Abstract
Basic fibroblast growth factor (bFGF) is one of the most potent angiogenic factors. Unlike many other growth factors, bFGF lacks a classic peptide sequence for its secretion. Recent studies suggest that there is an unconventional secretory pathway for this growth factor. The aim of this study was to identify the specific location of bFGF in endothelial cells and to find morphologic evidences concerning its synthesis, storage and release from endothelial cells. The capillaries in hippocampus, adrenal gland, kidney, peripheral nerves as well as the vessels in connective tissues were analysed by using immunogold labeling techniques at electron microscope level. Results show that endogenous bFGF is mainly located in the nuclei of endothelial cells. Slight immunoreactivity is found in the cytoplasm. Immunolabeling is notably absent in pinocytotic vesicles, Golgi complexes, endoplasmic reticulum, nuclear membrane and intercellular junctions. These results provide morphologic evidence suggesting that endothelial cells might export bFGF via unique cellular pathways that are clearly distinct from classical signal peptide mediated secretion and/or release of this protein could be directly through mechanically induced disruptions of these cells. The current study support the recent hypothesis related with unconventional secretory pathway for bFGF as some other “cargo” proteins.
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References
Akasaka Y, Ono I, Yamashita T, Jimbow K, Ishii T (2004) Basic fibroblast growth factor promotes apoptosis and suppresses granulation tissue formation in acute incisional wounds. J Pathol 203(2):710–720
Aktas RG, Kayton RJ (2000) Ultrastructural immunolocalization of basic fibroblast growth factor in fibroblasts and extracellular matrix. Histochem Cell Biol 113:227–233
Albuquerque MLC, Akiyama SK, Schnaper HW (1998) Basic fibroblast growth factor release by human coronary artery endothelial cells is enhanced by matrix proteins, 17β-estradiol, and a PKC signaling pathway. Exp Cell Res 245:163–169
Backhaus R, Zehe C, Wegehingel S, Kehlenbach A, Schwappach B, Nickel W (2004) Unconventional protein secretion: membrane translocation of FGF-2 does not require protein unfolding. J Cell Sci 117(Pt 9):1727–1736
Baird A, Esch F, Mormede P, Ueno N, Ling N, Bohlen P et al (1986) Molecular characterization of fibroblast growth factor: distribution and biological activities in various tissues. Rec Prog Horm Res 42:143–205
Barton DPJ, Cai A, Wendt K, Young M, Gameo A, De Cesare S (1997) Angiogenic protein expression in advanced epithelial ovarian cancer. Clin Cancer Res 3:1579–1586
Bijnsdorp IV, Capriotti F, Kruyt FA, Losekoot N, Fukushima M, Griffioen AW, Thijssen VL, Peters GJ (2011) Thymidine phosphorylase in cancer cells stimulates human endothelial cell migration and invasion by the secretion of angiogenic factors. Br J Cancer 104(7):1185–1192
Biro S, Yu Z, Fu Y, Smale G, Sasse J, Sanchez J et al (1994) Expression and subcellular distribution of basic fibroblast growth factor are regulated during migration of endothelial cells. Circ Res 74:485–494
Burgess WH, Maciag T (1989) The heparin binding (fibroblast) growth factor family of proteins. Annu Rev Biochem 58:575–606
Casscells W, Spir E, Sasse J, Klagsburn M, Allen P, Lee M et al (1990) Isolation, characterization, and localization of heparin-binding growth factors in the heart. J Clin Invest 85:433–441
Chen CH, Poucher SM, Lu J, Henry PD (2004) Fibroblast growth factor 2: from laboratory evidence to clinical application. Curr Vasc Pharmacol 2(1):33–43
Christofori G, Hanahan D (1994) Molecular dissection of multi-stage tumorigenesis in transgenic mice. Semin Cancer Biol 5(1):3–12
Cines DB, Pollak ES, Buck CA, Loscalzo J, Zimmerman GA, McEver RP et al (1998) Endothelial cells in physiology and in the pathophysiology of vascular disorders. Blood 91(10):3527–3561
Cleves AE (1997) Protein transports: the nonclassical ins and outs. Curr Biol 7(5):R318–R320
Cordon-Cardo C, Vlodavsky I, Haimovitz-Freidman A, Hicklin D, Fuks Z (1990) Expression of basic fibroblast growth factor in normal human tissues. Lab Invest 63:832–840
De Jong JS, Diest PJV, Valk PVD, Baak JPA (1998) Expression of growth factors, growth inhibiting factors, and their receptors in invasive breast cancer. I: an inventory in search of autocrine and paracrine loops. J Pathol 184:44–52
Dellacano FR, Spiro J, Eisma R, Kreutzer D (1997) Expression of basic fibroblast growth factor and its receptors by head and neck squamous carcinoma tumor and vascular endothelial cells. Am J Surgery 174:540–544
Eguchi K, Migita K, Nakashima M, Ida H, Terada K, Sakai M et al (1992) Fibroblast growth factors released by wounded endothelial cells stimulate proliferation of synovial cells. J Rheumatol 19(12):1925–1932
Emoto A, Nagakawa M, Wakabayashi Y, Hanada T, Naito S, Nomura Y (1997) Induction of tubulogenesis of microvascular endothelial cells by basic fibroblast growth factor from human SN12C renal cancer cells. J Urol 157:699–703
Florkiewicz RZ, Majack RA, Buechler RD, Florkiewicz E (1995) Quantitative export of FGF-2 occurs through an alternative, energy dependent, non-ER/Golgi pathway. J Cell Physiol 162:388–399
Folkman J (1995) Clinical applications of research on angiogenesis. N Engl J Med 333:1757–1763
Gospadarowicz D (1985) Biological activity in vivo of pituitary and brain fibroblast growth factor. In: Ford RJ, Maizel ANY (eds) Mediators in cell growth and differentiation. Raven Press, New York, pp 109–134
Gospadarowicz D (1990) Fibroblast growth factor: chemical structure and biological function. Clin Orthop 257:231–248
Gu X, Kay EP (1998) Distribution and putative roles of fibroblast growth factor-2 isoforms in corneal endothelial modulation. Invest Ophtalmol Vis Sci 39:2252–2258
Hughes RC (1999) Secretion of the galectin family of mammalian carbohydrate-binding proteins. Biochim Biophys Acta 1473(1):172–185
Kandel J, Bossy-Wetzel E, Radvanyi F, Klagsbrun M, Folkman J, Hanahan D (1991) Neovascularization is associated with a switch to the export of bFGF in the multistep development of fibrosarcoma. Cell 66(6):1095–1104
Kato H, Suga H, Eto H, Araki J, Aoi N, Doi K et al (2010) Reversible adipose tissue enlargement induced by external tissue suspension: possible contribution of basic fibroblast growth factor in the preservation of enlarged tissue. Tissue Eng Part A 16(6):2029–2040
Katsuno A, Aimoto T, Uchida E, Tabata Y, Miyamoto M, Tajiri T (2011) The controlled release of basic fibroblast growth factor promotes a rapid healing of pancreaticojejunal anastomosis with potent angiogenesis and accelerates apoptosis in granulation tissue. J Surg Res 167(1):166–172
Kayton RJ, Aktas RG (2000) Electron microscopic immunolocalization of basic fibroblast growth factor-like molecules in peripheral nerves. Histochem Cell Biol 114:413–419
Kinsella MG, Tsoi CK, Jarvelainen HT, Wight TN (1997) Selective expression and processing of biglycan during migration of bovine aortic endothelial cells: the role of endogenous basic fibroblast growth factor. J Biol Chem 272(1):318–325
Kloth S, Gerdes J, Wanke C, Minuth WW (1998) Basic fibroblastic growth factor is a morphogenic modulator in kidney vessel development. Kidney Int 53:970–978
Lee, MC, Miller EA, Goldberg J, Orci L, Schekman R (2004) Bi-directional protein transport between the ER and Golgi. Annu Rev Cell Dev Biol 20:87–123
Lippincott-Schwartz J, Yuan LC, Bonifacino JS, Klausner RD (1989) Rapid redistribution of Golgi proteins into the ER in cells treated with brefeldin A: evidence for membrane cycling from Golgi to ER. Cell 56:801–813
Maffucci T, Raimondi C, Abu-Hayyeh S, Dominguez V, Sala G, Zachary I et al (2009) Phosphoinositide 3-kinase/phospholipase Cgamma1 pathway regulates fibroblast growth factor-induced capillary tube formation. PLoS One 4(12):e8285
Mc Neil PL, Muthukrishnan L, Warder E, D’Amore PA (1989) Growth factors are released by mechanically wounded endothelial cells. J Cell Biol 109:811–822
Mignatti P, Rifkin DB (1991) Release of basic fibroblast growth factor, an angiogenic factor devoid of secretory signal sequence: a trivial phenomenon or a novel secretion mechanism? J Cell Biochem 47(3):201–207
Mignatti P, Tsuboi R, Robbins E, Rifkin DB (1989) In vitro angiogenesis on the human amniotic basement membrane: requirement for basic fibroblast growth factor-induced proteinases. J Cell Biol 108:671–682
Mignatti P, Morimoto T, Rifkin DB (1992) Basic fibroblast growth factor, a protein devoid of secretory signal sequence, is released by cells via a pathway independent of the endoplasmic reticulum–Golgi complex. J Cell Physiol 151(1):81–93
Misumi Y, Misumi Y, Miki K, Takatsuki A, Tamura G, Ikehara Y (1986) Novel blockade by brefeldin A of intracellular transport of secretory proteins in cultured rat hepatocytes. J Biol Chem 261:11398–11403
Muthukrishnan L, Warder E, Mc Neil P (1991) Basic fibroblastic growth factor is efficiently released from a cytosolic storage site through plasma membrane disruptions of endothelial cells. J Cell Physiol 148:1–16
Nehls V, Herrmann R, Huhnken M (1998) Guided migration as a novel mechanism of capillary network remodeling is regulated by basic fibroblast growth factor. Histochem Cell Biol 109:319–329
Nickel W (2003) The mystery of nonclassical protein secretion. A current view on cargo proteins and potential export routes. Eur J Biochem 270(10):2109–2119
Nickel W (2005) Unconventional secretory routes: direct protein export across the plasma membrane of mammalian cells. Traffic 6(8):607–614
Nickel W (2007) Unconventional secretion: an extracellular trap for export of fibroblast growth factor 2. J Cell Sci 120(Pt 14):2295–2299
Ohta T, Yamamoto M, Numata M, Iseki S, Tsukioka Y, Miyashita T et al (1995) Expression of basic fibroblast growth factor and its receptor in human pancreatic carcinomas. Br J Cancer 72(4):824–831
Ono I, Yamashita T, Hida T, Jin HY, Ito Y, Hamada H et al (2004) Combined administration of basic fibroblast growth factor protein and the hepatocyte growth factor gene enhances the regeneration of dermis in acute incisional wounds. Wound Repair Regen 12(1):67–79
Osborne AR, Rapoport TA, van den Berg B (2005) Protein translocation by the Sec61/SecY channel. Annu Rev Cell Dev Biol 21:529–550
Qu Z, Liebler JM, Powers MR, Galey T, Ahmadi P, Huang X et al (1995) Mast cells are a major source of basic fibroblast growth factor in chronic inflammation and cutaneous hemangioma. Am J Pathol 147:564–573
Qu Z, Kayton RJ, Ahmadi P, Liebler JM, Powers MR, Planck SR et al (1998) Ultrastructural immunolocalization of basic fibroblast growth factor in mast cell secretory granules: morphological evidence for bFGF release through degranulation. J Histochem Cytochem 46(10):1119–1128
Prudovsky I, Mandinova A, Soldi R, Bagala C, Graziani I, Landriscina M, Tarantini F, Duarte M, Bellum S, Doherty H, Maciag T (2003) The non-classical export routes: FGF1 and IL-1alpha point the way. J Cell Sci 116(Pt 24):4871–4881
Renko M, Quarto N, Morimoto T, Rifkin DB (1990) Nuclear and cytoplasmic localization of different basic fibroblast growth factor species. J Cell Physiol 144(1):108–114
Rifkin DB, Moscatelli D (1989) Recent developments in the cell biology of basic fibroblast growth factor. J Cell Biol 109:1–6
Roth J, Taatjes DJ, Warhol MJ (1989) Prevention of non-specific interactions of gold labeled reagents on tissue sections. Histochemistry 92(1):47–56
Sato Y, Rifkin DB (1988) Autocrine activities of basic fibroblast growth factor: regulation of endothelial cell movement, plasminogen activator synthesis, and DNA synthesis. Cell Biol 107:1199–1205
Schäfer T, Zentgraf H, Zehe C, Brügger B, Bernhagen J, Nickel W (2004) Unconventional secretion of fibroblast growth factor 2 is mediated by direct translocation across the plasma membrane of mammalian cells. J Biol Chem 279(8):6244–6251
Schechter J, Pattison A, Pattison T (1996) Basic fibroblast growth factor within endothelial cells during vascularization of the anterior pituitary. Anat Record 245:46–52
Schweigerer L, Neufeld G, Friedman J, Abraham JA, Fiddes JC, Gospadarowicz D (1987) Capillary endothelial cells express basic fibroblast growth factor, a mitogen that promotes their own growth. Nature 325:257–259
Seghezzi G, Patel S, Ren CJ, Gualandris A, Pintucci G, Robbins ES et al (1998) Fibroblast growth factor-2 (FGF-2) induces vascular endothelial growth factor (VEGF) expression in the endothelial cells of forming capillaries: an autocrine mechanism contributing to angiogenesis. J Cell Biol 141:1659–1673
Takahashi T, Huynh-Do U, Daniel TO (1998) Renal microvascular assembly and repair: power and promise of molecular definition. Kidney Int 53(4):826–835
Tanimoto H, Yoshida K, Yokozaki H, Yasui W, Nakayama H, Ito H et al (1991) Expression of basic fibroblast growth factor in human gastric carcinomas. Virchows Arch B Cell Pathol 61(4):263–267
Tengood JE, Ridenour R, Barodsky R, Russell AJ, Little SR (2011) Sequential delivery of basic fibroblast growth factor and platelet-derived growth factor for angiogenesis. Tissue Eng Part A 17(9–10):1181–1189
Tessler S, Neufeld G (2005) Basic fibroblast growth factor accumulates in the nuclei of various bFGF producing cell types. J Cell Physiol 145(2):310–317
Tomanek RJ, Doty MK, Sandra A (1998) Early coronary angiogenesis in response to thyroxine: growth characteristic and upregulation of basic fibroblast growth factor. Circ Res 82:587–593
Villaschi S, Nicosia RF (1993) Angiogenic role of endogenous basic fibroblast growth factor released by rat aorta after injury. Am J Pathol 143(1):181–190
Vladovsky I, Folkman J, Sullivan R, Fridman R, Ishai-Michaeli R, Sasse J et al (1987) Endothelial cell-derived basic fibroblast growth factor: synthesis and deposition into subendothelial extracellular matrix. Proc Nat Acad Sci 84:2292–2296
Wegehingel S, Zehe C, Nickel W (2008) Rerouting of fibroblast growth factor 2 to the classical secretory pathway results in post-translational modifications that block binding to heparan sulfate proteoglycans. FEBS Lett 582(16):2387–2392
Yamamoto T, Umeda T, Yokozeki H, Nishioka K (1999) Expression of basic fibroblast growth factor and its receptor in angiosarcoma. Am J Acad Dermatol 41:127–129
Yamazaki K, Nagao T, Yamaguchi T, Saisho H, Kondo Y (1997) Expression of basic fibroblast growth factor (FGF-2)-associated with tumour proliferation in human pancreatic carcinoma. Virchows Arch 431:95–101
Yeh C, Peng H, Huang T (1999) Cytokines modulate integrin αvβ3-mediated human endothelial cell adhesion and calcium signalling. Exp Cell Res 251:57–66
Yu Z, Biro S, Fu Y, Sanchez J, Smale G, Sasse J et al (1993) Localization of basic fibroblast growth factor in bovine endothelial cells: immunohistochemical and biochemical studies. Exp Cell Res 204:247–259
Zehe C, Engling A, Wegehingel S, Schäfer T, Nickel W (2006) Cell-surface heparan sulfate proteoglycans are essential components of the unconventional export machinery of FGF-2. Proc Natl Acad Sci USA 103(42):15479–15484
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Aktas, R.G., Kayton, R.J. Ultrastructural immunolocalization of basic fibroblast growth factor in endothelial cells: morphologic evidence for unconventional secretion of a novel protein. J Mol Hist 42, 417–425 (2011). https://doi.org/10.1007/s10735-011-9345-3
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DOI: https://doi.org/10.1007/s10735-011-9345-3