Marco Pucci

Cell Invasion Is Affected by Differential Expression of the Urokinase Plasminogen Activator/Urokinase Plasminogen Activator Receptor System in Muscle Satellite Cells from Normal and Dystrophic Patients

The aim of this study was to evaluate the differential expression and the function in cell movement and proliferation of the urokinase plasminogen activator (u-PA) system in muscle satellite cells (MSC) of normal individuals and patients with Duchenne muscular dystrophy (DMD). By immunoenzymatic, zymographic, and radioligand binding methods and by quantitative polymerase chain reaction of the specific mRNA we have shown that both normal and DMD MSC produce u-PA and the plasminogen activator inhibitor-1 and express u-PA receptors (u-PAR). During the proliferation phase of their growth-differentiation program, MSC from DMD patients show more u-PAR than their normal counterpart, produce more plasminogen activator inhibitor-1, and release low amounts of u-PA into the culture medium. By Boyden chamber Matrigel invasion assays we have shown that normal MSC are more prone than DMD cells to spontaneous invasion but, when subjected to a chemotactic gradient of u-PA, DMD MSC sense the ligand much better and to a greater extent than normal MSC. u-PA also stimulates proliferation of MSC, but no difference is observable between normal and DMD patients. Antagonization of u-PA/u-PAR interaction with specific anti–u-PA and anti–u-PAR monoclonal antibodies and with antisense oligonucleotides inhibiting u-PAR expression indicates that u-PA/u-PAR interaction is required in spontaneous and u-PA–induced invasion, as well as in u-PA–induced proliferation.

Antisense oligodeoxynucleotides for urokinase-plasminogen activator receptor have anti-invasive and anti-proliferative effects in vitro and inhibit spontaneous metastases of human melanoma in mice

We have targeted the urokinase‐type plasminogen activator receptor (uPAR) with phosphorothioate antisense oligonucleotides (aODN) in vitro to evaluate the anti‐invasive and anti‐proliferative effects of uPAR down‐regulation, as well as in vivo to evaluate anti‐tumor and anti‐metastatic activity. aODN‐dependent uPAR downregulation in vitro was induced in cells of human melanoma, mammary carcinoma, ovarian carcinoma and SV‐40‐transformed embryonic lung fibroblasts. uPAR was determined by an antibody‐based assay and by semiquantitative polymerase chain reaction. Cell invasion was evaluated by Matrigel invasion assay and cell proliferation by direct cell counting. aODN reduced uPAR, invasion and proliferation in all the treated cell lines. Following aODN treatment, human melanoma cells exhibited a strong decrease of uPAR‐dependent ERK1/2 activation and were used in vivo to control metastasis in CD‐1 male nude (nu/nu) mice by uPAR aODN injection. 60 mice were injected in the hind leg muscles with a suspension of 106 melanoma cells. After 4 days, when a tumor mass of about 350 mg was evident in all the mice injected, 20 mice were treated i.v. with aODN and 20 with dODN at 0.5 mg/day for 5 consecutive days. Twenty control mice were not treated. A second and third cycle of treatment was administered at 2‐day intervals. Treatment with aODN resulted into a 78% reduction of lung metastases and 45% reduction of the primary tumor mass with no loss of body weight. Our results suggest to evaluate the utility of uPAR aODN in controlling the metastatic spreading of human melanoma.

Beamforming for small cell deployment in LTE-advanced and beyond

Integrating the standard coverage of traditional macrocells with cells of reduced dimensions (i.e., small cells) is considered one of the main enhancements for Long Term Evolution systems. Small cells will be overlapped with macrocells and possibly also with each other in areas where wider coverage capability and higher throughput are needed. Such heterogeneous network deployment presents many potential benefits but also some challenges that need to be resolved. In particular, multi-antenna techniques and processing in the spatial domain will be key enabling factors to mitigate these issues. This article presents different small cell deployment approaches: sharing the same frequency bands with the macrocell, or using separated higher frequency bands. For each approach, the benefits of beamforming are discussed.

Endothelial cells and normal breast epithelial cells enhance invasion of breast carcinoma cells by CXCR-4-dependent up-regulation of urokinase-type plasminogen activator receptor (uPAR, CD87) expression.

Here we show the increase of invasion of three breast cancer cell lines (8701‐BC, MDA‐MB‐231 and SKBR3) upon long‐term co‐incubation with culture medium of normal microvascular endothelial cells (MVEC) and normal breast epithelial cells (HB2). The enhancement of invasion relied on the interaction of microvascular endothelial cell and normal breast epithelial cell CXCL12 (SDF1) chemokine, whose expression by breast cancer cells was very low, with the cognate CXCR4 receptor of malignant cells, which resulted in over‐expression of the urokinase‐type plasminogen activator receptor (uPAR) on their surfaces. uPAR over‐expression, showed by RT–PCR and Western blotting, was paralleled by increased urokinase‐type plasminogen activator (uPA) partitioning on the cell surface with respect to the fluid phase, as demonstrated by zymography. Long‐term interaction of SDF1 with CXCR4 stimulated sustained activation of JNK phosphorylation. Blocking antibodies to CXCR4 were able to block the endothelial/epithelial cell‐dependent enhancement of invasion, as well as to inhibit SDF1‐CXCR4‐dependent JNK phosphorylation and uPAR over‐expression of malignant cells. We suggest that acquisition of the angiogenic phenotype by breast cancer cells triggers an amplification loop, in which endothelial cells and normal breast epithelial cells of the tumour cooperate to provide facilitated routes to cell invasion and metastasis and to enhance the aggressive phenotype of cancer cells. Copyright

Systemic sclerosis fibroblasts inhibit in vitro angiogenesis by MMP-12-dependent cleavage of the endothelial cell urokinase receptor

Failure of endothelial cells to develop new vessels in response to hypoxia is a distinctive feature of systemic sclerosis (SSc) in the avascular phase. We have previously shown that SSc endothelial cells over‐express matrix metalloproteinase‐12 (MMP‐12), which blocks angiogenesis by cleavage of the endothelial urokinase‐type plasminogen activator receptor (uPAR). In the present study, we have investigated whether over‐expression of MMP‐12 and of angiostatic factors, or hypo‐expression of angiogenic factors by SSc fibroblasts, contributes to impaired angiogenesis in SSc. Dermal fibroblasts were isolated from healthy subjects (N‐Fb) and patients with diffuse SSc (SSc‐Fb). Angiogenesis of target normal human microvascular endothelial cells (H‐MVECs) was assayed by Matrigel invasion, cell proliferation, and capillary morphogenesis. uPAR cleavage and MMP‐12 activity were evaluated by western blotting. We show that the over‐expression of MMP‐12 by SSc‐Fb determines uPAR cleavage in H‐MVECs. Conditioned medium from SSc‐Fb impaired H‐MVEC proliferation, invasion, and capillary morphogenesis. Anti‐MMP‐12 antibodies restored such impairment. Altered expression of angiostatic/angiogenic factors, including transforming growth factor β1, did not account for SSc‐Fb‐dependent impairment of angiogenesis. The over‐expression of MMP‐12 by both SSc‐Fb and SSc endothelial cells indicates that MMP‐12 over‐production may have a critical pathogenic role in SSc‐associated vascular alterations. Copyright

Growth factor-dependent proliferation and invasion of muscle satellite cells require the cell-associated fibrinolytic system.

Abstract The process of muscle regeneration in normal and dystrophic muscle depends on locally produced cytokines and growth factors and requires the activity of the urokinase plasminogen activator/urokinase plasminogen activator receptor/plasminogen activator inhibitor-1 system. In this study we tested the effect of basic fibroblast growth factor (bFGF), hepatocyte growth factor (HGF) and transforming growth factorβ (TGFβ) on the fibrinolytic pattern of normal and dystrophic satellite cells, their mitogenic and motogenic activities and the dependence of such activities on the cellassociated fibrinolytic system. We have observed that the urokinase plasminogen activator (uPA) receptor is weakly upregulated by bFGF in normal satellite cells, while it is strongly upregulated by TGFβ, mainly in dystrophic myoblasts. bFGF upregulated uPA in both normal and dystrophic myoblasts grown in primary culture, while a striking downregulation was observed with TGFβ. TGFβ was the only growth factor able to exceptionally upregulate plasminogen activator inhibitor-1 (PAI-1), mainly in dystrophic satellite cells. HGF did not show any activity on the fibrinolytic system. Proliferation and invasion into Matrigel matrices of normal and dystrophic cells occurred regardless of the growth factordependent regulation of the fibrinolytic system. Nevertheless, each growth factor required the efficiency of the constitutive cellassociated fibrinolytic system to operate, as shown by impairment of growth factor activity with antagonists of uPA and of its receptor. Noteworthy, TGFβ induced a dosedependent increase of Matrigel invasion only in dystrophic myoblasts. Since TGFβchallenged dystrophic myoblasts undergo an exceptional upregulation of the receptor and of PAI-1, we propose the possibility that the TGFβinduced fibrinolytic pattern (low urokinase plasminogen activator, high receptor and high PAI-1) may be exploited to promote survival and spreading of transplanted engineered myoblasts in Duchenne muscular dystrophy.

The Mr 17 500 region of the A chain of urokinase is required for interaction with a specific receptor in A431 cells

We have found the existence of specific receptors for the plasminogen activator, urokinase, in A431 human epidermoid carcinoma cells, cultures in plasminogen-free conditions. Two subsets of receptors have been recognized on the basis of 125I-labelled urokinase binding analysis: about 1 X 10(3) high-affinity (Kd = 5.0 X 10(-11) M) and 1 X 10(5) low-affinity (Kd = 9 X 10(-9) M) receptors per cell. The electron microscopic observation of a urokinase: ferritin conjugate has shown single and clustered receptors at the cell surface. Down-regulation of the receptors (T1/2 = 3.77 h) follows the binding of urokinase. The binding does not involve an intact catalytic site and is inhibited by a monoclonal antibody against the Mr 17500 proteolytic fragment of the A chain of urokinase.

TGFβ1 antagonistic peptides inhibit TGFβ1-dependent angiogenesis

The role of transforming growth factor beta (TGFbeta) in tumor promotion and in angiogenesis is context-dependent. While TGFbeta prevents tumor growth and angiogenesis in early phases of tumor development, evidence is accumulating about its pro-angiogenic and tumor promotion activities in late-stages of tumor progression. Here we have studied, in an experimental context previously reported to disclose the pro-angiogenic effects of TGFbeta, the blocking activity of TGFbeta antagonist peptides. In agreement with previous results, we have observed that TGFbeta exerts a powerful pro-angiogenic activity on human normal dermal microvascular endothelial cells (MVEC), by promoting invasion and capillary morphogenesis in Matrigel. No apoptotic activity of TGFbeta was observed. By RT-PCR we have shown that TGFbeta up-regulates expression not only of plasminogen activator inhibitor type-1 (PAI-1), but also of the urokinase-type plasminogen activator receptor (uPAR), whose inhibition by specific antibodies blunted the TGFbeta angiogenic response in vitro. The SMAD2/3 and FAK signaling pathways were activated by TGFbeta in MVEC, as an early and late response, respectively. The use of two different TGFbeta1 antagonist peptides, derived from TGFbeta type III receptor sequence and 15-mer phage display technology, inhibited the signaling and pro-angiogenic response in vitro, as well as uPAR and PAI-1 up-regulation of MVEC following TGFbeta challenge. The anti-angiogenic properties of both inhibitors were evident also in the in vivo TGFbeta Matrigel Sponge Assay. These results may be relevant to develop a potentially fruitful strategy for the therapy of late-stage-associated tumor angiogenesis.

Transforming Growth Factor Beta-1 Stimulates Invasivity of Hepatic Stellate Cells by Engagement of the Cell-associated Fibrinolytic System

The activation of hepatic stellate cells (HSC) during liver fibrogenesis has been shown to be mediated by paracrine and autocrine loops involving transforming growth factor-β1 (TGF-β1) as the main fibrogenic mediator secreted by activated macrophages, endothelial cells and liberated by disintegrated platelets. The cell-associated plasminogen activation system regulates extracellular matrix (ECM) catabolism and cell movement. We have studied whether TGF-β1 could modulate the plasminogen activation system in human HSC and the role of such protease system in the activity of TGF-β1 on HSC. Urokinase plasminogen activator receptors (u-PAR), u-PA and plasminogen activator inhibitor type 1 (PAI-1) were determined by immunoassay and RNase protection assay. Cell migration, evaluated either as chemotaxis or as chemoinvasion, was studied in Boyden chambers after addition of TGF-β1, and inhibition with anti-u-PA and anti-u-PAR antagonists [antibodies against u-PA and u-PAR and antisense oligonucleotides (aODN) against u-PAR mRNA]. We have shown that TGF-β1 is not mitogenic for HSC, while it is a powerful motogen either in chemotaxis or chemoinvasion assays. TGF-β1 up-regulates the synthesis and expression of PAI-1, as well as u-PAR expression and exposure at the cell membrane, while it does not affect u-PA levels. TGF-β1-dependent chemoinvasion of reconstituted basement membrane exploits the cell-associated plasminogen activation system, since it is blocked by monoclonal antibodies against u-PA and against various u-PAR domains, as well as by anti-u-PAR aODN. We have also observed a cumulative effect of TGF-β1, b-FGF and PDGF in the invasion assay of HSC: in the presence of low amounts of TGF-β1 the chemoinvasive activity of PDGF and bFGF is dramatically increased. Also this cooperation requires u-PAR and is inhibited by monoclonal antibodies against u-PAR domains I, II and III.

TGFbeta1 antagonistic peptides inhibit TGFbeta1-dependent angiogenesis.

The role of transforming growth factor beta (TGFbeta) in tumor promotion and in angiogenesis is context-dependent. While TGFbeta prevents tumor growth and angiogenesis in early phases of tumor development, evidence is accumulating about its pro-angiogenic and tumor promotion activities in late-stages of tumor progression. Here we have studied, in an experimental context previously reported to disclose the pro-angiogenic effects of TGFbeta, the blocking activity of TGFbeta antagonist peptides. In agreement with previous results, we have observed that TGFbeta exerts a powerful pro-angiogenic activity on human normal dermal microvascular endothelial cells (MVEC), by promoting invasion and capillary morphogenesis in Matrigel. No apoptotic activity of TGFbeta was observed. By RT-PCR we have shown that TGFbeta up-regulates expression not only of plasminogen activator inhibitor type-1 (PAI-1), but also of the urokinase-type plasminogen activator receptor (uPAR), whose inhibition by specific antibodies blunted the TGFbeta angiogenic response in vitro. The SMAD2/3 and FAK signaling pathways were activated by TGFbeta in MVEC, as an early and late response, respectively. The use of two different TGFbeta1 antagonist peptides, derived from TGFbeta type III receptor sequence and 15-mer phage display technology, inhibited the signaling and pro-angiogenic response in vitro, as well as uPAR and PAI-1 up-regulation of MVEC following TGFbeta challenge. The anti-angiogenic properties of both inhibitors were evident also in the in vivo TGFbeta Matrigel Sponge Assay. These results may be relevant to develop a potentially fruitful strategy for the therapy of late-stage-associated tumor angiogenesis.