Platelet Factor-4 Inhibits the Mitogenic Activity of VEGF121 and VEGF165 Using Several Concurrent Mechanisms

Gengrinovitch, Stela; Greenberg, Sheryl M.; Cohen, Tzafra; Gitay-Goren, Hela; Rockwell, Patricia; Maione, Theodore E.; Levi, Ben‐Zion; Neufeld, Gera

doi:10.1074/jbc.270.25.15059

Cited by 189 publications

(138 citation statements)

References 50 publications

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“…Further, it has been shown that different CXCL4/PF-4 peptides compete with FGF-2 or VEGF by inhibiting their binding to FGF or VEGF receptors, respectively, or reduce heparin-induced FGF-2 dimerization, resulting in the angiostatic activity (21,31,44,45). However, other mechanisms seem to be involved as well because an analogue of CXCL4/PF-4 that lacks affinity for heparin still retains its angiostatic activity (46), and CXCL4/PF-4 also inhibits the function of VEGF-121, an isoform with deficient heparin-binding ability (47). Recently, an interaction of CXCL4/PF-4 with integrins has been described that might be implicated in angiogenesis (48).…”

Section: Discussionmentioning

confidence: 99%

The COOH-Terminal Peptide of Platelet Factor-4 Variant (CXCL4L1/PF-4var47-70) Strongly Inhibits Angiogenesis and Suppresses B16 Melanoma Growth In vivo

Vandercappellen

Liekens

Bronckaers

et al. 2010

Molecular Cancer Research

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Chemokines influence tumor growth directly or indirectly via both angiogenesis and tumor-leukocyte interactions. Platelet factor-4 (CXCL4/PF-4), which is released from α-granules of activated platelets, is the first described angiostatic chemokine. Recently, it was found that the variant of CXCL4/PF-4 (CXCL4L1/PF4var) could exert a more pronounced angiostatic and antitumoral effect than CXCL4/PF-4. However, the molecular mechanisms of the angiostatic activities of the PF-4 forms remain partially elusive. Here, we studied the biological properties of the chemically synthesized COOH-terminal peptides of CXCL4/PF-4 (CXCL4/PF-4 47-70 ) and CXCL4L1/PF-4var (CXCL4L1/PF-4var ). Both PF-4 peptides lacked monocyte and lymphocyte chemotactic activity but equally well inhibited (25 nmol/L) endothelial cell motility and proliferation in the presence of a single stimulus (i.e., exogenous recombinant fibroblast growth factor-2). In contrast, when assayed in more complex angiogenesis test systems characterized by the presence of multiple mediators, including in vitro wound-healing (2.5 nmol/L versus 12.5 nmol/L), Matrigel (60 nmol/L versus 300 nmol/L), and chorioallantoic membrane assays, CXCL4L1/PF-4var 47-70 was found to be significantly (5-fold) more angiostatic than CXCL4/PF-4 47-70 . In addition, low (7 μg total) doses of intratumoral CXCL4L1/ PF-4var 47-70 inhibited B16 melanoma growth in mice more extensively than CXCL4/PF-4 47-70 . This antitumoral activity was predominantly mediated through inhibition of angiogenesis (without affecting blood vessel stability) and induction of apoptosis, as evidenced by immunohistochemical and fluorescent staining of B16 tumor tissue. In conclusion, CXCL4L1/PF-4var 47-70 is a potent antitumoral and antiangiogenic peptide. These results may represent the basis for the design of CXCL4L1/PF-4var COOH-terminal-derived peptidomimetic anticancer drugs. Mol Cancer Res; 8(3); 322-34. ©2010 AACR.

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Section: Discussionmentioning

confidence: 99%

The COOH-Terminal Peptide of Platelet Factor-4 Variant (CXCL4L1/PF-4var47-70) Strongly Inhibits Angiogenesis and Suppresses B16 Melanoma Growth In vivo

Vandercappellen

Liekens

Bronckaers

et al. 2010

Molecular Cancer Research

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“…Previous reports have shown that some secreted proteins, including soluble VEGF receptor 1, platelet factor 4, thrombospondin, ADAMTS1 and CTGF, bind to VEGF and inhibit angiogenic activity (Kendall and Thomas, 1993;Gengrinovitch et al, 1995;Gupta et al, 1999;Luque et al, 2003;Inoki et al, 2002;Jang et al, 2004). As one of these proteins, CTGF is typically expressed in fibroblasts (Brigstock, 1999), we considered the possibility that CTGF might function as an inhibitor of VEGF from fibroblasts.…”

Section: Angiogenic Activity Of Vegf From Fibroblasts In a Nontumor Ementioning

confidence: 99%

“…However, the mechanism by which vascular quiescence is maintained in normal tissues, wherein VEGF is widely expressed (Berse et al, 1992;Hanahan and Folkman, 1996), remains unclear. Several secreted proteins have been reported to bind and sequester VEGF (Kendall and Thomas, 1993;Gengrinovitch et al, 1995;Gupta et al, 1999;Inoki et al, 2002;Luque et al, 2003). This type of regulation could account for the vascular quiescence in the presence of VEGF, although in most tissues except the cornea (Ambati et al, 2006), the relevance of these proteins to vascular control has yet to be demonstrated.…”

Section: Introductionmentioning

confidence: 99%

The VEGF angiogenic switch of fibroblasts is regulated by MMP-7 from cancer cells

et al. 2007

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“…Although being structurally a chemokine, PF-4 lacks chemotactic activity on neutrophils and T cells (15,16). Apart from inducing short term responses on PMN, PF-4 is involved in long term differentiation and regulatory processes such as the control of EC and fibroblast proliferation (17)(18)(19) and the support of the survival of hemopoietic stem cells and progenitor cells (20). Moreover, PF-4 suppresses IL-2 mRNA transcription and the release of IL-2 in activated human T cells, corresponding to its inhibitory effect on T cell proliferation and release of IFN-␥ (15).…”

mentioning

confidence: 99%

Platelet Factor 4/CXCL4 Induces Phagocytosis and the Generation of Reactive Oxygen Metabolites in Mononuclear Phagocytes Independently of Gi Protein Activation or Intracellular Calcium Transients

Первушина¹,

Scheuerer²,

Reiling

et al. 2004

The Journal of Immunology

105

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Platelet factor 4 (PF-4), a platelet-derived CXC chemokine, is known to prevent human monocytes from apoptosis and to promote differentiation of these cells into HLA-DR− macrophages. In this study, we investigated the role of PF-4 in the control of acute monocyte proinflammatory responses involved in the direct combat of microbial invaders. We show that PF-4 increases monocyte phagocytosis and provokes a strong formation of oxygen radicals but lacks a chemotactic activity in these cells. Compared with FMLP, PF-4-induced oxidative burst was later in its onset but was remarkably longer in its duration (lasting for up to 60 min). Furthermore, in PF-4-prestimulated cells, FMLP- as well as RANTES-induced burst responses became synergistically enhanced. As we could show, PF-4-mediated oxidative burst in monocytes does not involve Gi proteins, elevation of intracellular free calcium concentrations, or binding to CXCR3B, a novel PF-4 receptor recently discovered on endothelial cells. Moreover, we found that PF-4 acts on macrophages in a dual manner. On the one hand, very similar to GM-CSF or M-CSF, PF-4 treatment of monocytes generates macrophages with a high capacity for unspecific phagocytosis. On the other hand, short term priming of GM-CSF-induced human macrophages with PF-4 substantially increases their capability for particle ingestion and oxidative burst. A comparable effect was also observed in murine bone marrow-derived macrophages, indicating cross-reactivity of human PF-4 between both species. Taken together, PF-4 may play a crucial role in the induction and maintenance of an unspecific immune response.

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Platelet Factor-4 Inhibits the Mitogenic Activity of VEGF121 and VEGF165 Using Several Concurrent Mechanisms

Cited by 189 publications

References 50 publications

The COOH-Terminal Peptide of Platelet Factor-4 Variant (CXCL4L1/PF-4var47-70) Strongly Inhibits Angiogenesis and Suppresses B16 Melanoma Growth In vivo

The COOH-Terminal Peptide of Platelet Factor-4 Variant (CXCL4L1/PF-4var47-70) Strongly Inhibits Angiogenesis and Suppresses B16 Melanoma Growth In vivo

The VEGF angiogenic switch of fibroblasts is regulated by MMP-7 from cancer cells

Platelet Factor 4/CXCL4 Induces Phagocytosis and the Generation of Reactive Oxygen Metabolites in Mononuclear Phagocytes Independently of Gi Protein Activation or Intracellular Calcium Transients

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