Fibroblast growth factors, their receptors and signaling.
TL;DR: FGF signaling also appears to play a role in tumor growth and angiogenesis, and autocrine FGF signaling may be particularly important in the progression of steroid hormone-dependent cancers to a hormone-independent state.
Abstract: Fibroblast growth factors (FGFs) are small polypeptide growth factors, all of whom share in common certain structural characteristics, and most of whom bind heparin avidly. Many FGFs contain signal peptides for secretion and are secreted into the extracellular environment, where theycan bind to the heparan-like glycosaminoglycans (HLGAGs) of the extracellular matrix (ECM). From this reservoir, FGFs mayact directlyon target cells, or theycan be released through digestion of the ECM or the activityof a carrier protein, a secreted FGF binding protein. FGFs bind specific receptor tyrosine kinases in the context of HLGAGs and this binding induces receptor dimerization and activation, ultimatelyresulting in the activation of various signal transduction cascades. Some FGFs are potent angiogenic factors and most playimportant roles in embry onic development and wound healing. FGF signaling also appears to playa role in tumor growth and angiogenesis, and autocrine FGF signaling maybe particularlyimportant in the progression of steroid hormone-dependent cancers to a hormone-independent state.
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TL;DR: A review of the specific roles of these growth factors and cytokines during wound healing can be found in this article, where patients are treated by three growth factors: PDGF-BB, bFGF, and GM-CSF.
Abstract: Wound healing is an evolutionarily conserved, complex, multicellular process that, in skin, aims at barrier restoration. This process involves the coordinated efforts of several cell types including keratinocytes, fibroblasts, endothelial cells, macrophages, and platelets. The migration, infiltration, proliferation, and differentiation of these cells will culminate in an inflammatory response, the formation of new tissue and ultimately wound closure. This complex process is executed and regulated by an equally complex signaling network involving numerous growth factors, cytokines and chemokines. Of particular importance is the epidermal growth factor (EGF) family, transforming growth factor beta (TGF-beta) family, fibroblast growth factor (FGF) family, vascular endothelial growth factor (VEGF), granulocyte macrophage colony stimulating factor (GM-CSF), platelet-derived growth factor (PDGF), connective tissue growth factor (CTGF), interleukin (IL) family, and tumor necrosis factor-alpha family. Currently, patients are treated by three growth factors: PDGF-BB, bFGF, and GM-CSF. Only PDGF-BB has successfully completed randomized clinical trials in the Unites States. With gene therapy now in clinical trial and the discovery of biodegradable polymers, fibrin mesh, and human collagen serving as potential delivery systems other growth factors may soon be available to patients. This review will focus on the specific roles of these growth factors and cytokines during the wound healing process.
2,617 citations
TL;DR: A subset of the FGF family, expressed in adult tissue, is important for neuronal signal transduction in the central and peripheral nervous systems.
Abstract: Fibroblast growth factors (FGFs) make up a large family of polypeptide growth factors that are found in organisms ranging from nematodes to humans. In vertebrates, the 22 members of the FGF family range in molecular mass from 17 to 34 kDa and share 13-71% amino acid identity. Between vertebrate species, FGFs are highly conserved in both gene structure and amino-acid sequence. FGFs have a high affinity for heparan sulfate proteoglycans and require heparan sulfate to activate one of four cell-surface FGF receptors. During embryonic development, FGFs have diverse roles in regulating cell proliferation, migration and differentiation. In the adult organism, FGFs are homeostatic factors and function in tissue repair and response to injury. When inappropriately expressed, some FGFs can contribute to the pathogenesis of cancer. A subset of the FGF family, expressed in adult tissue, is important for neuronal signal transduction in the central and peripheral nervous systems.
2,228 citations
TL;DR: It is concluded that FGF-21, which was discovered to be a potent regulator of glucose uptake in mouse 3T3-L1 and primary human adipocytes, exhibits the therapeutic characteristics necessary for an effective treatment of diabetes.
Abstract: Diabetes mellitus is a major health concern, affecting more than 5% of the population. Here we describe a potential novel therapeutic agent for this disease, FGF-21, which was discovered to be a potent regulator of glucose uptake in mouse 3T3-L1 and primary human adipocytes. FGF-21-transgenic mice were viable and resistant to diet-induced obesity. Therapeutic administration of FGF-21 reduced plasma glucose and triglycerides to near normal levels in both ob/ob and db/db mice. These effects persisted for at least 24 hours following the cessation of FGF-21 administration. Importantly, FGF-21 did not induce mitogenicity, hypoglycemia, or weight gain at any dose tested in diabetic or healthy animals or when overexpressed in transgenic mice. Thus, we conclude that FGF-21, which we have identified as a novel metabolic factor, exhibits the therapeutic characteristics necessary for an effective treatment of diabetes.
1,921 citations
TL;DR: Members of the FGF family function in the earliest stages of embryonic development and during organogenesis to maintain progenitor cells and mediate their growth, differentiation, survival, and patterning.
Abstract: The signaling component of the mammalian Fibroblast Growth Factor (FGF) family is comprised of eighteen secreted proteins that interact with four signaling tyrosine kinase FGF receptors (FGFRs) Interaction of FGF ligands with their signaling receptors is regulated by protein or proteoglycan cofactors and by extracellular binding proteins Activated FGFRs phosphorylate specific tyrosine residues that mediate interaction with cytosolic adaptor proteins and the RAS-MAPK, PI3K-AKT, PLCγ, and STAT intracellular signaling pathways Four structurally related intracellular non-signaling FGFs interact with and regulate the family of voltage gated sodium channels Members of the FGF family function in the earliest stages of embryonic development and during organogenesis to maintain progenitor cells and mediate their growth, differentiation, survival, and patterning FGFs also have roles in adult tissues where they mediate metabolic functions, tissue repair, and regeneration, often by reactivating developmental signaling pathways Consistent with the presence of FGFs in almost all tissues and organs, aberrant activity of the pathway is associated with developmental defects that disrupt organogenesis, impair the response to injury, and result in metabolic disorders, and cancer © 2015 Wiley Periodicals, Inc
1,445 citations
TL;DR: This study completes the mitogenesis-based comparison of receptor specificity of the entire FGF family under standard conditions and should help in interpreting and predicting in vivo biological activity.
1,052 citations
References
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TL;DR: The findings suggest that FGFR-dependent signaling is crucial for pancreatic cancer growth and raise the possibility that inhibition of FGFR signaling may ultimately prove useful as a therapeutic option in patients with pancreatic cancers.
93 citations
"Fibroblast growth factors, their re..." refers background in this paper
...By overexpressing a truncated dominant-negative FGFR-1, Wagner et al. (1998) showed that two human pancreatic cell lines, Panc-1 and MIA PaCa-2, are dependent on signaling through FGFR-1 for activation of the MAP kinase cascade, increased proliferation, and, most importantly, increased tumor formation in vivo in response to FGFs....
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TL;DR: In vitro translation of syndecan-3 cDNA in the presence and absence of microsomes suggests that the putative signal sequence is functional, suggesting that the cDNA may encompass the full coding sequence.
93 citations
"Fibroblast growth factors, their re..." refers background in this paper
...In addition, the regulated expression of cell surface HLGAGs could provide a mechanism for the regulated localization of FGFs (Gould et al. 1995)....
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Journal Article•
92 citations
TL;DR: It is shown that point mutation at Tyr-766 (Y766F) of the FGF receptor prevents tyrosine phosphorylation of phospholipase C gamma and eliminates acidic FGF (aFGF)-induced stimulation of PI hydrolysis in PC12 cells, indicating that PI hydroleysis is not essential for FGF-induced neuronal differentiation of PC 12 cells.
92 citations
"Fibroblast growth factors, their re..." refers background in this paper
...HLGAGs oligomerize FGFs, which in turn cross-link FGFRs. (Modified from Spivak-Kroizman et al. 1994a.) Figure 5 Simplification of the model of Venkataraman et al. (1999) and Plotnikov et al. (1999) for FGF-FGFR-HLGAG interaction and receptor dimerization....
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TL;DR: It appears that Crouzon syndrome results from constitutive activation of FGFR‐2 and that uncontrolled FGF signaling produces alterations of intramembranous bone development and premature closing of cranial sutures.
Abstract: FGF signaling is clearly important for proper bone development, and several autosomally dominant forms of genetic bone disorders have been mapped to FGF receptors 1, 2, and 3. We have studied the biological effects of the most commonly mutated cysteine residue in FGFR-2 which is detected in individuals with Crouzon syndrome, an autosomally dominant trait which causes premature fusion of the skull bones (craniosynostosis). This Crouzon mutation replaces the cysteine at position 342 with tyrosine, thus disrupting the formation of the third immunoglobulin (Ig)-like loop in the extracellular portion of the receptor. By transfecting mutated and wild-type receptors into a variety of cell lines, we have shown that the C342Y mutation in FGFR-2 produces a receptor which is constitutively activated and capable of transforming NIH3T3 cells and preventing the differentiation of C2 myoblasts in the absence of ligand. Constitutive activation appears to result from the ability of this receptor to form stable interreceptor dimers which involve disulfide bonds between the remaining free cysteine in the mutant receptor. The altered conformation of the third Ig-like domain in the mutated receptor also results in a drastically reduced ability to bind FGF-1 or FGF-2 and in a reduced level of receptor glycosylation. Thus it appears that Crouzon syndrome results from constitutive activation of FGFR-2 and that uncontrolled FGF signaling produces alterations of intramembranous bone development and premature closing of cranial sutures.
89 citations