic cells and that this epigenetic mechanism is responsible for the lack of MHC-II expression. Forced CIITA expression restored the MHC-II antigen expression in 435-Lung2 cells and abrogates spontaneous lung metastasis in both SCID and nude mice but also affected the tumorigenicity in nude mice. The increase in NK cell infiltration in nude mice bearing CIITA-tumors correlated with sign of tumor cell apoptosis and the increase in the number of NK cells in the spleens, suggesting that NK cells might be responsible for the observed antitumor activity.

Crystal structure of the retinoblastoma tumor suppressor protein bound to E2F and the molecular basis of its regulation.

The retinoblastoma tumor suppressor protein (pRb) regulates the cell cycle, facilitates differentiation, and restrains apoptosis. Furthermore, dysfunctional pRb is thought to be involved in the development of most human malignancies. Many of the functions of pRb are mediated by its regulation of the E2F transcription factors. To understand the structural basis for this regulation, we have determined the crystal structure of a fragment of E2F in complex with the pocket domain of the tumor suppressor protein. The pRb pocket, comprising the A and B cyclin-like domains, is the major focus of tumourigenic mutations in the protein. The fragment of E2F used in our structural studies, residues 409-426 of E2F-1, represents the core of the pRb-binding region of the transcription factor. The structure shows that E2F binds at the interface of the A and B domains of the pocket making extensive interactions with conserved residues from both. We show by solution studies that a second site, probably contained within the "marked box" region of E2F, is responsible for additional interactions with the pRb pocket but is insufficient for complex formation on its own. In addition, we show that the interaction of the core binding fragment of E2F with pRb is inhibited by phosphorylation of the tumor suppressor protein by CDK2cyclin DE. Finally, our data reveal that the tight binding of the human papillomavirus E7 oncoprotein to pRb prevents subsequent interactions with the marked box region of E2F but not with its core binding region.

RB activation defect in tumor cell lines.

Activation of the retinoblastoma (RB) protein through dephosphorylation arises in cells upon exit from M phase and in response to environmental stresses, including DNA damage. We provide here for the first time evidence that these responses are co-ordinately affected in a subset of tumor derived cell lines. We find that RB dephosphorylation is not apparent in these cells during progression into G(1). Importantly these cells also do not respond with RB activation after DNA damage during S phase. Moreover and as a consequence they display phenotypes classically associated with RB(-) cells, showing accelerated apoptosis after DNA damage and DNA re-replication after spindle-checkpoint activation. A large body of literature provides evidence that controls governing inactivation of RB are lost in tumors. The results presented here indicate that the reverse reaction, namely the activation of RB from an inactive precursor, may also be compromised. Our findings indicate that this type of defect may be coupled with hypersensitivity to DNA damage and an increase in genomic instability in response to spindle-checkpoint activation thus bearing potentially important medical implications.