Contribution of proteomics to understanding the role of tumor-derived exosomes in cancer progression: State of the art and new perspectives

Exosomes are nanometer-sized vesicles (40–100 nm diameter) of endocytic origin released from different cell types under both normal and pathological conditions. They function as cell free messengers, playing a relevant role in the cell–cell communication that is strongly related to the nature of the molecules (proteins, mRNAs, miRNAs, and lipids) that they transport. Tumor cells actively shed exosomes into their surrounding microenvironment and growing evidence indicates that these vesicles have pleiotropic functions in the regulation of tumor progression, promoting immune escape, tumor invasion, neovascularization, and metastasis. During the last few years remarkable efforts have been made to obtain an accurate definition of the protein content of tumor-derived exosomes (TDEs) by applying MS-based proteomic technologies. To date, TDEs proteomic studies have been mainly utilized to catalog TDEs proteins with the purpose of identifying disease biomarkers. The future challenge for improving our understanding and characterization of TDEs will be the implementation of new systemsdriven and proteomic integrative strategies. The aim of this article is to provide an overview of the most characterized exosomes-mediated mechanisms that contribute to the pathogenesis of cancer and to review recent proteomics data that support the protumorigenic role of TDEs

Application of an immunoproteomic approach to detect anti-profilin antibodies in sera of paritaria judaica allergic patients

Pollen from grasses, weeds, and trees constitutes one of the main sources of inhalant allergens frequently associated with seasonal patterns of allergic diseases. Pollen allergens show some analogies in the amino acids sequence which determine immunological similarity and cross reactivity. Parietaria judaica (P.j) pollen represents one of the main sources of allergens in the Mediterranean area and its major allergens have already been identified (Par j 1 and Par j 2). Recently, has been also described a minor allergen, profilin (Par j 3), an allergen present in pollen of trees, grasses and weeds. Allergenic plant profilins constitute a highly conserved family with sequence identities of 70% to 85% responsible for a wide range of cross-reactivity among pollens and plant foods. In this work we use an immunoproteomic approach to detect IgE antibodies against profilin in serum of P.j allergic patients

Shed vesicles are involved in the release of some leaderless proteins.

Most proteins destined for secretion in the extracellular matrix are characterized by the presence of N-terminal signal peptides which direct their translocation into the endoplasmic reticulum, they are subsequently transferred to the Golgi apparatus and then secreted in the extracellular space. A growing number of secreted proteins, are being identified which, however, lack signal peptides allowing their entrance into the endoplasmic reticulum. They include the inflammatory cytokine interleukin 1b, galactins, macrophage migration inhibitory factor (MIF), acid and basic fibroblast growth factors (FGF-1, FGF-2) and Sphingosine kinase1(SphK-1). These proteins are secreted from the cell by unconventional processes which are the subject of numerous studies. Several types of normal and tumor cells can release in the extracellular medium microvesicles, called esovesicles, which result from budding of their plasma membranes. The vesicle diameter ranges between 100nm and 1000nm, the vesicle composition and function depends on the kind of the cell from which they have been produced. We already reported that FGF-2, a secreted lectin that transmits proangiogenic signals, and which is recognized as a potential oncoprotein able to modulate tumour growth and malignancy (Sorensen et al 2006), is released from SkHep1 cells, and from transfected NIH 3T3 cells through vesicle shedding (Taverna et al.2003). Now we are trying to elucidate the intracellular route followed by the growth factor from the site of synthesis to vesicles budding from the cell membrane. Actin filaments appear to be a binary for this intracellular trafficking. After 6h of treatment with cytocalasine, a drug that interferes with actin polymerization, the amount of vesicles was in fact decreased and FGF-2 clustering in granules localized near the cell surface was avoided. On the contrary no effects were observed when cells were treated with drugs which interfere with microtubule polymerization or de-polymerization. We also observed that FGF-2 granules are not included in lipid-coated vesicles. We are also analyzing the possibility that esovesicles are involved in the secretion of another leader-less signalling protein: Sphingosine kinase1 (SphK1). SphK1 has been shown to regulate a wide variety of cellular processes, including promotion of cell proliferation, survival and motility (Spiegel et al. 2003). SphK1 is primarily localized in the cytosol; when a signal induces the phosphorylation of Ser 225 of SphK1 through the activation of MAPK and ERK1/2, the molecule is translocated in plasma membranes and the involvement of actin filaments in its targeting has been reported (Pitson et. al. 2003). Three SphK1 isoforms having a different number of amino acids (384, 398 and 470) have been identified, we found that extracellular vesicles are enriched in the 47kDa isoform. SphK assays with TLC confirm that the enzyme is present in shed vesicles and that it has enzymatic activity. The substrate Sphingosine is also present in esovesicles therefore shed vesicles are likely to be a site of Sphingosine 1 Phosphate production

Proteomic analysis of Parietaria judaica pollen and allergen profiling by an immunoproteomic approach

Parietaria judaica pollen is a common cause of airway allergic disease in the Mediterranean area. Proteome analysis of mature Parietaria judaica pollen by two-dimensional gel electrophoresis (2-DE) and mass spectrometry has established the first reference proteome map of this weed. Proteins involved in a variety of cellular functions as well as the occurrence of allergens were detected. By using 2-DE and immunoblotting with sera from Parietaria judaica allergic patients we obtained a more detailed characterization of Parietaria judaica allergen profil

CarboxyAmido-Triazole Orotate inhibits the growth of Imatinib-resistant chronic myeloid leukaemia cells and modulates exosomes-stimulated angiogenesis

Chronic myelogenous leukemia is a myeloproliferative disorder characterized by the t(9:22) (q34:q11) reciprocal chromosomal translocation, resulting in the expression of the chimeric Bcr–Abl oncoprotein with constitutive tyrosine kinase activity. Deregulated Bcr–Abl induces the hyperactivation of various signalling pathways that promote cell growth, suppress apoptosis and alter cell adhesion. Bcr-Abl has also been involved in VEGF-mediated angiogenesis in CML and evidence indicates that the formation of new vessels plays an important role in the development and progression of CML. Imatinib mesylate (IM) is a selective well tolerated inhibitor of the Bcr–Abl tyrosine kinase that has significantly improved the prognosis of patients with chronic phase CML. Despite this remarkable progress, a major problem associated with the administration of imatinib is acquired resistance. Bcr-Abl gene amplification, increased expression of Bcr–Abl protein, point mutations in the Bcr–Abl tyrosine kinase domain have been reported as mechanisms of resistance to imatinib. Therefore, there is an urgent need for new anticancer agents and combinations that could improve responses and survival rates for CML. Recent studies from our laboratory have shown that addition of carboxyamidotriazole (CAI), an inhibitor of calcium-mediated signal transduction, to imatinib resistant human CML cells induces a marked decrease in cell viability and augmented apoptosis, events associated with downregulation of Bcr–Abl protein and inhibition of tyrosine phosphorylation of Bcr–Abl, STAT5, CrkL. Carboxyamidotriazole Orotate (CTO), is a derivate of CAI that has been developed at Tactical Therapeutics. CTO has a higher bioavailability and efficacy with respect to the parental compound. Exosomes are small vesicles of 40-100 nm diameter that are initially formed within the endosomal compartment and are secreted when a multivesicular body (MVB) fuses with the plasma membrane. These vesicles are released by many cell types including cancer cells and are considered messengers in intercellular communication. The exact function of exosomes in malignant cells has yet to be elucidated, but investigation has suggested roles in cell-to-cell communication, tumor-stroma interaction, and antigen presentation, thus potentially affecting cancer progression at different steps. Recent studies from our laboratory suggest that exosomes released from IM-sensitive CML cells directly affect endothelial cells modulating the process of neovascularization. Our data show that CTO is able to inhibit both in vitro and in vivo the growth of imatinib-resistant CML cells and to affect tumor microenvironment by modulating exosome-stimulated angiogenesis. CTO may be effective in targeting both cancer cell growth and the tumor microenvironment, thus suggesting a potential therapeutic utility in the treatment of leukemia patients

Exosomal shuttling of miR-126 in endothelial cells modulates adhesive and migratory abilities of chronic myelogenous leukemia cells

BACKGROUND: Recent findings indicate that exosomes released from cancer cells contain microRNAs (miRNAs) that may be delivered to cells of tumor microenvironment. RESULTS: To elucidate whether miRNAs secreted from chronic myelogenous leukemia cells (CML) are shuttled into endothelial cells thus affecting their phenotype, we first analysed miRNAs content in LAMA84 exosomes. Among the 124 miRNAs identified in LAMA84 exosomes, we focused our attention on miR-126 which was found to be over-overexpressed in exosomes compared with producing parental cells. Transfection of LAMA84 with Cy3-labelled miR-126 and co-culture of leukemia cells with endothelial cells (EC) confirmed that miR-126 is shuttled into HUVECs. The treatment of HUVECs with LAMA84 exosomes for 24 hours reduced CXCL12 and VCAM1 expression, both at the mRNA and protein level, and negatively modulated LAMA84 motility and cells adhesion. Transfection in HUVECs of miR-126 inhibitor reversed the decrease of CXCL12 and restored the motility and adhesion of LAMA84 cells while the over-expression of miR-126, showed opposite effects. CONCLUSION: Our results show that the miR-126 shuttled by exosomes is biologically active in the target cells, and support the hypothesis that exosomal miRNAs have an important role in tumor-endothelial crosstalk occurring in the bone marrow microenvironment, potentially affecting disease progression

An Active Form of Sphingosine Kinase-1 Is Released in the Extracellular Medium as Component of Membrane Vesicles Shed by Two Human Tumor Cell Lines

Expression of sphingosine kinase-1 (SphK-1) correlates with a poor survival rate of tumor patients. This effect is probably due to the ability of SphK-1 to be released into the extracellular medium where it catalyzes the biosynthesis of sphingosine-1-phosphate (S1P), a signaling molecule endowed with profound proangiogenic effects. SphK-1 is a leaderless protein which is secreted by an unconventional mechanism. In this paper, we will show that in human hepatocarcinoma Sk-Hep1 cells, extracellular signaling is followed by targeting the enzyme to the cell surface and parallels targeting of FGF-2 to the budding vesicles. We will also show that SphK-1 is present in a catalitycally active form in vesicles shed by SK-Hep1 and human breast carcinoma 8701-BC cells. The enzyme substrate sphingosine is present in shed vesicles where it is produced by neutral ceramidase. Shed vesicles are therefore a site for S1P production in the extracellular medium and conceivably also within host cell following vesicle endocytosis

Role of exosomes released by chronic myelogenous leukemia cells in angiogenesis

The present study is designed to assess if exosomes released from Chronic Myelogenous Leukemia (CML) cells may modulate angiogenesis. We have isolated and characterized the exosomes generated from LAMA84 CML cells and demonstrated that addition of exosomes to human vascular endothelial cells (HUVEC) induces an increase of both ICAM-1 and VCAM-1 cell adhesion molecules and interleukin-8 expression. The stimulation of cell-cell adhesion molecules was paralleled by a dose-dependent increase of adhesion of CML cells to a HUVEC monolayer. We further showed that the treatment with exosomes from CML cells caused an increase in endothelial cell motility accompanied by a loss of VE-cadherin and β-catenin from the endothelial cell surface. Functional characterization of exosomes isolated from CML patients confirmed the data obtained with exosomes derived from CML cell line. CML exosomes caused reorganization into tubes of HUVEC cells cultured on Matrigel. When added to Matrigel plugs in vivo, exosomes induced ingrowth of murine endothelial cells and vascularization of the Matrigel plugs. Our results suggest for the first time that exosomes released from CML cells directly affect endothelial cells modulating the process of neovascularization