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  • Monoclonal antibodies against heparin-binding growth factor II/basic fibroblast growth factor that block its biological activity: invalidity of the antibodies for tumor a ... 2481318

    Two monoclonal antibodies (mAbs) against bovine heparin-binding growth factor II (HBGF-II)/basic fibroblast growth factor (bFGF) were obtained from mouse hybridoma cell lines. They were highly specific for bFGF from bovine, human, and mouse sources and did not cross-react with bovine heparin-binding growth factor I (HBGF-I)/acidic fibroblast growth factor (aFGF). The immunoglobulin class and subclass of these mAbs were IgG1, K. The apparent dissociation constant (Kd) for bFGF of these mAbs ranged from 10(-9) to 10(-10) M. One mAb (bFM-2) also cross-reacted with heat-inactivated bFGF, while the other mAb (bFM-1) did not, suggesting that bFM-1 recognized the conformation of the bFGF molecule necessary for its biological activity. These mAbs inhibited growth of cultured bovine capillary endothelial cells in both the presence and absence of exogenous bFGF, indicating the autocrine action of this growth factor in in vitro growth of these cells. On the other hand, injection of these hybridoma cell lines s.c. into the backs of athymic mice resulted in development of highly vascularized solid tumors and a sustained high level of anti-bFGF activity in the blood of the tumor-bearing mice. These findings suggest that bFGF is not essential as an autocrine or paracrine growth factor for angiogenesis in vivo. These mAbs should be useful in further studies on the physiological role and the conformation-function relationship of bFGF because they block its biological activity.
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  • High molecular weight fibroblast growth factor-2 in the human heart is a potential target for prevention of cardiac remodeling. 24827991

    Fibroblast growth factor 2 (FGF-2) is a multifunctional protein synthesized as high (Hi-) and low (Lo-) molecular weight isoforms. Studies using rodent models showed that Hi- and Lo-FGF-2 exert distinct biological activities: after myocardial infarction, rat Lo-FGF-2, but not Hi-FGF-2, promoted sustained cardioprotection and angiogenesis, while Hi-FGF-2, but not Lo-FGF-2, promoted myocardial hypertrophy and reduced contractile function. Because there is no information regarding Hi-FGF-2 in human myocardium, we undertook to investigate expression, regulation, secretion and potential tissue remodeling-associated activities of human cardiac (atrial) Hi-FGF-2. Human patient-derived atrial tissue extracts, as well as pericardial fluid, contained Hi-FGF-2 isoforms, comprising, respectively, 53%(±20 SD) and 68% (±25 SD) of total FGF-2, assessed by western blotting. Human atrial tissue-derived primary myofibroblasts (hMFs) expressed and secreted predominantly Hi-FGF-2, at about 80% of total. Angiotensin II (Ang II) up-regulated Hi-FGF-2 in hMFs, via activation of both type 1 and type 2 Ang II receptors; the ERK pathway; and matrix metalloprotease-2. Treatment of hMFs with neutralizing antibodies selective for human Hi-FGF-2 (neu-AbHi-FGF-2) reduced accumulation of proteins associated with fibroblast-to-myofibroblast conversion and fibrosis, including α-smooth muscle actin, extra-domain A fibronectin, and procollagen. Stimulation of hMFs with recombinant human Hi-FGF-2 was significantly more potent than Lo-FGF-2 in upregulating inflammation-associated proteins such as pro-interleukin-1β and plasminogen-activator-inhibitor-1. Culture media conditioned by hMFs promoted cardiomyocyte hypertrophy, an effect that was prevented by neu-AbHi-FGF-2 in vitro. In conclusion, we have documented that Hi-FGF-2 represents a substantial fraction of FGF-2 in human cardiac (atrial) tissue and in pericardial fluid, and have shown that human Hi-FGF-2, unlike Lo-FGF-2, promotes deleterious (pro-fibrotic, pro-inflammatory, and pro-hypertrophic) responses in vitro. Selective targeting of Hi-FGF-2 production may, therefore, reduce pathological remodelling in the human heart.
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  • Preferential accumulation and export of high molecular weight FGF-2 by rat cardiac non-myocytes. 20696821

    fibroblast growth factor-2 (FGF-2), implicated in paracrine induction of cardiac hypertrophy, is translated as high molecular weight (Hi-FGF-2) and low molecular weight (Lo-FGF-2) isoforms. Paracrine activities are assigned to Lo-FGF-2, whereas Hi-FGF-2 is presumed to have nuclear functions. In this work, we re-examined the latter presumption by asking whether: cardiac non-myocytes (CNMs) accumulate and export Hi-FGF-2 in response to pro-hypertrophic [angiotensin II (Ang II)] stimuli; an unconventional secretory pathway requiring activated caspase-1 affects Hi-FGF2 export; and secreted Hi-FGF-2 is pro-hypertrophic.using neonatal rat heart-derived cultures and immunoblotting, we show that CNMs accumulated over 90% Hi-FGF-2, at levels at least five-fold higher than cardiomyocytes (CMs). Pro-hypertrophic agents (Ang II, endothelin-1, and isoproterenol) up-regulated CNM-associated Hi-FGF-2. The Ang II effect was mediated by Ang II receptor-1 but not Ang II receptor-2 as it was blocked by losartan but not PD123319. CNM-derived Hi-FGF-2 was detected in two extracellular pools: in conditioned medium from Ang II-stimulated CNMs and in association with the cell surface/matrix, eluted with a gentle 2 M NaCl wash of the cell monolayer. Conditioned medium from Ang II-treated CNMs increased neonatal CM size, an effect prevented by anti-FGF-2-neutralizing antibodies. The caspase-1 inhibitor YVAD prevented the Ang II-induced release of Hi-FGF-2 to both extracellular pools.CNMs are major producers of Hi-FGF-2, up-regulated by hypertrophic stimuli and exported to the extracellular environment by a mechanism requiring caspase-1 activity, suggesting a link to the innate immune response. Hi-FGF-2 is likely to promote paracrine induction of myocyte hypertrophy in vivo.
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  • EphA2-induced angiogenesis in ewing sarcoma cells works through bFGF production and is dependent on caveolin-1. 23951165

    Angiogenesis is the result of the combined activity of the tumor microenvironment and signaling molecules. The angiogenic switch is represented as an imbalance between pro- and anti-angiogenic factors and is a rate-limiting step in the development of tumors. Eph receptor tyrosine kinases and their membrane-anchored ligands, known as ephrins, constitute the largest receptor tyrosine kinase (RTK) subfamily and are considered a major family of pro-angiogenic RTKs. Ewing sarcoma (EWS) is a highly aggressive bone and soft tissue tumor affecting children and young adults. As other solid tumors, EWS are reliant on a functional vascular network for the delivery of nutrients and oxygen and for the removal of waste. Based on the biological roles of EphA2 in promoting angiogenesis, we explored the functional role of this receptor and its relationship with caveolin-1 (CAV1) in EWS angiogenesis. We demonstrated that lack of CAV1 results in a significant reduction in micro vascular density (MVD) on 3 different in vivo models. In vitro, this phenomenon correlated with inactivation of EphA2 receptor, lack of AKT response and downregulation of bFGF. We also demonstrated that secreted bFGF from EWS cells acted as chemoattractant for endothelial cells. Furthermore, interaction between EphA2 and CAV1 was necessary for the right localization and signaling of the receptor to produce bFGF through AKT and promote migration of endothelial cells. Finally, introduction of a dominant-negative form of EphA2 into EWS cells mostly reproduced the effects occurred by CAV1 silencing, strongly suggesting that the axis EphA2-CAV1 participates in the promotion of endothelial cell migration toward the tumors favoring EWS angiogenesis.
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