Phosphorylation of Dab2 is involved in inhibited VEGF‐VEGFR‐2 signaling induced by downregulation of syndecan‐1 in glomerular endothelial cell

Disabled‐2 (Dab2) and PAR‐3 (partitioning defective 3) are reported to play critical roles in maintaining retinal microvascular endothelial cells biology by regulating VEGF‐VEGFR‐2 signaling. The role of Dab2 and PAR‐3 in glomerular endothelial cell (GEnC) is unclear. In this study, we found that, no matter whether with vascular endothelial growth factor (VEGF) treatment or not, decreased expression of Dab2 could lead to cell apoptosis by preventing activation of VEGF‐VEGFR‐2 signaling in GEnC, accompanied by reduced membrane VEGFR‐2 expression. And silencing of PAR‐3 gene expression caused increased apoptosis of GEnC by inhibiting activation of VEGF‐VEGFR‐2 signaling and membrane VEGFR‐2 expression. In our previous research, we found that the silencing of syndecan‐1 gene expression inhibited VEGF‐VEGFR‐2 signaling by modulating internalization of VEGFR‐2. And our further research demonstrated that downregulation of syndecan‐1 lead to no significant change in the expression of Dab2 and PAR‐3 both at messenger RNA and protein levels in GEnC, while phosphorylation of Dab2 was significantly increased in GEnC transfected with Dab2 small interfering RNA (siRNA) compared with control siRNA. Atypical protein kinase C (aPKC) could induce phosphorylation of Dab2, thus negatively regulating VEGF‐VEGFR‐2 signaling. And we found that decreased expression of syndecan‐1 lead to activation of aPKC, and aPKC inhibitor treatment could block phosphorylation of Dab2 in GEnC. Besides, aPKC inhibitor treatment could activate VEGF‐VGEFR‐2 signaling in GEnC transfected with syndecan‐1 siRNA in a dose‐dependent manner. In conclusion, we speculated that phosphorylation of Dab2 is involved in preventing activation of VEGF‐VEGFR‐2 signaling in GEnC transfected with syndecan‐1 siRNA. This provides a new target for the therapy of GEnC injury and kidney disease.     

Role of VEGFR‐1 in melanoma acquired resistance to the BRAF inhibitor vemurafenib

The vascular endothelial growth factor receptor‐1 (VEGFR‐1) is a tyrosine kinase receptor frequently expressed in melanoma. Its activation by VEGF‐A or placental growth factor (PlGF) promotes tumour cell survival, migration and invasiveness. Moreover, VEGFR‐1 stimulation contributes to pathological angiogenesis and induces recruitment of tumour‐associated macrophages. Since melanoma acquired resistance to BRAF inhibitors (BRAFi) has been associated with activation of pro‐angiogenic pathways, we have investigated VEGFR‐1 involvement in vemurafenib resistance. Results indicate that human melanoma cells rendered resistant to vemurafenib secrete greater amounts of VEGF‐A and express higher VEGFR‐1 levels compared with their BRAFi‐sensitive counterparts. Transient VEGFR‐1 silencing in susceptible melanoma cells delays resistance development, whereas in resistant cells it increases sensitivity to the BRAFi. Consistently, enforced VEGFR‐1 expression, by stable gene transfection in receptor‐negative melanoma cells, markedly reduces sensitivity to vemurafenib. Moreover, melanoma cells expressing VEGFR‐1 are more invasive than VEGFR‐1 deficient cells and receptor blockade by a specific monoclonal antibody (D16F7 mAb) reduces extracellular matrix invasion triggered by VEGF‐A and PlGF. These data suggest that VEGFR‐1 up‐regulation might contribute to melanoma progression and spreading after acquisition of a drug‐resistant phenotype. Thus, VEGFR‐1 inhibition with D16F7 mAb might be a suitable adjunct therapy for VEGFR‐1 positive tumours with acquired resistance to vemurafenib.     

The FGF‐1‐specific single‐chain antibody scFv1C9 effectively inhibits breast cancer tumour growth and metastasis

Immunotherapy mediated by recombinant antibodies is an effective therapeutic strategy for a variety of cancers. In a previous study, we demonstrated that the fibroblast growth factor 1 (FGF‐1)‐specific recombinant antibody scFv1C9 arrests the cell cycle at the G0/G1 transition by blocking the intracrine FGF‐1 pathway in breast cancer cells. Here, we further show that the overexpression of scFv1C9 in MCF‐7 and MDA‐MB‐231 breast cancer cells by lentiviral infection resulted in decreased tumourigenicity, tumour growth and lung metastasis through FGF‐1 neutralization. We found that scFv1C9 resulted in the up‐regulation of p21, which in turn inhibited the expression of CDK2 and blocked cell cycle progression. To explore the potential role of scFv1C9 in vivo, we delivered the gene into solid tumours by electroporation, which resulted in significant inhibition of tumour growth. In tumour tissue sections, immunohistochemical staining of the cellular proliferation marker Ki‐67 and the microvessel marker CD31 showed a reduction in the proliferative index and microvessel density, respectively, upon expression of scFv1C9 compared with the appropriate controls. Thus, our data indicate a central role for scFv1C9 in blocking the intracrine pathway of FGF‐1, therefore, scFv1C9 could be developed in an effective therapeutic for breast cancer.     

Suppression of migratory and metastatic pathways via blocking VEGFR1 and VEGFR2

Abstract

Background: Vascular endothelial growth factor (VEGF) A and B are endothelial cell mitogens whose ligation to VEGFR1/VEGFR2 drives tumor angiogenesis and metastasis, and epithelial-mesenchymal transition (EMT). Blockade of these signaling axes could be obtained by disturbing the interactions between VEGFA and/or VEGFB with VEGFR1 and/or VEGFR2.

Methods: A 14-mer peptide (VGB) that recognizes both VEGFR1 and VEGFR2 were investigated for its inhibitory effects on the VEGF‐induced proliferation and migration using MTT and scratch assay, respectively. Downstream signaling pathways were also assessed by quantitative estimation of gene and protein expression using real-time PCR and immunohistochemistry (IHC).

Results: We investigated the inhibitory effects of VGB on downstream mediators of metastasis, including epithelial-cadherin (E-cadherin), matrix metalloprotease-9 (MMP-9), cancer myelocytomatosis (c-Myc), and nuclear factor-κβ (NF-κβ), and migration, comprising focal adhesion kinase (FAK) and its substrate Paxilin. VGB inhibited the VEGF‐induced proliferation of human umbilical vein endothelial cells (HUVECs), 4T1 and U87 cells in a time- and dose-dependent manner and migration of HUVECs. Based on IHC analyses, treatment of 4T1 mammary carcinoma tumor with VGB led to the suppression of p-AKT, p-ERK_1/2, MMP-9, NF-κβ, and activation of E-cadherin compared with PBS-treated controls. Moreover, quantitative real-time PCR analyses of VGB-treated tumors revealed the reduced expression level of FAK, Paxilin, NF-κβ, MMP-9, c-Myc, and increased expression level of E-cadherin compared to PBS-treated controls.

Conclusions: Our results demonstrated that simultaneous blockade of VEGFR1/VEGFR2 is an effective strategy to fight solid tumors by targeting a wider range of mediators involved in tumor angiogenesis, growth, and metastasis.     

WIPF2 promotes Shigella flexneri actin‐based motility and cell‐to‐cell spread

Shigella flexneri is an intracellular pathogen that disseminates in colonic epithelial cells through actin‐based motility and formation of membrane protrusions at cell–cell contacts, that project into adjacent cells and resolve into vacuoles, from which the pathogen escapes, thereby achieving cell‐to‐cell spread. Actin nucleation at the bacterial pole relies on the recruitment of the nucleation‐promoting factor N‐WASP, which activates the actin nucleator ARP2/3. In cells, the vast majority of N‐WASP exists as a complex with WIP. The involvement of WIP in N‐WASP‐dependent actin‐based motility of various pathogens, including vaccinia virus and S. flexneri, has been highly controversial. Here, we show that WIPF2 was the only WIP family member expressed in the human colonic epithelial cell line HT‐29, and its depletion impaired S. flexneri dissemination. WIPF2 depletion increased the number of cytosolic bacteria lacking actin tails (non‐motile) and decreased the velocity of motile bacteria. This correlated with a decrease in the recruitment of N‐WASP to the bacterial pole, and among N‐WASP‐positive bacteria, a decrease in actin tail‐positive bacteria, suggesting that WIPF2 is required for N‐WASP recruitment and activation at the bacterial pole. In addition, when motile bacteria formed protrusions, WIPF2 depletion decreased the number of membrane protrusions that successfully resolved into vacuoles.     

Short PlGF‐derived peptides bind VEGFR‐1 and VEGFR‐2 in vitro and on the surface of endothelial cells

The placental growth factor (PlGF), a member of VEGF family, plays a crucial role in pathological angiogenesis, especially ischemia, inflammation, and cancer. This activity is mediated by its selective binding to VEGF receptor 1 (VEGFR‐1), which occurs predominantly through receptor domains 2 and 3. The PlGF β‐hairpin region spanning residues Q87 to V100 is one of the key binding elements on the protein side. We have undertaken a study on the design, preparation, and functional characterization of the peptide reproducing this region and of a set of analogues where glycine 94, occurring at the corner of the hairpin in the native protein, is replaced by charged as well as hydrophobic residues. Also, some peptides with arginine 96 replaced by other residues have been studied. We find that the parent peptide weakly binds VEGFR‐1, but replacement of G94 with residues bearing H‐bond donating residues significantly improves the affinity. Replacement of R96 instead blocks the interaction between the peptide and the domain. The strongest affinity is observed with the G94H (peptide PlGF‐2) and G94W (peptide PlGF‐10) mutants, while the peptide PlGF‐8, bearing the R96G mutation, is totally inactive. The PlGF‐1 and PlGF‐2 peptides also bind the VEGFR‐2 receptors, though with a reduced affinity, and are able to interfere with the VEGF‐induced receptor signaling on endothelial cells. The peptides also bind VEGFR‐2 on the surface of cells, while PlGF‐8 is inactive. Data suggest that these peptides have potential applications as PlGF/VEGF mimic in various experimental settings.     

Aquaporin‐1 inhibition reduces metastatic formation in a mouse model of melanoma

Aquaporin‐1 (AQP1) is a proangiogenic water channel protein promoting endothelial cell migration. We previously reported that AQP1 silencing by RNA interference reduces angiogenesis‐dependent primary tumour growth in a mouse model of melanoma. In this study, we tested the hypothesis that AQP1 inhibition also affects animal survival and lung nodule formation. Melanoma was induced by injecting B16F10 cells into the back of C57BL6J mice. Intratumoural injection of AQP1 siRNA and CTRL siRNA was performed 10 days after tumour cell implantation. Lung nodule formation was analysed after the death of the mice. Western blot was used to quantify HIF‐1α, caspase‐3 (CASP3) and metalloproteinase‐2 (MMP2) protein levels. We found that AQP1 knock‐down (KD) strongly inhibited metastatic lung nodule formation. Moreover, AQP1 siRNA‐treated mice showed a twofold survival advantage compared to mice receiving CTRL siRNAs. The reduced AQP1‐dependent tumour angiogenesis caused a hypoxic condition, evaluated by HIF‐1α significant increase, in turn causing an increased level of apoptosis in AQP1 KD tumours, assessed by CASP3 quantification and DNA fragmentation. Importantly, a decreased level of MMP2 after AQP1 KD indicated a decreased activity against extracellular matrix associated with reduced vascularization and metastatic formation. In conclusion, these findings highlight an additional role for AQP1 as an important determinant of tumour dissemination by facilitating tumour cell extravasation and metastatic formation. This study adds knowledge on the role played by AQP1 in tumour biology and supports the view of AQP1 as a potential drug target for cancer therapy.     

Density of DC-LAMP+ mature dendritic cells in combination with activated T lymphocytes infiltrating primary cutaneous melanoma is a strong independent prognostic factor

As the most potent antigen presenting cells, dendritic cells (DCs) play key roles in the immune response against tumors. Their density in the tumor tissue has been associated with prognosis in patients with various cancers. However, few studies have been aimed at the presence and maturation state of DCs in cutaneous melanoma, with regard to their potential clinical correlates. In this study, the density of DCs expressing CD1a and the maturation marker DC-LAMP was determined by immunohistochemistry in primary tumor samples from 82 patients with cutaneous malignant melanoma. Intratumoral and peritumoral cell densities were analyzed in relation to tumor thickness and the subsequent development of metastases, as well as to patients’ survival. CD1a⁺ DCs were found both infiltrating melanoma cell nests and in the surrounding stroma, while DC-LAMP⁺ mature DCs were generally confined to the peritumoral areas, associated with lymphocytic infiltrates. DC density values significantly correlated with the number of activated (CD25⁺ or OX40⁺) T lymphocytes (p < 0.001). The degree of infiltration by CD1a⁺ and DC-LAMP⁺ DCs showed strong inverse correlation with the thickness of melanomas (p < 0.001). High peritumoral density of mature DCs was associated with significantly longer survival (p = 0.0195), while density of CD1a⁺ cells had a prognostic impact of borderline significance (p = 0.0610). Moreover, combination of high peritumoral CD1a⁺ or DC-LAMP⁺ cell density with high number of CD25⁺ or OX40⁺ lymphocytes identified patient subgroups with more favorable survival compared to other subgroups. A multivariate survival analysis involving DC and activated T-cell densities alone and in combinations, as well as traditional prognostic factors, identified high DC-LAMP⁺ cell/high OX40⁺ cell density and Breslow index as independent predictors of good prognosis. These results suggest that the presence of CD1a⁺ DCs primarily depends on the thickness of melanomas, without direct relationship with the patients’ survival. On the other hand, the density of mature DCs, especially in association with that of activated T cells, proved of prognostic importance, suggesting that these parameters could be considered as signs of a functional immune response associated with better outcome of the disease.     

Synthesis and Biological Evaluation of Novel Oxazolo[5,4‐d]pyrimidines as Potent VEGFR‐2 Inhibitors

Tumor angiogenesis is mediated by vascular endothelial growth factor receptor (VEGFR) and other protein kinases. Inhibition of these kinases presents an attractive approach for developing anticancer therapeutics. In this work, a series of 2,5,7‐trisubstituted oxazolo[5,4‐d]pyrimidines were synthesized, and their inhibitory activities were investigated against VEGFR‐2 and human umbilical vein endothelial cells (HUVEC) in vitro. Compound 9n exhibited the most potent inhibitory activity with IC₅₀ values of 0.33 and 0.29 μM for VEGFR‐2 kinase and HUVEC, respectively. A further kinase selectivity assay revealed that these compounds exhibit good VEGFR and moderate EGFR inhibitory activities. Docking analysis suggested a common mode of interaction at the ATP‐binding site of VEGFR‐2.     

Delayed astrocytic contact with cerebral blood vessels in FGF‐2 deficient mice does not compromise permeability properties at the developing blood‐brain barrier

The brain functions within a specialized environment tightly controlled by brain barrier mechanisms. Understanding the regulation of barrier formation is important for understanding brain development and may also lead to finding new ways to deliver pharmacotherapies to the brain; access of many potentially promising drugs is severely hindered by these barrier mechanisms. The cellular composition of the neurovascular unit of the blood‐brain barrier proper and their effects on regulation of its function are beginning to be understood. One hallmark of the neurovascular unit in the adult is the astroglial foot processes that tightly surround cerebral blood vessels. However their role in barrier formation is still unclear. In this study we examined barrier function in newborn, juvenile and adult mice lacking fibroblast growth factor‐2 (FGF‐2), which has been shown to result in altered astroglial differentiation during development. We show that during development of FGF‐2 deficient mice the astroglial contacts with cerebral blood vessels are delayed compared with wild‐type animals. However, this delay did not result in changes to the permeability properties of the blood brain barrier as assessed by exclusion of either small or larger sized molecules at this interface. In addition cerebral vessels were positive for tight‐junction proteins and we observed no difference in the ultrastructure of the tight‐junctions. The results indicate that the direct contact of astroglia processes to cerebral blood vessels is not necessary for either the formation of the tight‐junctions or for basic permeability properties and function of the blood‐brain barrier. © 2016 Wiley Periodicals, Inc. Develop Neurobiol 76: 1201–1212, 2016     

The fibroblast growth factor‐2 is not essential for melanoma formation in a transgenic mouse model

Fibroblast growth factor 2 (FGF2) has been assigned a role in melanocyte proliferation and in development of human cutaneous melanoma. We have used a transgenic mouse melanoma model in combination with mice lacking mouse FGF2 to analyse the possible implication of FGF2 in melanomagenesis. Tyr::N‐ras^Q61K transgenic mice which are deficient for FGF2 and the tumor suppressors p16^INK4a and p19^ARF are hyperpigmented and develop cutaneous metastasizing melanoma, with no difference to mice wildtype for FGF2. We conclude from our data, that FGF2 is not essential for melanoma progression and metastasis.     

Microsomal PGE2 synthase‐1 regulates melanoma cell survival and associates with melanoma disease progression

COX‐2 and its product PGE2 enhance carcinogenesis and tumor progression, which has been previously reported in melanoma. As most COX inhibitors cause much toxicity, the downstream microsomal PGE2 synthase‐1 (mPGES1) is a consideration for targeting. Human melanoma TMAs were employed for testing mPGES1 protein staining intensity and percentage levels, and both increased with clinical stage; employing a different Stage III TMA, mPGES1 intensity (not percentage) associated with reduced patient survival. Our results further show that iNOS was also highly expressed in melanoma tissues with high mPGES1 levels, and iNOS‐mediated NO promoted mPGES1 expression and PGE2 production. An mPGES1‐specific inhibitor (CAY10526) as well as siRNA attenuated cell survival and increased apoptosis. CAY10526 significantly suppressed tumor growth and increased apoptosis in melanoma xenografts. Our findings support the value of a prognostic and predictive role for mPGES1, and suggest targeting this molecule in the PGE2 pathway as another avenue toward improving melanoma therapy.     

Expression of insulin‐like growth factor‐1 receptor in metastatic uveal melanoma and implications for potential autocrine and paracrine tumor cell growth

We investigated the importance of the insulin‐like growth factor‐1 receptor (IGF‐1R) in hepatic metastases of uveal melanoma. The expression pattern of IGF‐1R in archival tissue samples of hepatic metastasis from 24 patients was analyzed by immunohistochemistry. All the samples of hepatic metastases stained positive for IGF‐1R. To investigate the biological role of IGF‐1R on the growth of metastatic uveal melanoma, a long‐term cell line obtained from a hepatic metastasis (TJU‐UM001) was evaluated. TJU‐UM001 expressed cell surface IGF‐1R (>90%) and proliferated in response to exogenous and endogenous insulin‐like growth factor‐1 (IGF‐1). Correlatively, anti‐IGF‐1R antibody completely blocked IGF‐1‐induced growth of TJU‐UM001 cells. IGF‐1 preferentially induced phosphorylation of Akt (S473) in quiescent TJU‐UM001 cells, and this was blocked by anti‐IGF‐1R antibody. This study suggests that autocrine and paracrine mechanisms underlie IGF‐1‐induced growth of metastatic uveal melanoma and underscore the potential benefit of IGF‐1 or IGF‐1R antagonism in treatment for metastatic uveal melanoma.     

T cell recognition of melanoma antigens in association with HLA-A1 on allogeneic melanoma cells

Previous studies have shown that recognition of melanoma by cytotoxic T lymphocytes may be restricted by HLA-A1, A2 and other HLA antigens. The present study examined the cytotoxic specificity and major histocompatibility complex restriction of cloned cytotoxic T lymphocytes (CTL) isolated from a patient with the HLA phenotype A3,31 who had been immunized with a vaccine prepared from HLA-A1,3 melanoma cells. Cytotoxic assays against HLA-typed allogeneic melanoma cells indicated that cloned CTL from the patient were able to kill allogeneic melanoma cells expressing HLA-A1 but not other HLA-A1-positive cells. Studies on a representative clone indicated that proliferation and cytokine (tumour necrosis factor ) production in response to melanoma cells was also associated with HLA-A1 on melanoma cells. Response to the melanoma cells was associated with interleukin-4 (IL-4) rather than IL-2 production. The antigen recognized in the context of HLA-A1 on allogeneic melanoma cells was detected in cytotoxic assays on cells from 9 of 12 HLA-A1⁺ melanoma cell lines and did not appear to be the product of the MAGE-1 or-3 genes. These findings suggest that T cells can recognize melanoma antigens in the context of alloantigens and that allogeneic vaccines containing immunodominant alloantigens may generate CTL that are ineffective against autologous melanoma. The study does not, however, exclude the possibility that CTL with specificity to the latter may be activated by allogeneic vaccines, and further studies are needed to answer this question.     

Metastasis‐specific patterns of response and progression with anti‐PD‐1 treatment in metastatic melanoma

This study evaluated patterns of response as discerned by comprehensive metastasis‐specific analysis in metastatic melanoma patients receiving anti‐PD‐1 antibodies. Bi‐dimensional measurements of every metastasis in patients enrolled in the KEYNOTE‐001 trial at a single institution were obtained at baseline and throughout treatment. Twenty‐seven evaluable patients had 399 baseline metastases measurable on CT imaging. Complete response (CR) which occurred in 52.6% of metastases was smaller (mean 223 mm² versus 760 mm², p < .01) and occurred more frequently in the lungs (65% versus 39.4%, p < .01). Response was heterogenous (new/progressing metastases alongside CR metastases) at first assessment in 4/14 patients with objective response (OR) as opposed to 7/13 patients with non‐OR. CR of individual metastases is common and influenced by site and size. Most patients with OR demonstrate homogenous regression in all metastases at the first assessment. In contrast, patients with early heterogeneity had a poor outcome.