RCAN1.4 regulates VEGFR-2 internalisation, cell polarity and migration in human microvascular endothelial cells.

Regulator of calcineurin 1 (RCAN1) is an endogenous inhibitor of the calcineurin pathway in cells. It is expressed as two isoforms in vertebrates: RCAN1.1 is constitutively expressed in most tissues, whereas transcription of RCAN1.4 is induced by several stimuli that activate the calcineurin-NFAT pathway. RCAN1.4 is highly upregulated in response to VEGF in human endothelial cells in contrast to RCAN1.1 and is essential for efficient endothelial cell migration and tubular morphogenesis. Here, we show that RCAN1.4 has a role in the regulation of agonist-stimulated VEGFR-2 internalisation and establishment of endothelial cell polarity. siRNA-mediated gene silencing revealed that RCAN1 plays a vital role in regulating VEGF-mediated cytoskeletal reorganisation and directed cell migration and sprouting angiogenesis. Adenoviral-mediated overexpression of RCAN1.4 resulted in increased endothelial cell migration. Antisense-mediated morpholino silencing of the zebrafish RCAN1.4 orthologue revealed a disrupted vascular development further confirming a role for the RCAN1.4 isoform in regulating vascular endothelial cell physiology. Our data suggest that RCAN1.4 plays a novel role in regulating endothelial cell migration by establishing endothelial cell polarity in response to VEGF.

Relative expression of vascular endothelial growth factor isoforms in squamous cell carcinoma of the head and neck.

BACKGROUND: Alternative splicing of the vascular endothelial growth factor (VEGF) gene results in a family of antiangiogenic isoforms (VEGFxxx b), not yet investigated in squamous cell carcinoma of the head and neck (SCCHN). We examined, therefore, the prognostic value of the relative expression of VEGF isoforms in SCCHN. METHODS: A tissue microarray comprising 187 SCCHNs was studied by immunohistochemistry with total VEGF (panVEGF) and VEGFxxx b-specific antibodies, and scored by 2 assessors for intensity and proportion. Scores were combined and expression ratios calculated. RESULTS: No meaningful significant differences were observed between panVEGF, VEGFxxx b, or expression ratio, and presence of lymphatic metastasis, or overall survival. This held true when tumor subsites were analyzed independently and when human papillomavirus (HPV) was accounted for in the oropharyngeal subgroup. CONCLUSION: Differential VEGF isoform expression is not a reliable prognostic biomarker for either the clinically node negative/pathologically node-positive neck or overall survival in pharyngeal and laryngeal SCCHNs.

CCR7 mediates directed growth of melanomas towards lymphatics.

OBJECTIVE: To determine whether chemotactic-metastasis, the preferential growth of melanomas towards areas of high lymphatic density, is CCL21/CCR7 dependent in vivo. Lymphatic endothelial cells (LECs) produce the chemokine CCL21. Metastatic melanoma cells express CCR7, its receptor, and exhibit chemotactic-metastasis, whereby metastatic cells recognise and grow towards areas of higher lymphatic density. METHODS: We used two in vivo models of directional growth towards depots of LECs of melanoma cells over-expressing CCR7. Injected LEC were tracked by intravital fluorescence microscopy, and melanoma growth by bioluminescence. RESULTS: Over-expression of the chemokine receptor CCR7 enables non-metastatic tumor cells to recognise and grow towards LECs (3.9 fold compared with control), but not blood endothelial cells (0.9 fold), in vitro and in vivo in the absence of increased lymphatic clearance. Chemotactic metastasis was inhibited by a CCL21 neutralising antibody (4-17% of control). Furthermore, CCR7 expression in mouse B16 melanomas resulted in in-transit metastasis (50-100% of mice) that was less often seen with control tumors (0-50%) in vivo. CONCLUSION: These results suggest that recognition of LEC by tumors expressing receptors for lymphatic specific ligands contributes towards the identification and invasion of lymphatics by melanoma cells and provides further evidence for a chemotactic metastasis model of tumor spread.

Chemotrap-1: an engineered soluble receptor that blocks chemokine-induced migration of metastatic cancer cells in vivo.

Cancer and dendritic cells recognize and migrate toward chemokines secreted from lymphatics and use this mechanism to invade the lymphatic system, and cancer cells metastasize through it. The lymphatic-secreted chemokine ligand CCL21 has been identified as a key regulatory molecule in the switch to a metastatic phenotype in melanoma and breast cancer cells. However, it is not known whether CCL21 inhibition is a potential therapeutic strategy for inhibition of metastasis. Here, we describe an engineered CCL21-soluble inhibitor, Chemotrap-1, which inhibits migration of metastatic melanoma cells in vivo. Two-hybrid, pull-down, and coimmunoprecipitation assays allowed us to identify a naturally occurring human zinc finger protein with CCL21 chemokine-binding properties. Further analyses revealed a short peptide (∼70 amino acids), with a predicted coiled-coil structure, which is sufficient for association with CCL21. This CCL21 chemokine-binding peptide was then fused to the Fc region of human IgG1 to generate Chemotrap-1, a human chemokine-binding Fc fusion protein. Surface plasmon resonance and chemotaxis assays showed that Chemotrap-1 binds CCL21 and inhibits CCL21-induced migration of melanoma cells in vitro with subnanomolar affinity. In addition, Chemotrap-1 blocked migration of melanoma cells toward lymphatic endothelial cells in vitro and in vivo. Finally, Chemotrap-1 strongly reduced lymphatic invasion, tracking, and metastasis of CCR7-expressing melanoma cells in vivo. Together, these results show that CCL21 chemokine inhibition by Chemotrap-1 is a potential therapeutic strategy for metastasis and provide further support for the hypothesis that lymphatic-mediated metastasis is a chemokine-dependent process.

Prediction of melanoma metastasis by the Shields index based on lymphatic vessel density.

BACKGROUND: Melanoma usually presents as an initial skin lesion without evidence of metastasis. A significant proportion of patients develop subsequent local, regional or distant metastasis, sometimes many years after the initial lesion was removed. The current most effective staging method to identify early regional metastasis is sentinel lymph node biopsy (SLNB), which is invasive, not without morbidity and, while improving staging, may not improve overall survival. Lymphatic density, Breslow's thickness and the presence or absence of lymphatic invasion combined has been proposed to be a prognostic index of metastasis, by Shields et al in a patient group. METHODS: Here we undertook a retrospective analysis of 102 malignant melanomas from patients with more than five years follow-up to evaluate the Shields' index and compare with existing indicators. RESULTS: The Shields' index accurately predicted outcome in 90% of patients with metastases and 84% without metastases. For these, the Shields index was more predictive than thickness or lymphatic density. Alternate lymphatic measurement (hot spot analysis) was also effective when combined into the Shields index in a cohort of 24 patients. CONCLUSIONS: These results show the Shields index, a non-invasive analysis based on immunohistochemistry of lymphatics surrounding primary lesions that can accurately predict outcome, is a simple, useful prognostic tool in malignant melanoma.

The sialomucin CD34 is a marker of lymphatic endothelial cells in human tumors.

The mechanisms of lymphangiogenesis have been increasingly understood in recent years. Yet, the contribution of lymphangiogenesis versus lymphatic cooption in human tumors and the functionality of tumor lymphatics are still controversial. Furthermore, despite the identification of lymphatic endothelial cell (LEC) markers such as Prox1, podoplanin, LYVE-1, and VEGFR-3, no activation marker for tumor-associated LECs has been identified. Applying double-staining techniques with established LEC markers, we have screened endothelial cell differentiation antigens for their expression in LECs. These experiments identified the sialomucin CD34 as being exclusively expressed by LECs in human tumors but not in corresponding normal tissues. CD34 is expressed by LYVE-1(+)/podoplanin(+)/Prox1(+) tumor-associated LECs in colon, breast, lung, and skin tumors. More than 60% of analyzed tumors contained detectable intratumoral lymphatics. Of these, more than 80% showed complete co-localization of CD34 with LEC markers. In contrast, LECs in all analyzed normal organs did not express CD34. Corresponding analyses of experimental tumors revealed that mouse tumor-associated LECs do not express CD34. Taken together, these experiments identify CD34 as the first differentially expressed LEC antigen that is selectively expressed by tumor-associated LECs. The data warrant further exploration of CD34 in tumor-associated LECs as a prognostic tumor marker.