Overexpression of Cortactin Increases Invasion Potential in Oral Squamous Cell Carcinoma

Cortactin, an F-actin binding protein, stabilizes F-actin networks and promotes actin polymerization by activating the Arp2/3 complex. Overexpression of cortactin has been reported in several human cancers. Cortactin stimulates cell migration, invasion, and experimental metastasis. However, the underlying mechanism is not still understood. In the present study, we therefore evaluated the possibility that cortactin could be appropriate as a molecular target for cancer gene therapy. In 70 primary oral squamous cell carcinomas and 10 normal oral mucosal specimens, cortactin expression was evaluated by immunological analyses, and the correlations of the overexpression of cortactin with clinicopathologic factors were evaluated. Overexpression of cortactin was detected in 32 of 70 oral squamous cell carcinomas; significantly more frequently than in normal oral mucosa. Cortactin overexpression was more frequent in higher grade cancers according to T classification, N classifications, and invasive pattern. Moreover, RNAi-mediated decrease in cortactin expression reduced invasion. Downregulation of cortactin expression increased the expression levels of E-cadherin, β-catenin, and EpCAM. The siRNA of cortactin also reduced PTHrP expression via EGF signaling. These results consistently indicate that the overexpression of cortactin is strongly associated with an aggressive phenotype of oral squamous cell carcinoma. In conclusion, we propose that cortactin could be a potential molecular target of gene therapy by RNAi targeting in oral squamous cell carcinoma.     

Cortactin overexpression regulates actin-related protein 2/3 complex activity, motility, and invasion in carcinomas with chromosome 11q13 amplification

Carcinoma cell motility and invasion are prerequisites for tumor cell metastasis, which requires regulation of the actin cytoskeleton. Cortactin is an actin-related protein 2/3 (Arp2/3) complex-activating and filamentous (F)-actin-binding protein that is implicated in tumor cell motility and metastasis, partially by its ability to become tyrosine phosphorylated. Cortactin is encoded by the CTTN gene and maps to chromosome 11q13, a region amplified in many carcinomas, including head and neck squamous cell carcinoma (HNSCC). CTTN gene amplification is associated with lymph node metastasis and poor patient outcome, and cortactin overexpression enhances motility in tumor cells lacking 11q13 amplification. However, a direct link between increased motility and invasion has not been reported in tumor cells with chromosome 11q13 amplification and cortactin overexpression. In this study, we have examined the relationship between CTTN amplification and tumor cell motility in HNSCC. In 11 of 39 (28%) HNSCC cases, cortactin overexpression determined by immunohistochemistry correlates with lymph node metastasis and CTTN gene amplification. HNSCC cells containing cortactin gene amplification and protein overexpression display increased binding and activation of Arp2/3 complex, and were more motile and invasive than HNSCC cells lacking CTTN amplification. Down-regulation of cortactin expression in CTTN-amplified HNSCC cells by small interfering RNA impairs HNSCC motility and invasion. Treatment of HNSCC cells with the epidermal growth factor receptor inhibitor gefitinib inhibits HNSCC motility and down-regulates cortactin tyrosine phosphorylation. These data suggest that cortactin may be a valid prognostic and therapeutic marker for invasive and metastatic HNSCC and other carcinomas with 11q13 amplification.     

Prognostic significance of cortactin levels in head and neck squamous cell carcinoma: comparison with epidermal growth factor receptor status

Cortactin is an actin-binding Src substrate involved in cell motility and invasion. In this study, we sought to examine the prognostic importance of cortactin protein expression in head and neck squamous cell carcinoma (HNSCC). To do so, cortactin and EGF receptor (EGFR) expression was retrospectively evaluated by immunohistochemistry in a tissue microarray composed of 176 HNSCCs with a mean follow-up time of 5 years. Cortactin immunoreactivity was weak to absent in normal epithelial tissue. Overexpression of the protein in 77 out of 176 tumours (44%) was associated with more advanced tumour-node-metastasis stage and higher histologic grade. Cortactin overexpression was associated with significantly increased local recurrence rates (49 vs 28% for high and low expressing carcinomas, respectively), decreased disease-free survival (17 vs 61%), and decreased the 5-year overall survival of (21 vs 58%), independently of the EGFR status. In multivariate analysis, cortactin expression status remained an independent prognostic factor for local recurrence, disease-free survival, and overall survival. Importantly, we identified a subset of patients with cortactin-overexpressing tumours that displayed low EGFR levels and a survival rate that equalled that of patients with tumoral overexpression of both EGFR and cortactin. These findings identify cortactin as a relevant prognostic marker and may have implications for targeted therapies in patients with HNSCC.     

Cortactin overexpression results in sustained epidermal growth factor receptor signaling by preventing ligand-induced receptor degradation in human carcinoma cells

The chromosome 11q13 region is frequently amplified in human carcinomas and results in an increased expression of various genes including cortactin, and is also associated with an increased invasive potential. Cortactin acts as an important regulator of the actin cytoskeleton. It is therefore very tempting to speculate that cortactin is the crucial gene within the 11q13 amplicon that mediates the invasive potential of these carcinomas. Cortactin also participates in receptor-mediated endocytosis, and recent findings have shown that, during receptor internalization, cortactin overexpression inhibits the ubiquitylation-mediated degradation of the epidermal growth factor receptor, resulting in a sustained ligand-induced epidermal growth factor receptor activity.     

Cortactin overexpression inhibits ligand-induced down-regulation of the epidermal growth factor receptor

Ligand-induced receptor down-regulation by endocytosis is a critical process regulating the intensity and duration of receptor tyrosine kinase signaling. Ubiquitylation of specific receptor tyrosine kinases, for example, the epidermal growth factor receptor (EGFR) by the E3 ubiquitin ligase c-Cbl, provides a sorting signal for lysosomal degradation and leads to termination of receptor signaling. Cortactin, which couples the endocytic machinery to dynamic actin networks, is encoded by EMS1, a gene commonly amplified in breast and head and neck cancers. One mechanism whereby cortactin overexpression contributes to tumor progression is by enhancing tumor cell invasion and metastasis. However, in this study, we show that overexpression of cortactin in HeLa cells markedly inhibits ligand-induced down-regulation of the EGFR. This is independent of alterations in receptor autophosphorylation and correlates with impaired c-Cbl phosphorylation and association with the EGFR, reduced EGFR ubiquitylation, and sustained EGF-induced extracellular signal-regulated kinase activation. Furthermore, analysis of a panel of head and neck squamous cell carcinoma (HNSCC) cell lines revealed that cortactin overexpression is associated with attenuated ligand-induced EGFR down-regulation. Importantly, RNAi-mediated reduction of cortactin expression in an 11q13-amplified HNSCC cell line accelerates EGFR degradation. This represents the first demonstration of modulation of growth factor receptor signaling by cortactin. Moreover, enhanced EGFR signaling due to cortactin overexpression may provide an alternative explanation for EMS1 gene amplification in human cancers.     

Cortactin in tumor invasiveness

Cortactin is a cytoskeletal protein and src kinase substrate that is frequently overexpressed in cancer. Animal studies suggest that cortactin overexpression increases tumor aggressiveness, possibly through promotion of tumor invasion and metastasis. Recently, many studies have documented a role for cortactin in promoting cell motility and invasion, including a critical role in invadopodia, actin rich-subcellular protrusions associated with degradation of the extracellular matrix by cancer cells. Here, I review the evidence and potential mechanisms for cortactin as a critical mediator of tumor cell invasion.     

An EGFR-Src-Arg-cortactin pathway mediates functional maturation of invadopodia and breast cancer cell invasion

Invasive carcinoma cells use specialized actin polymerization-driven protrusions called invadopodia to degrade and possibly invade through the extracellular matrix (ECM) during metastasis. Phosphorylation of the invadopodium protein cortactin is a master switch that activates invadopodium maturation and function. Cortactin was originally identified as a hyperphosphorylated protein in v-Src-transformed cells, but the kinase or kinases that are directly responsible for cortactin phosphorylation in invadopodia remain unknown. In this study, we provide evidence that the Abl-related nonreceptor tyrosine kinase Arg mediates epidermal growth factor (EGF)-induced cortactin phosphorylation, triggering actin polymerization in invadopodia, ECM degradation, and matrix proteolysis-dependent tumor cell invasion. Both Src and Arg localize to invadopodia and are required for EGF-induced actin polymerization. Notably, Arg overexpression in Src knockdown cells can partially rescue actin polymerization in invadopodia while Src overexpression cannot compensate for loss of Arg, arguing that Src indirectly regulates invadopodium maturation through Arg activation. Our findings suggest a novel mechanism by which an EGFR-Src-Arg-cortactin pathway mediates functional maturation of invadopodia and breast cancer cell invasion. Furthermore, they identify Arg as a novel mediator of invadopodia function and a candidate therapeutic target to inhibit tumor invasion in vivo.     

Human Mena protein, a serex-defined antigen overexpressed in breast cancer eliciting both humoral and CD8+ T-cell immune response

Screening of a cDNA expression library from a primary breast tumor with the autologous patient serum led to the isolation of 6 cDNA clones corresponding to 3 different genes, including a novel gene that maps to chromosome 1 and encodes the human homologue of mouse Mena (hMena, cDNA clone RMNY-BR-55), a protein of the Ena/VASP family involved in the regulation of cell motility and adhesion. A cancer-restricted antibody response against hMena was demonstrated, since 18/93 cancer patient sera, the majority (10/52) from breast cancer, showed anti-hMena-specific IgG, while no antibodies were present in healthy donors. When hMena protein expression was analyzed by Western blot and immunohistochemistry, the antigen was overexpressed in the majority of breast cancer cell lines and in 75% of primary breast tumor lesions evaluated. Furthermore, when HLA-A2-restricted peptides from the hMena sequence were used to stimulate CD8+ T cells, an hMena-specific response was found in 9 out of 12 HLA-A2+ breast cancer patients. In 4 patients, this cell-mediated immune response was concomitant with antibody response to hMena. Furthermore, an hMena-specific T-cell line was established from an HLA-A2+ breast cancer patient whose primary tumor lesion overexpressed the hMena protein. The present findings highlight the emerging role that overexpression of cytoskeleton regulatory components may have in the induction of a specific antitumor immune response.     

Cortactin potentiates bone metastasis of breast cancer cells

Gene amplification of the chromosome 11q13 in breast cancer and squamous carcinomas in the head and neck results in frequent overexpression of cortactin, a prominent substrate of Src-related tyrosine kinases in the cell cortical areas. To investigate the role of cortactin in tumor progression, we analyzed MDA-MB-231 breast cancer cells overexpressing green fluorescent protein-tagged murine cortactin (GFP-cortactin) and a cortactin mutant deficient in tyrosine phosphorylation under the control of a retroviral vector. Injection of MDA-MB-231 cells overexpressing GFP-cortactin into nude mice through cardiac ventricles caused bone osteolysis at a frequency approximately 85% higher than that of cells expressing the vector alone, whereas injection of cells overexpressing the mutant deficient in tyrosine phosphorylation induced 74% fewer osteolytic metastases as compared with the control group. Interestingly, the cells expressing either GFP-cortactin or the mutant did not show significant differences in growth in vitro or when injected m.f.p. in vivo. On the other hand, the cells overexpressing GFP-cortactin but not the mutant acquired a >60% enhanced capability for transendothelial invasion and endothelial cell adhesion. These data suggest that cortactin contributes to tumor metastasis by enhancing the interaction of tumor cells with endothelial cells and the invasion of tumor cells into bone tissues.     

Identification by monoclonal antibody of the tumor antigen of a human autologous breast cancer cell that is involved in cytotoxicity by a cytotoxic T-cell clone

We have already established a pair of human autologous clones, tumor-specific cytotoxic T-lymphocyte clone TcHMC-1 and tumor target clone HMC-1-8, that were derived from the metastatic pleural effusion of a patient with mammary carcinoma. In this paper, we describe the target antigen that was defined by monoclonal antibody 3A2. This monoclonal antibody selectively inhibited the cytotoxic action of TcHMC-1 against HMC1-8 autologous tumor target cells, but not the cytotoxicity of lymphokine-activated killer and possibly natural killer cells against HMC-1-8 cells. Western blot analysis using the 3A2 monoclonal antibody identified a molecule with an approximate molecular weight of 92,000. This antigen was highly expressed on autologous primary cancer cells of breast carcinoma tissue, but not on the normal mammary gland in the same patient. Moreover, this antigen can be detected on approximately 50% of human allogeneic breast carcinomas, but not on other neoplastic tissues such as gastric and colonic carcinomas except for one out of 10 prostatic carcinomas. Nonneoplastic normal cells did not express this antigen. It was also suggested that the antigen is not murine mammary tumor virus-related products. These data suggest that 3A2-defined antigen could participate in the cytotoxicity by human autologous cytotoxic T-lymphocytes as the target molecule expressed on tumor cells.     

Generation and immunohistological characterization of human monoclonal antibodies to mammary carcinoma cells

The purpose of this study was to identify human antibodies generated against autologous breast tumor cells by the host's immune response. Accordingly, lymphocytes from lymph nodes of seven different patients with metastatic breast carcinomas were immortalized by fusing them with a nonsecreting variant of murine myeloma cells. The screening for binding of antibodies to tumor cells was performed by indirect immunoperoxidase staining of paraffin-embedded tissue sections of the autologous tumor. The selected hybrid cells, after being cloned three times, were stable for the secretion of immunoglobulins for over 2 years. A total of 81 human immunoglobulin-producing clones was obtained from an initial 595 wells with hybrid growth. Nine of these clones produced immunoglobulin M, none of which showed detectable binding to tissue antigens in breast. Seventy-two clones produced immunoglobulin G monoclonal antibodies, and 15 of these showed preferential binding to breast carcinoma cells. Three of these immunoglobulin G monoclonal antibodies were subjected to detailed immunohistological evaluations. Using these antibodies at concentrations ranging from 10 to 100 ng/tissue section, the morphologically normal mammary epithelial cells could be discriminated from their malignant counterparts. The antibodies showed diffuse staining of cytoplasmic components in the malignant counterparts. Under these conditions, lymphocytes, erythrocytes, and stromal cells in breast tissues were unstained. The antibodies showed variable reactivity with malignant epithelial cells of colon and stomach, and with normal epithelial cells lining the renal tubules and sebaceous glands in skin. Antigenic heterogeneity of malignant mammary epithelial cells was revealed. The antibodies may have value in the characterization of tumor-associated antigens responsible for inducing autologous immune responses.     

Cortactin is an essential regulator of matrix metalloproteinase secretion and extracellular matrix degradation in invadopodia

Invadopodia are branched actin-rich structures associated with extracellular matrix (ECM) degradation that collectively form the invasive machinery of aggressive cancer cells. Cortactin is a prominent component and a specific marker of invadopodia. Amplification of cortactin is associated with poor prognosis in head and neck squamous cell carcinomas (HNSCC), possibly because of its activity in invadopodia. Although the role of cortactin in invadopodia has been attributed to signaling and actin assembly, it is incompletely understood. We made HNSCC cells deficient in cortactin by RNA interference knockdown methods. In these cortactin knockdown cells, invadopodia were reduced in number and lost their ability to degrade ECM. In the reverse experiment, overexpression of cortactin dramatically increased ECM degradation, far above and beyond the effect on formation of actin/Arp3-positive invadopodia puncta. Secretion of matrix metalloproteinases (MMP) MMP-2 and MMP-9, as well as plasma membrane delivery of MT1-MMP correlated closely with cortactin expression levels. MMP inhibitor treatment of control cells mimicked the cortactin knockdown phenotype, with abolished ECM degradation and fewer invadopodia, suggesting a positive feedback loop in which degradation products from MMP activity promote new invadopodia formation. Collectively, these data suggest that a major role of cortactin in invadopodia is to regulate the secretion of MMPs and point to a novel mechanism coupling dynamic actin assembly to the secretory machinery, producing enhanced ECM degradation and invasiveness. Furthermore, these data provide a possible explanation for the observed association between cortactin overexpression and enhanced invasiveness and poor prognosis in HNSCC patients.     

Association of autotaxin and lysophosphatidic acid receptor 3 with aggressiveness of human breast carcinoma

In vitro and in vivo experimental studies have demonstrated the role of lysophosphatidic acid (LPA) signaling in tumor proliferation, invasiveness, and metastasis. Among LPA receptors, the overexpression of LPA receptor 3 (LPAR3) in transgenic mice has resulted in the highest rate of breast cancer metastasis. Our goal is to evaluate the LPA-producing enzyme autotaxin and LPAR3 as potential therapeutic targets in breast cancer patients. The expression of autotaxin and LPAR3 was examined by immunohistochemical analysis of 87 invasive human breast carcinomas. Carcinomas were more frequently positive for autotaxin and LPAR3 (24.4 and 43?%, respectively) compared to adjacent normal breast tissue (6.1 and 2.9?%, respectively). Increased stromal autotaxin expression was found in 16.3?% of the tumors. LPAR3 overexpression was associated with less differentiated tumors, human epidermal growth factor receptor 2 expression, and absence of progesterone receptors. The luminal type A carcinomas showed the lowest frequency of autotaxin and LPAR3 expression. Strong desmoplastic stromal reaction was more frequent among the carcinomas with autotaxin-positive tumor cells or autotaxin-positive stroma. Patients with carcinomas overexpressing LPAR3 in epithelial cells or autotaxin in stromal cells were more likely to have larger tumors, nodal involvement, and higher stage disease. Autotaxin overexpression in tumor cells also correlated with tumor size and clinical stage. Our data indicate that the increased expression of LPAR3 and autotaxin in human breast cancer is associated with tumor aggressiveness. They also suggest that LPA mediates tumor metastatic ability and peritumoral desmoplastic reaction through autocrine?Cparacrine mechanisms. A substantial portion of breast cancer patients might benefit from autotoxin/LPA receptor-targeted therapies.     

T-DM1 in breast cancer therapeutics: the first drug of its generation

Breast cancer accounts for about 20 % of female carcinomas. Expression of EGFR protein family receptors in breast carcinomas is quite common. ERBB-2 overexpression at protein level or gene amplification is present in approximately in one third of breast carcinomas and is associated with dismal prognosis. Pharmaceutical agents against ERBB-2 are currently used in breast cancer patients. The need for additional therapeutic strategies led to the development of a new class of agents called antibody-drug conjugates that were first evaluated in hematological malignancies. Trastuzumab emtansine (T-DM1) is the first immuno-conjugate that was tested and approved for the treatment of a solid tumor. In the present review, we will briefly update the rationale and clinical data of this agent and consider its perspectives in the treatment algorithm of breast cancer patients.     

Evaluation of lymphocyte immunity in breast cancer patients

Summary One hundred forty-two breast cancer patients were evaluated for three functional immunologic parameters: the ability of their lymphocytes to proliferate in response to general T-(phytohemagglutinin) and B-lymphocyte (pokeweed mitogen) stimulators and their ability to proliferate in response to specific autologous tumor antigens. Tests were performed on patient blood specimens collected approximately 2 hours prior to surgery or 2–4 weeks following chemotherapy. T-lymphocyte functional competence was impaired in 83/142 (58%) of the patients, while B-lymphocyte competence was impaired in 34/142 (24%) of these patients. A total of 21/52 (40%) of the patients had lymphocyte immunity against autologous tumor antigen. There were weak associations between the ability of patients' T- and B-lymphocytes to function normally, and their ability to respond to autologous tumor-antigen. There was no relationship of age, tumor burden (clinical or pathological tumor size), extension to skin and/or muscle, or metastasis to any of the three immunological parameters. A relationship (p = 0.0463) between T-lymphocyte competence and pathological nodal status was observed; individuals that were node positive for disease, tended to have impaired T-lymphocyte function. When evaluating T- and B-lymphocyte competence and lymphocytic immunity against tumor antigen in pre- and post-chemotherapy patients, an immunologic rebound (increase in immune parameters shortly after completion of chemotherapy) was observed in some patients. These results demonstrate the utility of measuring these immune parameters in breast cancer patients, their relevance to the natural biology of the disease, and the influence that chemotherapy may have on host immune function.     

Deacetylation of cortactin by SIRT1 promotes cell migration

Cortactin binds F-actin and promotes cell migration. We showed earlier that cortactin is acetylated. Here, we identify SIRT1 (a class III histone deacetylase) as a cortactin deacetylase and p300 as a cortactin acetylase. We show that SIRT1 deacetylates cortactin in vivo and in vitro and that the SIRT1 inhibitor EX-527 increases amounts of acetylated cortactin in ovarian cancer cells. We also show that p300 acetylates cortactin in vivo and that cells lacking or depleted of p300 express less-acetylated cortactin than do control cells. Deletion analysis mapped the SIRT1-binding domain of cortactin to its repeat region, which also binds F-actin. Mouse embryo fibroblasts (MEFs) lacking sir2alpha (the mouse homolog of SIRT1) migrated more slowly than did wild-type cells. The expression of SIRT1 in sir2alpha-null cells restored migratory capacity, as did expression of a deacetylation-mimetic mutant of cortactin. SIRT1 and cortactin were more abundant in breast tumor tissue than in their normal counterparts, whereas SIRT1 expression inversely correlates with the ratio of acetylation cortactin versus total cortactin. These data suggest that deacetylation of cortactin is associated with high levels of SIRT1 and tumorigenesis. Finally, breast and ovarian cancer cell lines expressing an acetylation mimetic mutant of cortactin are less motile than that of control cells, whereas cells expressing the deacetylation mimetic mutant of cortactin migrate faster than that of control cells in Transwell migration assays. In summary, our results suggest that cortactin is a novel substrate for SIRT1 and p300 and, for the first time, a possible role for SIRT1 in cell motility through deacetylation of cortactin.     

甲状腺乳头状癌中cortactin、N-WASP的表达及其与临床病理学特征的关系

背景与目的：甲状腺乳头状癌是最常见的甲状腺癌病理类型。分析侵袭性伪足关键蛋白cortactin、N-WASP在甲状腺乳头状癌组织中的表达水平及其与临床病理学特征的关系。方法：选取2015年1月—2017年12月复旦大学附属肿瘤医院病理科保存的甲状腺乳头状癌组织标本及对应癌旁组织89对，采用免疫组织化学方法，检测癌组织与癌旁组织中cortactin、N-WASP蛋白的表达情况并分析其与临床病理学特征之间的关系。结果：癌组织中cortactin和N-WASP的阳性表达率分别为57.30%和59.55%，高于癌旁组织的5.62%和7.87%，差异有统计学意义（P<0.05）。Cortactin的表达与甲状腺乳头状癌患者的年龄、性别、肿瘤大小无显著相关性（P＞0.05），但与有无淋巴结转移有关，N-WASP与肿瘤大小、有无淋巴结转移有关（P<0.05）。在有淋巴结转移的病例中，cortactin、N-WASP的阳性表达率均较高（P＜0.05）。结论：甲状腺乳头状癌组织中与侵袭性伪足形成相关的cortactin、N-WASP呈高表达，且与甲状腺乳头状癌的发病和淋巴结转移相关。Cortactin与N-WASP的表达水平呈正相关。     

Relationship between immunological parameters and survival of patients with liver metastases from breast cancer given immuno-chemotherapy

Summary We treated 33 patients with liver metastases from breast cancer by immuno-chemotherapy including adoptive cell transfer between 1987 and 1992. In this study, we examined the change of immunological parameters in the peripheral blood lymphocytes and interleukin-2 (IL-2)-cultured lymphocytes, in primary vs. metastatic breast cancer patients and before vs. after treatment. Moreover, we examined their correlation with therapeutic response and survival after treatment. The immunological parameters used werein vitro natural killer cell activity (% lysis of K562),in vitro autologous tumor-killing activity (% lysis against autologous freshly isolated tumor cells), and proliferation of lymphocytes stimulated with IL-2 and autologous sonicated tumor extract antigen in mixed culture (IL-2-enhanced MLTR). When compared with primary breast cancer patients, patients with liver metastases showed a significant decrease in % lysis of K562 and autologous tumor cells. After treatment, the stimulation index in IL-2-enhanced MLTR increased significantly from the pretreatment level and correlated with survival after treatment. Moreover, non-specific immunological parameters (performance status, lymphocyte count, and transferred cell count and proliferation rate of cultured lymphocytes) were significantly associated with response and prognosis.     

High level of messenger RNA for BRMS1 in primary breast carcinomas is associated with poor prognosis

BRMS1 is regarded as a metastasis suppressor gene for its ability to reduce metastatic potential of human and murine breast cancer cells as well as human melanoma cells. However, BRMS1 association to human tumor progression is not clearly understood. In the present study we analyzed BRMS1 mRNA expression in tumor progression and its potential prognostic value for breast carcinoma. BRMS1 mRNA expression level was quantified by real-time PCR in 47 tumoral, in 14 peritumoral and in 15 metastatic microdissected cellular populations from 47 breast cancer patients with 10-year follow up. We found BRMS1 expression to be higher in carcinoma cells than in matching normal epithelial cell populations in 10 out of 14 cases (p = 0.0005), while lymph-nodal carcinoma cells showed lower BRMS1 expression in 9 out of 15 cases (p = 0.001). Using both in vivo (human mammary breast carcinomas) and in vitro systems (breast cancer cell lines) we were able to demonstrate that BRMS1 overexpression was not a bias effect induced by cell proliferation rate. BRMS1 expression levels did not correlate with standard breast cancer prognostic factors but BRMS1 higher expression was associated with patient shorter disease-free and overall survival. Our findings are apparently inconsistent with the concept of BRMS1 as a metastasis suppressor gene. One possible explanation is that epithelial cells increase their BRMS1 expression as a compensatory response to tumor formation or metastasis progression, which is elevated in proportion to tumor aggressiveness, whereas those cells of the primary tumor that cannot upregulate BRMS1 escape to form metastasis.     

Aggressiveness of HNSCC tumors depends on expression levels of cortactin, a gene in the 11q13 amplicon

11q13 amplification is a late-stage event in several cancers that is often associated with poor prognosis. Among 11q13-amplified genes, the actin assembly protein cortactin/CTTN is considered a likely candidate for direct involvement in tumor progression because of its cell motility-enhancing functions. We modulated cortactin expression in head and neck squamous cell carcinoma (HNSCC) cell lines. Cortactin expression levels directly correlated with tumor size, vascularization and cell proliferation in an orthotopic HNSCC in vivo model. In contrast, under normal in vitro culture conditions, cortactin expression levels had no effect on cell proliferation. However, cell lines in which cortactin expression was reduced by knockdown (KD) grew poorly in vitro under harsh conditions of growth factor deprivation, anchorage independence and space constraint. In contrast, overexpression of cortactin enhanced in vitro growth under the same harsh conditions. Surprisingly, defects in growth factor-independent proliferation of cortactin-KD cells were rescued by coculture with cortactin-expressing cells. As the cocultured cells are separated by permeable filters, cortactin-expressing cells must secrete growth-supporting autocrine factors to rescue the cortactin-KD cells. Overall, cortactin expression modulates multiple cellular traits that may allow survival in a tumor environment, suggesting that the frequent overexpression of cortactin in tumors is not an epiphenomenon but rather promotes tumor aggressiveness.