Cartilage Dysplasia and Tissue Mineralization in the Rat Following Administration of a FGF Receptor Tyrosine Kinase Inhibitor

Brown, Alan; Courtney, Cynthia L.; King, Lena M.; Groom, Stephen C.; Graziano, Michael J.

doi:10.1080/01926230590961845

Cited by 49 publications

(43 citation statements)

References 21 publications

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“…In TGF-β and FGF null mice with physeal dysplasia, there is increased expression and synthesis of IHH within several zones of the physis, which may also mediate some of the morphologic changes (Serra et al, 1997;Liu et al, 2002). bFGF inhibits chondrocyte proliferation by inhibiting IHH, therefore inhibition of bFGF signaling is likely to induce chondrocyte proliferation, as was suggested in our studies and those with an FGF receptor inhibitor (Baron et al, 1994;Brown et al, 2005). Chondrocyte differentiation is also modulated by bFGF, and both actions appear to antagonize effects of the MMPs (Baron et al, 1994;Van der Eerden et al, 2003).…”

Section: Discussionmentioning

confidence: 57%

“…The FGF receptor kinase inhibitor used (PD176067) also had some VEGF receptor kinase inhibitory activity. Vascularization and endothelial cell proliferation, which are known to be major factors controlling matrix mineralization at the ossification zone of the metaphysis, are greatly enhanced by either bFGF or VEGF treatment (Cross and Claesson-Welsh, 2001;Brown et al, 2005).…”

Section: Discussionmentioning

confidence: 99%

“…In a recent study, administration of an FGF receptor kinase inhibitor to rats also resulted in cartilage dysplasia, physeal dysplasia, and chrondrocyte proliferation, but with marked thickening of the zone of ossification and generalized soft tissue mineralization (which were not features in the ALK5 inhibitor cases) (Brown et al, 2005). The FGF receptor kinase inhibitor used (PD176067) also had some VEGF receptor kinase inhibitory activity.…”

Section: Discussionmentioning

confidence: 99%

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Inhibition of ALK5 Signaling Induces Physeal Dysplasia in Rats

et al. 2007

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TGF-|β|, and its type 1 (ALK5) receptor, are critical to the pathogenesis of fibrosis. In toxicologic studies of 4 or more days in 10-week-old Sprague-Dawley rats, using an ALK5 inhibitor (GW788388), expansion of hypertrophic and proliferation zones of femoral physes were noted. Subphyseal hyperostosis, chondrocyte hypertrophy/hyperplasia, and increased matrix were present. Physeal zones were laser microdissected from ALK5 inhibitor-treated and control rats sacrificed after 3 days of treatment. Transcripts for TGF-|β|1, TGF-|β|2, ALK5, IHH, VEGF, BMP-7, IGF-1, bFGF, and PTHrP were amplified by real-time PCR. IGF and IHH increased in all physis zones with treatment, but were most prominent in prehypertrophic zones. TGF-|β|2, bFGF and BMP7 expression increased in proliferative, pre-and hypertrophic zones. PTHrP expression was elevated in proliferative zones but decreased in hypertrophic zones. VEGF expression was increased after treatment in pre-and hypertrophic zones. ALK5 expression was elevated in prehypertrophic zones. Zymography demonstrated gelatinolytic activity was reduced after treatment. Apoptotic markers (TUNEL and caspase-3) were decreased in hypertrophic zones. Proliferation assessed by Topoisomerase II and Ki67 was increased in multiple zones. Movat stains demonstrated that proteoglycan deposition was altered. Physeal changes occurred at doses well above those resulting in fibrosis. Interactions of factors is important in producing the physeal dysplasia phenotype.

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Section: Discussionmentioning

confidence: 57%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Inhibition of ALK5 Signaling Induces Physeal Dysplasia in Rats

et al. 2007

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“…Relevant to this latter point, blockade of FGFR signalling by selective or broad-spectrum TK inhibitors has been associated with toxicity [146] and a monoclonal antibody directed against FGFR1 has failed because of severe weight loss associated with hypothalamic binding [156]. Interestingly, at variance with the hyperphosphatemic effect of FGFR TK inhibitors in preclinical models [157] and cancer patients [146], long-term administration of the small molecule FGF trap NSC12 does not affect the blood levels of phosphorus, calcium and FGF23 in tumor-bearing mice [120]. These observations are in keeping with the safety profile in murine tumor models of the FGFR1-derived FGF trap FP-1039 [124] and of the allosteric multi-FGFR blocker SSR128129E [148].…”

Section: Discussionmentioning

confidence: 99%

Blocking the FGF/FGFR system as a ⿿two-compartment⿿ antiangiogenic/antitumor approach in cancer therapy

Giacomini

Chiodelli

Matarazzo

et al. 2016

Pharmacological Research

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a b s t r a c tFibroblast growth factors (FGFs) are a family of pleiotropic factors produced by stromal and parenchymal tumor cells. Even though FGFs have been firstly characterized as angiogenic factors, they exert autocrine and paracrine functions not only on endothelial cells but also on tumor cells and other stromal components. Thus, the FGF/FGF receptor (FGFR) pathway may represent a key player in tumor growth by regulating the complex cross-talk between stromal and tumor compartments.The ligand dependent or independent activation of the FGF/FGFR system by gene upregulation, oncogenic mutation or amplification occurs in a variety of human tumors and is implicated in various key steps of tumor growth and progression. In addition, FGF/FGFR activation has been described as a mechanism of tumor escape in response to antiangiogenic/anti-VEGF therapies.Experimental and clinical evidences provide a compelling biologic rationale for the development of anti-FGF/FGFR targeting agents in cancer therapy. However, the development of drugs specifically targeting the FGF/FGFR pathway proved to be difficult, also due to the high redundancy and pleiotropic effects of FGF and FGFR family members. On the other hand, the possibility to develop "two-compartment" targeting agents endowed with both antiangiogenic and antitumor activities remains promising.Here we will review the preclinical and clinical approaches and potential therapeutics currently available to block the FGF/FGFR system in human cancer.

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“…Determination of the functional and in vivo requirement of FGF signaling in the vasculature may provide insight into opportunities for targeted cell-specific therapeutic interventions, given the systemic toxicity associated with global FGFR inhibition (36)(37)(38)(39) and potential risks associated with global FGFR activation. Because the EC is often a therapeutic target, it is essential to know whether EC FGF signaling is directly required during development, tissue homeostasis, and response to injury.…”

Section: Discussionmentioning

confidence: 99%

Endothelial cell FGF signaling is required for injury response but not for vascular homeostasis

Oladipupo

Smith

Santeford

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

115

107

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Endothelial cells (ECs) express fibroblast growth factor receptors (FGFRs) and are exquisitely sensitive to FGF signals. However, whether the EC or another vascular cell type requires FGF signaling during development, homeostasis, and response to injury is not known. Here, we show that Flk1-Cre or Tie2-Cre mediated deletion of FGFR1 and FGFR2 (Fgfr1/2Flk1-Cre or Fgfr1/ 2 Tie2-Cre mice), which results in deletion in endothelial and hematopoietic cells, is compatible with normal embryonic development. As adults, Fgfr1/2 Flk1-Cre mice maintain normal blood pressure and vascular reactivity and integrity under homeostatic conditions. However, neovascularization after skin or eye injury was significantly impaired in both Fgfr1/2Flk1-Cre and Fgfr1/2Tie2-Cre mice, independent of either hematopoietic cell loss of FGFR1/2 or vascular endothelial growth factor receptor 2 (Vegfr2) haploinsufficiency. Also, impaired neovascularization was associated with delayed cutaneous wound healing. These findings reveal a key requirement for cell-autonomous EC FGFR signaling in injuryinduced angiogenesis, but not for vascular homeostasis, identifying the EC FGFR signaling pathway as a target for diseases associated with aberrant vascular proliferation, such as age-related macular degeneration, and for modulating wound healing without the potential toxicity associated with direct manipulation of systemic FGF or VEGF activity.choroidal neovascularization | oxygen-induced retinopathy | retinopathy of prematurity | neoangiogenesis N eovascularization is critical for tissue repair and pathological conditions, including aberrant ocular angiogenesis and cancer (1-4). Although FGF signaling has been prominently implicated in these processes based on genetic inactivation experiments in mice and in vitro studies, the functional in vivo requirement of this pathway in the endothelial cell (EC) vs. other vascular cell types is not known (5-8).The FGF family is composed of 18 signaling ligands, which interact with four cell surface tyrosine kinase receptors. FGF receptor (FGFR) signaling regulates many biological processes, including survival, differentiation, proliferation, and angiogenesis through the activation of RAS-RAF-MAPK, PI3K, STAT, and PLC gamma pathways (6, 9). The EC response to FGF signals is well described in in vitro models of angiogenesis (10, 11). Moreover, previous gene expression analysis showed that Fgfr1 and Fgfr2 were the predominant Fgfrs in ECs (5), whereas Fgfr3 was sparsely detected (12, 13) and Fgfr4 expression was not reported (8). To this end, and given the critical role of FGFRs 1 and 2 during embryonic development, we tested the hypothesis that EC FGFR1/2 may play a key role during vascular development, homeostasis, and response to injury.Studies aimed at understanding the functional requirement of vascular FGF signaling have demonstrated a critical role in homeostasis and angiogenesis (14-16). In these studies, in vivo expression of an adenoviral-based soluble FGF trap (sFGFR) or a dominant inhibitor of all FGFRs (FGF...

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Cartilage Dysplasia and Tissue Mineralization in the Rat Following Administration of a FGF Receptor Tyrosine Kinase Inhibitor

Cited by 49 publications

References 21 publications

Inhibition of ALK5 Signaling Induces Physeal Dysplasia in Rats

Inhibition of ALK5 Signaling Induces Physeal Dysplasia in Rats

Blocking the FGF/FGFR system as a ⿿two-compartment⿿ antiangiogenic/antitumor approach in cancer therapy

Endothelial cell FGF signaling is required for injury response but not for vascular homeostasis

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