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Yayın Blister artifact formation due to organic solvent effects on Spurr's epoxy resin(Taylor and Francis Online, 1998) Kayton, Robert J.Wrinkles and air bubble artifacts may occur when preparing slides of semithin sections (0.5 ?m) from blocks embedded in different resins. More than aesthetically annoying, wrinkles and air bubble artifacts may prohibit study of small structures. Present observations suggest that organic solvent based mounting media may interact with the resin of the section. This sometimes causes wrinkles and air bubble artifacts in the sections that degrade the quality of light microscope images. We compared the quality of semithin sections of several tissues in different resins using various types of mounting media. We observed that sections from Spurr's resin have many more artifacts. In particular, small, 2–10 ?m round or oblong blister-like artifacts often plague our Spurr's resin sections. We demonstrate that Spurr's resin sections react with toluene and xylene in organic solvent based mounting media forming blisters, while sections from Araldite and L. R. White do not. We suggest combinations of embedding and mounting media for successful preparation of semithin sections for light microscopy without wrinkles, blisters, or air bubble artifacts.Yayın Electron microscopic immunolocalization of basic fibroblast growth factor in peripheral nerves(Springerlink, 2000) Kayton, Robert J.In spite of ample information about the distribution and the effects of basic fibroblast growth factor (bFGF) in the central nervous system, few data are available concerning the localization of this protein in the peripheral nervous system. In view of the role of bFGF in the regulation of trophic and non-trophic functions, we focused on the presence and precise localization of this growth factor in normal peripheral nerves at the electron microscopic level. The study shows that bFGF is mainly located in the Schwann cells, especially in the nuclei. There is slight labeling in the myelin sheath and in the axon cytoplasm. The study provides morphologic evidence for an association between bFGF expression and Schwann cells. Such as association argues for a role of this peptide in the maintenance or regeneration of peripheral nerves.Yayın Electron microscopic ımmunolocalization of basic fibroblast growth factor-like molecules in capillary endothelial cells.(Cambridge University Press, 1998) Kayton, Robert J.Basic fibroblast growth factor (bFGF) is a potent angiogenic polypeptide. It promotes angiogenesis in vivo and in vitro by stimulating migration, proliferation and proteolytic activity of endothelial cells. Whereas several effects of exogenous bFGF on endothelial cells have been described, it has remained unclear how endogenous bFGF produced by vascular endothelial cells regulate angiogenesis. To further investigate functional implications of the distribution of bFGF, we undertook the present study. Our aims were (i) to identify the specific location of bFGF in endothelial cells using electron microscopy immunogold labeling technique (ii) to determine the distribution of bFGF in capillaries of different types of tissues. Tissue samples from sciatic nerve, hippocampus, adrenal gland and kidney of normal adult rats were fixed in 4% paraformaldehyde/1 to 5% glutaraldehyde and embedded in Spurr's resin. Ultrathin sections were labeled with either polyclonal (F3393-Sigma) or monoclonal antibodies (F6162-Sigma, C3316-ZymoGenetics) specific for bFGF using a two-step immunogold labeling method.Yayın Quantitative Analysis of Immunogold Labeling for Basic Fibroblast Growth Factor According to the Activational Stages of Mast Cells(SCI PRINTERS & PUBL INC, 2013) Aktas, Ranan Gulhan; Kayton, Robert J.; Caglar, Mine; Oktayer, Adviye GozdeOBJECTIVE: To analyze whether immunogold labeling density for basic fibroblastic growth factor in granules is compatible with the activation stage of mast cells. STUDY DESIGN: Cytoplasmic features and granules of 46 mast cells were examined at the ultrastructural level. The cells were classified according to their activation stage, namely, whether resting, initially activated, fully degranulated or piecemeal degranulated. Granules were classified as electron lucent, moderate or dense granules. Gold particles per secretory granules in the cells were counted. Recently described quantitative analysis techniques were used for evaluation. RESULTS: There is a statistically meaningful relationship between the activation stage of mast cells and their immunogold labeling density. The number of different types of granules encountered in a cell depends on the type of the cell. The distribution of gold particles among the secretory granules depends upon the cell. The type of granule does not have an individual effect on the number of particles, as indicated by an overall statistical analysis of granules, cells and their interaction effects. CONCLUSION: A count of gold particles in the cells can be used as a strong biological indicator. Therefore the number of gold particles might be very useful for comparative studies related to the secretion of this growth factor under different conditions.Yayın Quantitative analysis of immunogold labeling for basic fibroblast growth factor according to the activational stages of mast cells(2013) Aktaş, Ranan Gülhan; Kayton, Robert J.; Çağlar, Mine; Oktayer, Adviye GözdeOBJECTIVE: To analyze whether immunogold labeling density for basic fibroblastic growth factor in granules is compatible with the activation stage of mast cells. STUDY DESIGN: Cytoplasmic features and granules of 46 mast cells were examined at the ultrastructural level. The cells were classified according to their activation stage, namely, whether resting, initially activated, fully degranulated or piecemeal degranulated. Granules were classified as electron lucent, moderate or dense granules. Gold particles per secretory granules in the cells were counted. Recently described quantitative analysis techniques were used for evaluation. RESULTS: There is a statistically meaningful relationship between the activation stage of mast cells and their immunogold labeling density. The number of different types of granules encountered in a cell depends on the type of the cell. The distribution of gold particles among the secretory granules depends upon the cell. The type of granule does not have an individual effect on the number of particles, as indicated by an overall statistical analysis of granules, cells and their interaction effects. CONCLUSION: A count of gold particles in the cells can be used as a strong biological indicator. Therefore the number of gold particles might be very useful for comparative studies related to the secretion of this growth factor under different conditions. © Science Printers and Publishers, Inc.Yayın Subcellular distribution of basic fibroblast growth factor-like molecules ın fibroblasts and extracellular matrix(Cambridge University Press, 1999) Kayton, Robert J.Basic fibroblast growth factor (bFGF) is thought to play an important role in normal tissue repair and wound healing. It is a potent mitogenic and chemotactic factor for fibroblasts. To some degree bFGF regulates proliferation and extracellular matrix (ECM) production by these cells. In this study we investigate (i) the distribution of bFGF in fibroblasts and ECM of supporting tissues (ii) the subcellular location of this protein in vivo and, (iii) mechanisms for release of this growth factor from fibroblasts. Spurr's resin embedded ultrathin sections from adult rat sciatic nerve, adrenal gland, kidney; and from normal human lung and skin were labeled with either polyclonal (F3393-Sigma) or monoclonal antibodies (F6162-Sigma, C3316-ZymoGenetics Inc.) specific for bFGF using a two-step immunogold labeling method. Controls were incubated with either an equivalent volume of blocking solution (omitting the primary antibody) or an irrelevant antibody (Factor VIII, anti-Histamine)(Fig. 4).Yayın Ultrastructural distribution of basic fibroblast growth factor-like molecules in peripheral nerves(Cambridge University Press, 1998) Kayton, Robert J.Basic Fibroblast Growth Factor (bFGF) is a multifunctional polypeptide which has been shown to play a pivotal role in the survival and differentiation of nerve cells. Several trophic and non-trophic functions of this protein have been suggested in peripheral nerves. In spite of ample information about the distribution and effects of bFGF in central nervous system, few data are available concerning the localization of this protein in peripheral nerves. In view of the role of bFGF in regulation of trophic and non-trophic functions, we particularly focused on the presence and precise location of bFGF in peripheral nerves at the electron microscope level. Spurr's resin embedded ultrathin sections from adult rats’ sural nerves were labeled with either polyclonal (F3393-Sigma) or monoclonal antibodies (F6162-Sigma, C3316-Zymogenetics) specific for bFGF using two-step immunogold labeling method. Control samples were treated with either an equivalent volume of blocking solution (omitting the primary antibody) or an irrelevant antibody (Factor VIII, VGF, anti-histamine, anti-fibroblast 5B5).Yayın Ultrastructural immunolocalization of basic fibroblast growth factor in endothelial cells: morphologic evidence for unconventional secretion of a novel protein(Springerlink, 2011) Kayton, Robert J.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.Yayın Ultrastructural immunolocalization of basic fibroblast growth factor in fibroblasts and extracellular matrix(Elsevier, 2000) Kayton, Robert J.Basic fibroblast growth factor (bFGF) is thought to play an important role in normal tissue repair and wound healing. It is a potent mitogenic and chemotactic factor for fibroblasts, regulating proliferation and extracellular matrix (ECM) production by these cells. In this study, we present morphologic evidence of the ultrastructural location of bFGF in fibroblasts and ECM using several antibodies, tissues, and species. Distinct labeling is seen in the nuclei of fibroblasts and some labeling in the cytosol. Immunolabeling of the cytosol excludes organelles involved in the usual secretory pathway, such as rough endoplasmic reticulum, Golgi apparatus, and secretory vacuoles. The same labeling is observed with either polyclonal or monoclonal antibodies. We suggest that bFGF functions as a nuclear protein in fibroblasts and is not secreted by a normal secretory pathway. Fibroblasts may export bFGF via unique cellular pathways that are clearly distinct from classic signal peptide mediated secretion. This may provide a source for ECM-resident bFGF. The same antibodies show different labeling intensity in the ECM. This protein, through integration into the ECM, may act as a local regulator and promote regeneration of these tissues after wounding. Direct evidence is the dramatic reduction of bFGF labeling in axotomized rat ECM collagen fibers versus control animals.
