B. van de Water

β1 Integrin Inhibition Elicits a Prometastatic Switch Through the TGFβ–miR-200–ZEB Network in E-Cadherin–Positive Triple-Negative Breast Cancer

Although some breast cancer therapies reduce the primary tumor, they may trigger unwanted metastasis. When Treatment Promotes Metastasis In cancer, therapy aims to kill the primary tumor and prevent metastasis. Truong et al. found that although strategies blocking β1 integrin are effective at treating primary breast tumors, they may cause metastatic disease in certain patients. In E-cadherin–positive triple-negative breast cancer (TNBC) cell lines, blocking β1 integrin function by gene silencing or with antibodies induced epithelial-to-mesenchymal transition (EMT)–associated signaling and the loss of E-cadherin, enabling TNBC cells to migrate individually and invade a three-dimensional collagen matrix in culture. When injected into zebrafish, the β1 integrin–deficient cells disseminated further than the parent TNBC cells. When implanted in mice, these cells formed more lung metastases, despite producing smaller primary tumors compared with those produced by implanted parent cells. Thus, therapies targeted against β1 integrin may not be suitable for some TNBC patients. Interactions with the extracellular matrix (ECM) through integrin adhesion receptors provide cancer cells with physical and chemical cues that act together with growth factors to support survival and proliferation. Antagonists that target integrins containing the β1 subunit inhibit tumor growth and sensitize cells to irradiation or cytotoxic chemotherapy in preclinical breast cancer models and are under clinical investigation. We found that the loss of β1 integrins attenuated breast tumor growth but markedly enhanced tumor cell dissemination to the lungs. When cultured in three-dimensional ECM scaffolds, antibodies that blocked β1 integrin function or knockdown of β1 switched the migratory behavior of human and mouse E-cadherin–positive triple-negative breast cancer (TNBC) cells from collective to single cell movement. This switch involved activation of the transforming growth factor–β (TGFβ) signaling network that led to a shift in the balance between miR-200 microRNAs and the transcription factor zinc finger E-box–binding homeobox 2 (ZEB2), resulting in suppressed transcription of the gene encoding E-cadherin. Reducing the abundance of a TGFβ receptor, restoring the ZEB/miR-200 balance, or increasing the abundance of E-cadherin reestablished cohesion in β1 integrin–deficient cells and reduced dissemination to the lungs without affecting growth of the primary tumor. These findings reveal that β1 integrins control a signaling network that promotes an epithelial phenotype and suppresses dissemination and indicate that targeting β1 integrins may have undesirable effects in TNBC.

Annexin A2 depletion delays EGFR endocytic trafficking via cofilin activation and enhances EGFR signaling and metastasis formation

Enhanced epidermal growth factor receptor (EGFR) activity has been strongly linked to breast cancer progression and mediators of EGFR endocytosis may well be involved. We developed a semi-automated high-content fluorescence microscopy-based EGFR endocytosis screen to identify proteins that mediate EGFR endocytosis in human HBL100 breast cancer cells. Knockdown of 172 individual endocytosis and actin-regulatory genes with small interfering RNAs led to the identification of 14 genes of which the contribution to EGFR endocytosis in breast cancer is until now poorly defined, including DNAJC6, GDI2, FGD6, HAX1, NECAP2 and AnxA2. We show that depletion of the actin and endocytosis regulatory protein annexin A2 (AnxA2) in a panel of four triple negative breast cancer (TNBC) cell lines affected EGFR endocytosis. Depletion of AnxA2 in the aggressive and highly metastatic MDA-MB-231 TNBC cell line resulted in the inhibition of EGFR transport beyond the early endosomes. This inhibition coincided with enhanced epidermal growth factor (EGF)-induced cell migration and downstream signaling via c-Jun N-terminal kinase (JNK) and Akt. Moreover, AnxA2 knockdown increased lung metastasis formation in mice. The effect of AnxA2 knockdown on EGFR endocytosis in MDA-MB-231 was related to dephosphorylation/activation of the actin-severing protein cofilin, as re-expression of an inactive S3E-cofilin mutant, but not an active S3A-cofilin mutant, re-established EGFR endocytosis to control levels. Together, our data provide evidence for AnxA2 as a mediator of EGFR endocytosis and signaling in breast cancer via regulation of cofilin activation.

Comparative cytotoxicity of 14 novel selenocysteine Se-conjugates in rat renal proximal tubular cells

Recently, Se-substituted selenocysteine conjugates were proposed as potential prodrugs to target biologically active selenol compounds to tissues containing high activities of cysteine conjugate beta-lyases, such as the kidneys. However, several selenium compounds are known to be relatively toxic compounds. In the present study, the cytotoxicity of 14 selenocysteine Se-conjugates was determined in freshly isolated rat renal proximal tubular cells (RPTC). The results of this study show that four selenocysteine Se-conjugates with alkyl substituents (methyl, ethyl, n-propyl, and n-butyl) did not cause significant cytotoxicity to RPTC up to concentrations of 500 microM after 90 min of incubation. Also, no effect was observed on mitochondrial functioning as indicated by the unaffected mitochondrial membrane potential (delta psi). Se-(i-Propyl)-selenocysteine, however, appeared to be a cytotoxic compound, causing time- and dose-dependent cytotoxicity, and caused a decrease of delta psi in remaining viable cells. Aminooxyacetic acid (AOAA) provided significant protection against cell death of Se-(i-propyl)-selenocysteine, pointing to involvement of cysteine conjugate beta-lyase. AOAA, however, did not prevent the decrease of delta psi. Differentially substituted Se-(phenyl)-L-selenocysteine and Se-(benzyl)-L-selenocysteine conjugates appeared to be cytotoxic to RPTC at a concentration of 200 microM, as indicated by increased cell death and a decreased delta psi in remaining viable cells. Within the Se-benzyl-series, Se-(4-methoxybenzyl)-L-selenocysteine was the most toxic conjugate, whereas Se-(4-chlorophenyl)-L-selenocysteine was the most toxic conjugate of the Se-phenyl compounds. The selenocysteine Se-conjugates with nonsubstituted phenyl and benzyl substituents were nontoxic at 200 microM, but caused significant cell death at a concentration of 500 microM. Preincubation with AOAA, an inhibitor of cysteine conjugate beta-lyase, provided only partial protection against the cytotoxicity of Se-(phenyl)-L-selenocysteine (500 microM) and Se-(4-methoxybenzyl)-L-selenocysteine (200 microM). AOAA did not protect against cytotoxicity of the other conjugates, suggesting direct effects of these compounds or involvement of alternative routes of bioactivation. This study demonstrates that cytotoxicity of selenocysteine Se-conjugates is strongly dependent on the nature of the Se-bound substituent. The nontoxic Se-(alkyl)-Se-conjugates may be promising candidates for further evaluation for chemopreventive activities.

Combined expression of the non-receptor protein tyrosine kinases FAK and Src in primary colorectal cancer is associated with tumor recurrence and metastasis formation

PURPOSE The protein tyrosine kinase focal adhesion kinase (FAK) and Src in association with phosphorylation of the adapter protein paxillin are essential in tumor metastasis formation. Elevated levels of FAK, Src and paxillin may increase the metastatic potential of colorectal tumor cells. The aim of the current study was to examine the expression of FAK, Src, and paxillin using immunohistochemistry in the context of disease progression and to evaluate its clinical significance as a prognostic factor. EXPERIMENTAL DESIGN The relationship between FAK, Src and paxillin levels and colorectal cancer progression was evaluated by immunohistochemistry in 104 colorectal cancer specimens with clinical follow up. In addition, FAK, Src and paxillin expression levels were quantified in 68 colorectal tumors and corresponding liver metastases. RESULTS FAK and paxillin expression individually did not significantly impact time to recurrence (p=0.09, and p=0.89 respectively). Src expression was associated with tumor recurrence p=0.03. However, tumors that expressed both high FAK and Src levels had a significant shorter time to recurrence (p=0.004, hazard ratio: 2.98, 95% CI 1.14-6.31). FAK, Src and paxillin showed equivalent levels in corresponding liver metastases compared to the primary tumors (p=0.67, p=0.28 and p=0.34 respectively). CONCLUSIONS These findings show that high levels of FAK and Src combined were predictive for recurrence of colorectal cancer. In addition, expression of FAK, Src and paxillin in colorectal cancer were maintained in corresponding distant metastases.

p140Cap suppresses the invasive properties of highly metastatic MTLn3-EGFR cells via impaired cortactin phosphorylation.

We have recently shown that the adaptor protein p140Cap regulates tumor properties in terms of cell motility and growth. Here, by using the highly metastatic rat adenocarcinoma cell line MTLn3-epidermal growth factor receptor (EGFR), we assess the role of p140Cap in metastasis formation. Orthotopic transplantation of MTLn3-EGFR cells over-expressing p140Cap in Rag2−/−γc−/− mice resulted in normal primary tumor growth compared with the controls. Strikingly, p140Cap over-expression causes an 80% inhibition in the number of lung metastases. p140Cap over-expressing cells display a 50% reduction in directional cell migration, an increased number and size of focal adhesions, and a strong impairment in the ability to invade in a 3D matrix. p140Cap over-expression affects EGFR signaling and tyrosine phosphorylation of cortactin in response to EGF stimulation. Intriguingly, p140Cap associates with cortactin via interaction with its second proline-rich domain to the cortactin SH3 domain. The phosphomimetic cortactin tyrosine 421 mutant rescues migration and invasive properties in p140Cap over-expressing cells. Taken together, these data demonstrate that p140Cap suppresses the invasive properties of highly metastatic breast carcinoma cells by inhibiting cortactin-dependent cell motility.

Classifying the adverse mitogenic mode of action of insulin analogues using a novel mechanism-based genetically engineered human breast cancer cell panel.

Insulin analogues are widely used in clinical practice. Modifications on the insulin molecular structure can affect the affinity and activation towards two closely related receptor tyrosine kinases: the insulin receptor (INSR) and the insulin-like growth factor 1 receptor (IGF1R). A switch towards higher IGF1R affinity is likely to emphasize mitogenesis rather than glucose metabolism. Relevant well-validated experimental tools to address the insulin analogue activation of either INSR or IGF1R are missing. We have established a panel of human MCF-7 breast cancer cell lines either ectopically expressing the INSR (A or B isoform) in conjunction with a stable knockdown of the IGF1R or ectopically expressing the IGF1R in conjunction with a stable knockdown of the INSR. In these cell lines, we systematically evaluated the INSR and IGF1R receptor activation and downstream mitogenic signalling of all major clinical relevant insulin analogues in comparison with insulin and IGF1R. While most insulin analogues primarily activated the INSR, the mitogenic activation pattern of glargine was highly similar to IGF1 and insulin AspB10, known to bind IGF1R and induce carcinogenesis. Yet, in a long-term proliferation assay, the proliferative effect of glargine was not much different from regular insulin or other insulin analogues. This was caused by the rapid enzymatic conversion into its two metabolic active metabolites M1 and M2, with reduced mitogenic signalling through the IGF1R. In summary, based on our new cell models, we identified a similar mitogenic potency of insulin glargine and AspB10. However, rapid enzymatic conversion of glargine precludes a sustained activation of the IGF1R signalling pathway.

Combining Doublecortin-Like Kinase Silencing and Vinca Alkaloids Results in a Synergistic Apoptotic Effect in Neuroblastoma Cells

Microtubule-destabilizing agents, such as vinca alkaloids (VAs), are part of the treatment currently applied in patients with high-risk neuroblastoma (NB). However, the development of drug resistance and toxicity make NB difficult to treat with these drugs. In this study we explore the combination of VAs (vincristine or vinblastine) with knockdown of the microtubule-associated proteins encoded by the doublecortin-like kinase (DCLK) gene by using short interference RNA (siRNA). We examined the effect of VAs and DCLK knockdown on the microtubule network by immunohistochemistry. We performed dose-response studies on cell viability and proliferation. By combining VA with DCLK knockdown we observed a strong reduction in the EC50 to induce cell death: up to 7.3-fold reduction of vincristine and 21.1-fold reduction of vinblastine. Using time-lapse imaging of phosphatidylserine translocation and a terminal deoxynucleotidyl transferase dUTP nick-end labeling-based assay, we found a significant increase of apoptosis by the combined treatment. Induction of caspase-3 activity, as detected via cleavage of N-acetyl-Asp-Glu-Val-Asp-7-amido-4-methylcoumarin, showed a 3.3- to 12.0-fold increase in the combined treatment. We detected significant increases in caspase-8 activity as well. Moreover, the multidrug dose effect calculated by using the median effect method showed a strong synergistic inhibition of proliferation and induction of apoptosis at most of the combined concentrations of siRNAs and VAs. Together, our data demonstrate that the silencing of DCLK sensitizes NB cells to VAs, resulting in a synergetic apoptotic effect.

Mammary gland-specific ablation of focal adhesion kinase reduces the incidence of p53-mediated mammary tumour formation

Background:Elevated expression of focal adhesion kinase (FAK) occurs in numerous human cancers including colon-, cervix- and breast cancer. Although several studies have implicated FAK in mammary tumour formation induced by ectopic oncogene expression, evidence supporting a role for FAK in spontaneous mammary tumour development caused by loss of tumour suppressor genes such as p53 is lacking. Alterations in the tumour suppressor gene p53 have been implicated in over 50% of human breast cancers. Given that elevated FAK expression highly correlates with p53 mutation status in human breast cancer, we set out to investigate the importance of FAK in p53-mediated spontaneous mammary tumour development.Methods:To directly assess the role of FAK, we generated mice with conditional inactivation of FAK and p53. We generated female p53lox/lox/FAK+/+/WapCre, p53lox/lox/FAKflox/+/WapCre and p53lox/lox/FAKflox/−/WapCre mice, and mice with WapCre-mediated conditional expression of p53R270H, the mouse equivalent of human p53R273H hot spot mutation, together with conditional deletion of FAK, P53R270H/+/FAKlox/+/WapCre and p53R270H/+/FAKflox/−/WapCre mice. All mice were subjected to one pregnancy to induce WapCre-mediated deletion of p53 or expression of p53 R270H, and Fak genes flanked by two loxP sites, and subsequently followed the development of mammary tumours.Results:Using this approach, we show that FAK is important for p53-induced mammary tumour development. In addition, mice with the mammary gland-specific conditional expression of p53 point mutation R270H, the mouse equivalent to human R273H, in combination with conditional deletion of Fak showed reduced incidence of p53R270H-induced mammary tumours. In both models these effects of FAK were related to reduced proliferation in preneoplastic lesions in the mammary gland ductal structures.Conclusions:Mammary gland-specific ablation of FAK hampers p53-regulated spontaneous mammary tumour formation. Focal adhesion kinase deletion reduced proliferative capacity of p53 null and p53R270H mammary epithelial cells but did not lead to increased apoptosis in vivo. Our data identify FAK as an important regulator in mammary epithelial cell proliferation in p53-mediated and p53R270H-induced mammary tumour development.

Highlight report: ‘Big data in the 3R’s: outlook and recommendations’, a roundtable summary

With the advances in animal alternative testing methods, computational models, and the emergence of integrated testing strategies, the status of big data in the 3R’s (replacement, reduction and refinement) has come to the fore. A roundtable at the Tenth World Congress on Alternatives (WC-10) in Seattle set out to examine what big data means for the 3Rs and to review the progress being made. Big data indeed brings about the possibility of a deeper understanding of biology, which in turn could play a role in eventually redefining our decision-making process in chemical safety assessment, but the topic is not without its challenges. Opportunities exist to address these both now and in the future, as discussed herein.