Endothelial cell-derived Pentraxin 3 limits the vasoreparative therapeutic potential of Circulating Angiogenic Cells

AIMS: Circulating Angiogenic Cells (CACs) promote revascularization of ischemic tissues although their underlying mechanism of action and the consequences of delivering varying numbers of these cells for therapy remain unknown. This study investigates molecular mechanisms underpinning CAC modulation of blood vessel formation.

METHODS & RESULTS: CACs at low (2x10(5)cells/ml) and mid (2x10(6)cells/ml) cellular densities significantly enhanced endothelial cell (EC) tube formation in vitro, while high density CACs (2x10(7)cells/ml) significantly inhibited this angiogenic process. In vivo, Matrigel-based angiogenesis assays confirmed mid-density CACs as pro-angiogenic and high density CACs as anti-angiogenic. Secretome characterization of CAC-EC conditioned media identified pentraxin 3 (PTX3) as only present in the high density CAC-EC co-culture. Recombinant PTX3 inhibited endothelial tube formation in vitro and in vivo Importantly, our data revealed that the anti-angiogenic effect observed in high density CAC-EC co-cultures was significantly abrogated when PTX3 bioactivity was blocked using neutralizing antibodies or PTX3 siRNA in endothelial cells. We show evidence for an endothelial source of PTX3, triggered by exposure to high density CACs. In addition, we confirmed that PTX3 inhibits FGF2-mediated angiogenesis, and that the PTX3 N-terminus, containing the FGF-binding site, is responsible for such anti-angiogenic effects.

CONCLUSIONS: Endothelium, when exposed to high density CACs, releases PTX3 which markedly impairs the vascular regenerative response in an autocrine manner. Therefore, CAC density and accompanying release of angiocrine PTX3 are critical considerations when using these cells as a cell therapy for ischemic disease.

Image-Guided Precision Manipulation of Cells and Nanoparticles in Microfluidics

Manipulation of single cells and particles is important to biology and nanotechnology. Our electrokinetic (EK) tweezers manipulate objects in simple microfluidic devices using gentle fluid and electric forces under vision-based feedback control. In this dissertation, I detail a user-friendly implementation of EK tweezers that allows users to select, position, and assemble cells and nanoparticles. This EK system was used to measure attachment forces between living breast cancer cells, trap single quantum dots with 45 nm accuracy, build nanophotonic circuits, and scan optical properties of nanowires. With a novel multi-layer microfluidic device, EK was also used to guide single microspheres along complex 3D trajectories. The schemes, software, and methods developed here can be used in many settings to precisely manipulate most visible objects, assemble objects into useful structures, and improve the function of lab-on-a-chip microfluidic systems.

The Influence of Age, Cardiorespiratory Fitness, Exercise and Sedentary Behaviours on Circulating Angiogenic Cells and Cell Surface Receptor Expression.

Cardiovascular disease (CVD) is the biggest killer of people in western civilisation. Age is a significant risk factor for the development for CVD, and treatments and therapies to address this increased risk are crucial to quality of life and longevity. Exercise is one such intervention which has been shown to reduce CVD risk. Age is also associated with endothelial dysfunction, reduced angiogenic capabilities, and reduced ability to repair the vessel wall. Circulating angiogenic cells (CACs) are a subset of circulating cells which assist in the repair and growth of the vasculature and in the maintenance of endothelial function. Reductions in these cells are observed in those with vascular disease compared to age-matched healthy controls. Exercise may reduce CVD risk by improvements in number and/or function of these CACs. Data was collected from human volunteers of various ages, cardiorespiratory fitness (CRF) levels and latent viral infection history status to investigate the effects of chronological age, CRF, viral serology and other lifestyle factors, such as sedentary behaviours and exercise on CACs. The levels of CACs in these volunteers were measured using four colour flow cytometry using various monoclonal antibodies specific to cell surface markers that are used to identify specific subsets of these CACs. In addition, the response to acute exercise of a specific subset of these CACs, termed ‘angiogenic T-cells’ (TANG) were investigated, in a group of well-trained males aged 20-40 years, using a strenuous submaximal exercise bout. Advancing age was associated with a decline in various subsets of CACs, including bone marrow-derived CD34+ progenitors, putative endothelial progenitor cells (EPCs) and also TANG cells. Individuals with a higher CRF were more likely to have higher circulating numbers of TANG cells, particularly in the CD4+ subset. CRF did not appear to modulate CD34+ progenitors or EPC subsets. Increasing sitting time was associated with reduction in TANG cells, but after correcting for the effects of fitness, sitting time no longer negatively affected the circulating number of these cells. Acute exercise was a powerful stimulus for increasing the number of TANG cells (140% increase), potentially through an SDF-1:CXCR4-dependent mechanism, but more studies are required to investigate this. Latent CMV infection was associated with higher number of TANG cells (CD8+), but only in 18-40 year old individuals, and not in an older age group (41-65 year old). The significance of this has yet to be understood. In conclusion, advancing age may contribute to increased CVD risk partly due to the observed reductions in angiogenic cells circulating in the peripheral compartment. Maintaining a high CRF may attenuate this CVD reduction by modulating TANG cell number, but potentially not CD34+ progenitor or EPC subsets. Acute exercise may offer a short window for vascular adaptation through the mobilisation of TANG cells into the circulation.

Nanocomposite polymer beads for cell detection

Circulating tumor cells (CTCs) may induce metastases when detached from the primary tumor. The numbers of these cells in blood offers a valuable prognostic indication. Magnetoresistive sensing is an attractive option for CTC counting. In this technique, cells are labeled with nancomposite polymer beads that provide the magnetic signal. Bead properties such as size and magnetic content must be optimized in order to be used as a detection tool in a magnetoresistive platform. Another important component of the platform is the magnet required for proper sensing. Both components are addressed in this work. Nanocomposite polymer beads were produced by nano-emulsion and membrane emulsification. Formulations of the oil phase comprising a mixture of aromatic monomers and iron oxide were employed. The effect of emulsifier (surfactant) concentration on bead size was studied. Formulations of polydimethilsiloxane (PDMS) with different viscosities were also prepared with nano-emulsion method resulting in colloidal beads. Polycaprolactone (PCL) beads were also synthetized by the membrane emulsification method. The beads were characterized by different techiques such as dynamic light scattering (DLS), thermogravimetric analysis (TGA) and scanning electron microscopy (SEM). Additionally, the magnet dimensions of the platform designed to detect CTCs were optimized through a COMSOL multiphysics simulation.

EMT and EGFR in CTCs cytokeratin negative non-metastatic breast cancer.

Circulating tumor cells (CTCs) are frequently associated with epithelial-mesenchymal transition (EMT).The objective of this study was to detect EMT phenotype through Vimentin (VIM) and Slug expression in cytokeratin (CK)-negative CTCs in non-metastatic breast cancer patients and to determine the importance of EGFR in the EMT phenomenon. In CK-negative CTCs samples, both VIM and Slug markers were co-expressed in the most of patients. Among patients EGFR+, half of them were positive for these EMT markers. Furthermore, after a systemic treatment 68% of patients switched from CK- to CK+ CTCs. In our experimental model we found that activation of EGFR signaling by its ligand on MCF-7 cells is sufficient to increase EMT phenotypes, to inhibit apoptotic events and to induce the loss of CK expression. The simultaneous detection of both EGFR and EMT markers in CTCs may improve prognostic or predictive information in patients with operable breast cancer.

Hypoxia and vasculature in models of lung cancer: implications for targeted therapeutics

Estudi realitzat a partir d’una estada a la Stanford University School of Medicine. Division of Radiation Oncology, Estats Units, entre 2010 i 2012. Durant els dos anys de beca postdoctoral he estat treballant en dos projectes diferents. En primer lloc, i com a continuació d'estudis previs del grup, volíem estudiar la causa de les diferències en nivells d'hipòxia que havíem observat en models de càncer de pulmó. La nostra hipòtesi es basava en el fet que aquestes diferències es devien a la funcionalitat de la vasculatura. Vam utilitzar dos models preclínics: un en què els tumors es formaven espontàniament als pulmons i l'altre on nosaltres injectàvem les cèl•lules de manera subcutània. Vam utilitzar tècniques com la ressonància magnètica dinàmica amb agent de contrast (DCE-MRI) i l'assaig de perfusió amb el Hoeschst 33342 i ambdues van demostrar que la funcionalitat de la vasculatura dels tumors espontanis era molt més elevada comparada amb la dels tumors subcutanis. D'aquest estudi, en podem concloure que les diferències en els nivells d'hipòxia en els diferents models tumorals de càncer de pulmó podrien ser deguts a la variació en la formació i funcionalitat de la vasculatura. Per tant, la selecció de models preclínics és essencial, tant pels estudi d'hipòxia i angiogènesi, com per a teràpies adreçades a aquests fenòmens. L'altre projecte que he estat desenvolupant es basa en l'estudi de la radioteràpia i els seus possibles efectes a l’hora de potenciar l'autoregeneració del tumor a partir de les cèl•lules tumorals circulants (CTC). Aquest efecte s'ha descrit en alguns models tumorals preclínics. Per tal de dur a terme els nostres estudis, vam utilitzar una línia tumoral de càncer de mama de ratolí, marcada permanentment amb el gen de Photinus pyralis o sense marcar i vam fer estudis in vitro i in vivo. Ambdós estudis han demostrat que la radiació tumoral promou la invasió cel•lular i l'autoregeneració del tumor per CTC. Aquest descobriment s'ha de considerar dins d'un context de radioteràpia clínica per tal d'aconseguir el millor tractament en pacients amb nivells de CTC elevats.

La performance diagnostique des marqueurs tumoraux messagers dans le diagnostic et le suivi du cancer du sein

Selon plusieurs évidences, la présence de cellules tumorales occultes dans la circulation sanguine aux premières étapes du cancer du sein pourrait être à l’origine des lésions métastasiques. Plusieurs études de recherche ont montré que l’utilisation de la RT-PCR en temps réel pour la détection des cellules tumorales circulantes CTC offre la meilleure sensibilité dans la quantification des marqueurs tumoraux. Présentement de routine, le suivi du cancer du sein est réalisé par le dosage immunologique des marqueurs sériques CA15-3 et CEA. Cependant, la faible sensibilité de ces marqueurs aux stades précoces de la maladie et leur manque de spécificité tissulaire ne permet pas leur utilisation pour le diagnostic et le pronostic du cancer du sein. Le diagnostic de la maladie est plutôt basé sur l’analyse d’une biopsie de la tumeur ou des ganglions lymphatiques, des méthodes invasives, coûteuses et peu adaptées pour un suivi de routine dans l’évaluation du risque de rechute et de la réponse au traitement. Malgré les études, la détection de ces cellules dans les laboratoires hospitaliers est rare. Nous avons envisagé de mettre en place un nouveau test RT-PCR pour la détection de cellules malignes du cancer du sein dans la circulation. La spécificité et la sensibilité de plusieurs marqueurs potentiels ont été comparées. Le but ultime de ce projet est d’offrir la détection d’un ou d’une combinaison de ces marqueurs de routine aux patientes. Nos résultats montrent une corrélation positive entre l’expression des ARNm des marqueurs CK19 et de HER2 avec les données cliniques des patientes. De plus, la sensibilité et la spécificité des tests RT-PCR sont comparables à la littérature récente. Finalement, la comparaison de notre test avec le dosage immunologique des marqueurs tumoraux sériques CA15.3 et CEA a montré que la détection de la CK19 et de HER2 par RT-PCR est plus sensible chez les patientes de cancer du sein métastatique.

Angiotensin II Facilitates Breast Cancer Cell Migration and Metastasis

Breast cancer metastasis is a leading cause of death by malignancy in women worldwide. Efforts are being made to further characterize the rate-limiting steps of cancer metastasis, i.e. extravasation of circulating tumor cells and colonization of secondary organs. In this study, we investigated whether angiotensin II, a major vasoactive peptide both produced locally and released in the bloodstream, may trigger activating signals that contribute to cancer cell extravasation and metastasis. We used an experimental in vivo model of cancer metastasis in which bioluminescent breast tumor cells (D3H2LN) were injected intra-cardiacally into nude mice in order to recapitulate the late and essential steps of metastatic dissemination. Real-time intravital imaging studies revealed that angiotensin II accelerates the formation of metastatic foci at secondary sites. Pre-treatment of cancer cells with the peptide increases the number of mice with metastases, as well as the number and size of metastases per mouse. In vitro, angiotensin II contributes to each sequential step of cancer metastasis by promoting cancer cell adhesion to endothelial cells, trans-endothelial migration and tumor cell migration across extracellular matrix. At the molecular level, a total of 102 genes differentially expressed following angiotensin II pretreatment were identified by comparative DNA microarray. Angiotensin II regulates two groups of connected genes related to its precursor angiotensinogen. Among those, up-regulated MMP2/MMP9 and ICAM1 stand at the crossroad of a network of genes involved in cell adhesion, migration and invasion. Our data suggest that targeting angiotensin II production or action may represent a valuable therapeutic option to prevent metastatic progression of invasive breast tumors.

Marcatori molecolari circolanti: quale ruolo nei pazienti con tumori solidi?

Background: Circulating tumor cells (CTCs) and circulating free plasma DNA (FPDNA) have been proposed as biomarkers predictive of outcome and response to therapy in solid tumors. We investigated the multiple associations of the presence of CTC and the levels of FPDNA with the outcome and/or the response to chemotherapy in patients with localized breast cancer (LBC), metastatic breast cancer (MBC) and advanced ovarian cancer (AOC). Experimental Design: Blood samples were collected before (baseline), during and after therapy in 40 LBC and 50 AOC patients treated with neo-adjuvant chemotherapy. In 20 MBC patients blood was sampled at baseline and every each cycle of adjuvant chemotherapy. Real time PCR was applied to quantify FPDNA using the Quantifiler Human Quantification kit and CTCs through the detection of tumor-cell specific mRNA levels with or without epithelial enrichment. Results: At baseline CTCs were detected in 90% MBC, 42.5% LBC and 33% AOC patients respectively. The presence of baseline CTC was significantly associated with shorter overall survival (OS) in MBC and AOC patients, and shorter progression free survival (PFS) in LBC patients. Presence of CTCs at the end of neo-adjuvant chemotherapy was detected in 42% LBC and 18% AOC patients and was associated with shorter PFS and OS only in LBC. Increased FPDNA levels at baseline were found in 65% MBC, 17.5% LBC and 76% AOC patients but never related to OS. Baseline FPDNA high levels were associated with shorter PFS only in LBC patients. High FPDNA levels after neo-adjuvant chemotherapy were detected in 57% LBC and 48% AOC patients. Increased FPDNA after neo-adjuvant was associated with response to therapy and shorter PFS in AOC patients. Conclusions: Detection of CTCs may represent a prognostic and predictive biomarker in LBC, MBC and AOC. Quantification of FPDNA could be useful for monitoring response to therapy in AOC patients.

Pharmakologische Hemmung strahleninduzierter Tumorzell-Endothelzell-Interaktionen in vitro und Metastasierungsprozesse in vivo

Exposition von Endothelzellen mit ionisierender Strahlung (IR) oder Behandlung mit inflammatorischen Zytokinen (z. B. TNFa) induziert über eine Rho-GTPasen abhängige NF-kB-Aktivierung die Expression verschiedener Zelladhäsionsmoleküle, u. a. auch von E-Selektin. E-Selektin vermittelt die Adhäsion von Tumorzellen (TC) an Endothelzellen und ist daher vermutlich an der Extravasation von zirkulierenden Tumorzellen beteiligt. HMG-CoA-Reduktase-Inhibitoren (Statine), welche eine breite klinische Anwendung als Lipidsenker erfahren, sind in der Lage, Rho-GTPasen und die durch sie vermittelten Signalwege zu hemmen. Daher sollten Statine wie Lovastatin auch Zell-Zell-Adhäsionsvorgänge beeinflussen. Die vorliegende Arbeit widmet sich den Mechanismen, mit denen IR und TNF in Endothel- und/oder Tumorzellen pro-adhäsive Faktoren induzieren können und ob diese Effekte durch Lovastatin beeinflussbar sind. Zu diesem Zweck wurde mittels eines ELISA-basierenden Zelladhäsions-Assays die Auswirkung von IR und TNF auf Zell-Zell-Kontakte zwischen humanen Tumorzellen (u. a. Kolonkarzinomzellen (HT29)) und humanen, venösen Nabelschnurendothelzellen (HUVEC) analysiert. Zudem wurden die Effekte einer Lovastatinvorbehandlung von TC und/oder HUVEC auf TC-HUVEC-Adhäsion untersucht. Des Weiteren wurden die Wirkungen des sLex-Mimetikums Glycyrrhizin und des Rac1-spezifischen „small-molecule“ Inhibitors NSC23766 auf TC-HUVEC-Adhäsion überprüft. Zusätzlich wurde die strahleninduzierbare mRNA-Expression von diversen Zelladhäsionsmolekülen, Metastasierungsfaktoren und DNA-Reparatur-Genen mittels qRT-PCR (Real-Time Analysen) quantitativ erfasst. Um die erhaltenen in vitro Ergebnisse auch in vivo zu bestätigen, untersuchten wir den Effekt einer Ganzkörperbestrahlung (TBI) von BALB/c-Mäusen auf die Expression von pro-adhäsiven Faktoren. Zur Analyse der Tumorzell-Extravasation wurden Tumorzellen in die laterale Schwanzvene immundefizienter Mäuse injiziert und anschließend eine Ganzkörperbestrahlung durchgeführt (4 Gy). Nach einer Wartezeit von 4 Wochen wurde ein erhöhtes Auftreten von Lungenmetastasen beobachtet, welches durch Vorbehandlung der Tiere mit Statinen, NSC23766 oder Glycyrrhizin blockiert werden konnte. Zusammenfassend konnte somit ein Einfluss von IR auf die Expression verschiedener Zelladhäsionsmoleküle in vitro und auf die Extravasation zirkulierender Tumorzellen in vivo festgestellt werden. Diese pro-metastatischen Strahleneffekte konnten durch pharmakologische Hemmung Rho-regulierter Signalwege abgeschwächt werden.

COX-2 expression in operable triple negative breast cancer: A hospital based cross-sectional study

Objectives. Triple Negative Breast Cancer (TNBC) lack expression of estrogen receptors (ER), progesterone receptors (PR), and absence of Her2 gene amplification. Current literature has identified TNBC and over-expression of cyclo-oxygenase-2 (COX-2) protein in primary breast cancer to be independent markers of poor prognosis in terms of overall and distant disease free survival. The purpose of this study was to compare COX-2 over-expression in TNBC patients to those patients who expressed one or more of the three tumor markers (i.e. ER, and/or PR, and/or Her2).^ Methods. Using a secondary data analysis, a cross-sectional design was implemented to examine the association of interest. Data collected from two ongoing protocols titled "LAB04-0657: a model for COX-2 mediated bone metastasis (Specific aim 3)" and "LAB04-0698: correlation of circulating tumor cells and COX-2 expression in primary breast cancer metastasis" was used for analysis. A sample of 125 female patients was analyzed using Chi-square tests and logistic regression models. ^ Results. COX-2 over-expression was present in 33% (41/125) and 28% (35/124) patients were identified as having TNBC. TNBC status was associated with elevated COX-2 expression (OR= 3.34; 95% CI= 1.40–8.22) and high tumor grade (OR= 4.09; 95% CI= 1.58–10.82). In a multivariable analysis, TNBC status was an important predictor of COX-2 expression after adjusting for age, menopausal status, BMI, and lymph node status (OR= 3.31; 95% CI: 1.26–8.67; p=0.01).^ Conclusion. TNBC is associated with COX-2 expression—a known marker of poor prognosis in patients with operable breast cancer. Replication of these results in a study with a larger sample size, or a future randomized clinical trial demonstrating an improved prognosis with COX-2 suppression in these patients would support this hypothesis.^

Anti-tumor therapy with macroencapsulated endostatin producer cells

Background: Theracyte is a polytetrafluoroethylene membrane macroencapsulation system designed to induce neovascularization at the tissue interface, protecting the cells from host's immune rejection, thereby circumventing the problem of limited half-life and variation in circulating levels. Endostatin is a potent inhibitor of angiogenesis and tumor growth. Continuous delivery of endostatin improves the efficacy and potency of the antitumoral therapy. The purpose of this study was to determine whether recombinant fibroblasts expressing endostatin encapsulated in Theracyte immunoisolation devices can be used for delivery of this therapeutic protein for treatment of mice bearing B16F10 melanoma and Ehrlich tumors. Results: Mice were inoculated subcutaneously with melanoma (B16F10 cells) or Ehrlich tumor cells at the foot pads. Treatment began when tumor thickness had reached 0.5 mm, by subcutaneous implantation of 10(7) recombinant encapsulated or non-encapsulated endostatin producer cells. Similar melanoma growth inhibition was obtained for mice treated with encapsulated or non-encapsulated endostatin-expressing cells. The treatment of mice bearing melanoma tumor with encapsulated endostatin-expressing cells was decreased by 50.0%, whereas a decrease of 56.7% in tumor thickness was obtained for mice treated with non-encapsulated cells. Treatment of Ehrlich tumor-bearing mice with non-encapsulated endostatin-expressing cells reduced tumor thickness by 52.4%, whereas lower tumor growth inhibition was obtained for mice treated with encapsulated endostatin-expressing cells: 24.2%. Encapsulated endostatin-secreting fibroblasts failed to survive until the end of the treatment. However, endostatin release from the devices to the surrounding tissues was confirmed by immunostaining. Decrease in vascular structures, functional vessels and extension of the vascular area were observed in melanoma microenvironments. Conclusions: This study indicates that immunoisolation devices containing endostatin-expressing cells are effective for the inhibition of the growth of melanoma and Ehrlich tumors. Macroencapsulation of engineered cells is therefore a reliable platform for the refinement of innovative therapeutic strategies against tumors.

Fc block treatment, dead cells exclusion, and cell aggregates discrimination concur to prevent phenotypical artifacts in the analysis of subpopulations of tumor-infiltrating CD11b(+) myelomonocytic cells.

It is well established that cancer cells can recruit CD11b(+) myeloid cells to promote tumor angiogenesis and tumor growth. Increasing interest has emerged on the identification of subpopulations of tumor-infiltrating CD11b(+) myeloid cells using flow cytometry techniques. In the literature, however, discrepancies exist on the phenotype of these cells (Coffelt et al., Am J Pathol 2010;176:1564-1576). Since flow cytometry analysis requires particular precautions for accurate sample preparation and trustable data acquisition, analysis, and interpretation, some discrepancies might be due to technical reasons rather than biological grounds. We used the syngenic orthotopic 4T1 mammary tumor model in immunocompetent BALB/c mice to analyze and compare the phenotype of CD11b(+) myeloid cells isolated from peripheral blood and from tumors, using six-color flow cytometry. We report here that the nonspecific antibody binding through Fc receptors, the presence of dead cells and cell doublets in tumor-derived samples concur to generate artifacts in the phenotype of tumor-infiltrating CD11b(+) subpopulations. We show that the heterogeneity of tumor-infiltrating CD11b(+) subpopulations analyzed without particular precautions was greatly reduced upon Fc block treatment, dead cells, and cell doublets exclusion. Phenotyping of tumor-infiltrating CD11b(+) cells was particularly sensitive to these parameters compared to circulating CD11b(+) cells. Taken together, our results identify Fc block treatment, dead cells, and cell doublets exclusion as simple but crucial steps for the proper analysis of tumor-infiltrating CD11b(+) cell populations.