Platelet-derived growth factor receptor-β, carrying the activating mutation D849N, accelerates the establishment of B16 melanoma

<p>Abstract</p> <p>Background</p> <p>Platelet-derived growth factor (PDGF)-BB and PDGF receptor (PDGFR)-β are mainly expressed in the developing vasculature, where PDGF-BB is produced by endothelial cells and PDGFR-β is expressed by mural cells, including pericytes. PDGF-BB is produced by most types of solid tumors, and PDGF receptor signaling participates in various processes, including autocrine stimulation of tumor cell growth, recruitment of tumor stroma fibroblasts, and stimulation of tumor angiogenesis. Furthermore, PDGF-BB-producing tumors are characterized by increased pericyte abundance and accelerated tumor growth. Thus, there is a growing interest in the development of tumor treatment strategies by blocking PDGF/PDGFR function. We have recently generated a mouse model carrying an activated PDGFR-β by replacing the highly conserved aspartic acid residue (D) 849 in the activating loop with asparagine (N). This allowed us to investigate, in an orthotopic tumor model, the role of increased stromal PDGFR-β signaling in tumor-stroma interactions.</p> <p>Methods</p> <p>B16 melanoma cells lacking PDGFR-β expression and either mock-transfected or engineered to express PDGF-BB, were injected alone or in combination with matrigel into mice carrying the activated PDGFR-β (D849N) and into wild type mice. The tumor growth rate was followed and the vessel status of tumors, i.e. total vessel area/tumor, average vessel surface and pericyte density of vessels, was analyzed after resection.</p> <p>Results</p> <p>Tumors grown in mice carrying an activated PDGFR-β were established earlier than those in wild-type mice. In this early phase, the total vessel area and the average vessel surface were higher in tumors grown in mice carrying the activated PDGFR-β (D849N) compared to wild-type mice, whereas we did not find a significant difference in the number of tumor vessels and the pericyte abundance around tumor vessels between wild type and mutant mice. At later phases of tumor progression, no significant difference in tumor growth rate was observed between wild type mice and mutant mice, although the pericyte coverage was higher around tumor vessels from mutant mice.</p> <p>Conclusion</p> <p>Our findings suggest that the activated PDGFR-β (D849N) in the host animal increased the total vessel area and the average vessel surface even in PDGF-negative tumors, resulting in a shorter lag phase during tumor establishment.</p

Regulator of G-protein signaling 5 (RGS5) protein: a novel marker of cancer vasculature elicited and sustained by the tumor’s proangiogenic microenvironment

We previously identified regulator of G-protein signaling 5 (RGS5) among several genes expressed by tumor-derived endothelial cells (EC). In this study, we provide the first in vivo/ex vivo evidence of RGS5 protein in the vasculature of ovarian carcinoma clinical specimens and its absence in human ovaries. Consistent with this, we show higher amounts of Rgs5 transcript in EC isolated from human cancers (as opposed to normal tissues) and demonstrate that expression is sustained by a milieu of factors typical of the proangiogenic tumor environment, including vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (FGF-2). Supporting these findings, we show elevated levels of Rgs5 mRNA in the stroma from strongly (as opposed to weakly) angiogenic ovarian carcinoma xenografts and accordingly, we also show more of the protein associated to the abnormal vasculature. RGS5 protein predominantly colocalizes with the endothelium expressing platelet/endothelial cell adhesion molecule-1 (PECAM-1/CD31) and to a much lesser extent with perivascular/mural cells expressing platelet-derived growth factor receptor-beta (PDGFR-β) or alpha smooth muscle actin (αSMA). To toughen the relevance of the findings, we demonstrate RGS5 in the blood vessels of other cancer models endowed with a proangiogenic environment, such as human melanoma and renal carcinoma xenografts; to the contrary, it was undetectable in the vasculature of normal mouse tissues. RGS5 expression by the cancer vasculature triggered and retained by the proangiogenic microenvironment supports its exploitation as a novel biomarker and opens the path to explore new possibilities of therapeutic intervention aimed at targeting tumor blood vessels

Inducing cancer indolence by targeting mitochondrial Complex I is potentiated by blocking macrophage-mediated adaptive responses

Converting carcinomas in benign oncocytomas has been suggested as a potential anti-cancerstrategy. One of the oncocytoma hallmarks is the lack of respiratory complex I (CI). Herewe use genetic ablation of this enzyme to induce indolence in two cancer types, andshow this is reversed by allowing the stabilization of Hypoxia Inducible Factor-1 alpha(HIF-1α). We further show that on the long run CI-deficient tumors re-adapt to their inabilityto respond to hypoxia, concordantly with the persistence of human oncocytomas. Wedemonstrate that CI-deficient tumors survive and carry out angiogenesis, despite theirinability to stabilize HIF-1α. Such adaptive response is mediated by tumor associated mac-rophages, whose blockage improves the effect of CI ablation. Additionally, the simultaneouspharmacological inhibition of CI function through metformin and macrophage infiltrationthrough PLX-3397 impairs tumor growth in vivo in a synergistic manner, setting the basisfor an efficient combinatorial adjuvant therapy in clinical trials

Semaphorin 3A Suppresses Tumor Growth and Metastasis in Mice Melanoma Model

<div><h3>Background</h3><p>Recent understanding on cancer therapy indicated that targeting metastatic signature or angiogenic switch could be a promising and rational approach to combat cancer. Advancement in cancer research has demonstrated the potential role of various tumor suppressor proteins in inhibition of cancer progression. Current studies have shown that axonal sprouting inhibitor, semaphorin 3A (Sema 3A) acts as a potent suppressor of tumor angiogenesis in various cancer models. However, the function of Sema 3A in regulation of melanoma progression is not well studied, and yet to be the subject of intense investigation.</p> <h3>Methodology/Principal Findings</h3><p>In this study, using multiple <em>in vitro</em> and <em>in vivo</em> approaches we have demonstrated that Sema 3A acts as a potent tumor suppressor <em>in vitro</em> and <em>in vivo</em> mice (C57BL/6) models. Mouse melanoma (B16F10) cells overexpressed with Sema 3A resulted in significant inhibition of cell motility, invasiveness and proliferation as well as suppression of <em>in vivo</em> tumor growth, angiogenesis and metastasis in mice models. Moreover, we have observed that Sema 3A overexpressed melanoma clone showed increased sensitivity towards curcumin and Dacarbazine, anti-cancer agents.</p> <h3>Conclusions</h3><p>Our results demonstrate, at least in part, the functional approach underlying Sema 3A mediated inhibition of tumorigenesis and angiogenesis and a clear understanding of such a process may facilitate the development of novel therapeutic strategy for the treatment of cancer.</p> </div

Neuropilin-1 mediates PDGF stimulation of vascular smooth muscle cell migration and signalling via p130Cas

NRP1 (neuropilin-1) is a co-receptor for members of the VEGF (vascular endothelial growth factor) family in endothelial cells, but is increasingly implicated in signalling induced by other growth factors. NRP1 is expressed in VSMCs (vascular smooth muscle cells), but its function and the mechanisms involved are poorly understood. The present study aimed to determine, the role of NRP1 in the migratory response of HCASMCs (human coronary artery smooth muscle cells) to PDGF (platelet-derived growth factor), and to identify the signalling mechanisms involved. NRP1 is highly expressed in HAoSMCs (human aortic smooth muscle cells) and HCASMCs, and modified in VSMCs by CS (chondroitin sulfate)-rich O-linked glycosylation at Ser(612). HCASMC migration induced by PDGF-BB and PDGF-AA was inhibited by NRP1 siRNA (small interfering RNA), and by adenoviral overexpression of an NRP1 mutant lacking the intracellular domain (Ad.NRP1 Delta C). NRP1 co-immunoprecipitated with PDGFR alpha (PDGF receptor alpha), and immunofluorescent staining indicated that NRP1 and PDGFR alpha co-localized in VSMCs. NRP1 siRNA also inhibited PDGF-induced PDGFR alpha activation. NRP1-specific siRNA, Ad.NRP1 Delta C and removal of CS glycans using chondroitinase all inhibited PDGF-BB and -AA stimulation of tyrosine phosphorylation of the adapter protein, p130(Cas) (Cas is Crk-associated substrate), with little effect on other major signalling pathways, and p130(Cas) knockdown inhibited HCASMC migration. Chemotaxis and p130(Cas) phosphorylation induced by PDGF were inhibited by chondroitinase, and, additionally, adenoviral expression of a non-glycosylatable NRP1S612A mutant inhibited chemotaxis, but not p130(Cas) phosphorylation. These results indicate a role for NRP1 and NRP1 glycosylation in mediating PDGF-induced VSMC migration, possibly by acting as a co-receptor for PDGFR alpha and via selective mobilization of a novel p130(Cas) tyrosine phosphorylation pathway

The microenvironment in breast cancer progression: biology and implications for treatment

Breast cancer comprises a heterogeneous group of malignancies derived from the ductal epithelium. The microenvironment of these cancers is now recognized as a critical participant in tumor progression and therapeutic responses. Recent data demonstrate significant gene expression and epigenetic alterations in cells composing the microenvironment during disease progression, which can be explored as biomarkers and targets for therapy. Indeed, gene expression signatures derived from tumor stroma have been linked to clinical outcomes. There is increasing interest in translating our current understanding of the tumor microenvironment to the development of novel therapies

Semaphorin, neuropilin and VEGF expression in glial tumours: SEMA3G, a prognostic marker?

Gliomas are characterised by local infiltration, migration of tumour cells across long distances and sustained angiogenesis; therefore, proteins involved in these processes are most likely important. Such candidates are semaphorins involved in axon guidance and cell migration. In addition, semaphorins regulate tumour progression and angiogenesis. For cell signalling, class-4 semaphorins bind directly to plexins, whereas class-3 semaphorins require additional neuropilin (NRP) receptors that also bind VEGF165. The anti-angiogenic activity of class-3 semaphorins can be explained by competition with VEGF165 for NRP binding. In this study, we analysed the expressions of seven semaphorins of class-3, SEMA4D, VEGF and the NRP1 and NRP2 receptors in 38 adult glial tumours. In these tumours, SEMA3B, SEMA3G and NRP2 expressions were related to prolonged survival. In addition, SEMA3D expression was reduced in high-grade as compared with low-grade gliomas. In contrast, VEGF correlated with higher grade and poor survival. Thus, our data suggest a function for a subset of class-3 semaphorins as inhibitors of tumour progression, and the prognostic value of the VEGF/SEMA3 balance in adult gliomas. Moreover, in multivariate analysis, SEMA3G was found to be the only significant prognostic marker

Directed differentiation of embryonic stem cells using a bead-based combinatorial screening method

We have developed a rapid, bead-based combinatorial screening method to determine optimal combinations of variables that direct stem cell differentiation to produce known or novel cell types having pre-determined characteristics. Here we describe three experiments comprising stepwise exposure of mouse or human embryonic cells to 10,000 combinations of serum-free differentiation media, through which we discovered multiple novel, efficient and robust protocols to generate a number of specific hematopoietic and neural lineages. We further demonstrate that the technology can be used to optimize existing protocols in order to substitute costly growth factors with bioactive small molecules and/or increase cell yield, and to identify in vitro conditions for the production of rare developmental intermediates such as an embryonic lymphoid progenitor cell that has not previously been reported

Luftdruckschwankungen im Zug - kontinuierliche Bewertungen des Passagierkomforts in ICE-3 und Druckkammer

Insbesondere bei Tunneldurchfahrten entstehen Luftdruckänderungen am Zug, die sich je nach Grad der Abdichtung des Zuges ins Wageninnere fortpflanzen. Diese aerodynamischen Effekte können zu Diskomfort auf Seiten der Bahnreisenden führen, der als Druck auf den Ohren spürbar wird. Das DLR-Projekt „Next Generation Train“ verfolgt das Ziel, einen Zug der Zukunft so auszulegen, dass er neben erhöhter Sicherheit und Energieeffizienz auch einen erhöhten Komfort für die Passagiere bietet. Im Rahmen eines Messwiederholungsdesigns untersuchten wir 31 Probanden (Durchschnittsalter: 37.7, SD: 12.7) in einer Feldstudie auf der Neubaustrecke Köln-Rhein/Main sowie einer 1:1-Simulation der Feldfahrt in der Barokammer TITAN des DLR-Instituts für Luft- und Raumfahrtmedizin. Neben der Erfassung des derzeitigen Status quo des Druckkomforts für Bahnreisende strebten wir einen direkten Feld-Labor-Vergleich an, um Hinweise auf die ökologische Validität von Laborversuchen in der Druckkammer zu erhalten. Der Einsatz von Schiebereglern ermöglichte eine kontinuierliche Erfassung des aktuellen (Dis-)Komfortempfindens der Probanden. Durch zeitsynchrone Aufzeichnung der Druckverläufe konnten diese im Nachgang mit den Einstellungen an den Schiebereglern in Verbindung gebracht werden. Die aufgetretenen Druckänderungen werden mehrheitlich toleriert. Die Ergebnisse aus den beiden Versuchssettings unterscheiden sich nicht signifikant voneinander. Dieses Ergebnis stützt die ökologische Validität von Untersuchungen in der Barokammer TITAN. Ein Regressionsmodell (verallgemeinerte Schätzgleichung, GEE) erlaubt die Abschätzung des Effekts einzelner Druckänderungsparameter auf das (Dis-)Komfortempfinden. Neben Parametern einer aktuellen Druckänderung (hohe Amplitude, kurze Zeitdauer…) zeigt sich ein signifikanter Einfluss von unmittelbar vorausgegangenen Druckänderungen auf den aktuell empfundenen Grad an (Dis-)Komfort. Die Ergebnisse liefern wertvolle Einblicke, wie ein „Next Generation Train“ hinsichtlich seiner Dämpfungseigenschaften auszulegen ist, um einen ausreichenden Komfort in Bezug auf Luftdruckschwankungen zu gewährleisten