Replica immunoelectron microscopic study of the upper surface layer in rat mandibular condylar cartilage by a quick-freezing method

Zea-Aragón, Zagreb; Terada, Nobuo; Ohno, Nobuhiko; Fujii, Yasuhisa; Baba, Toru; Yoshida, Masayuki; Ohtsuki, Kayoko; Ohnishi, Masatoshi; Ohno, Shinichi

doi:10.1007/s00418-004-0634-8

Cited by 22 publications

(13 citation statements)

References 13 publications

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“…93 Cells and fibrils appeared embedded in a matrix that we tentatively categorized as fibronectin-like (Fig. 11), based on its similarity to QFDE images of Zea-Aragon et al, 94 who identified similar structures via immunogold. Qualitatively, our QFDE image library showed that more of this fibronectin-like matrix was present in the 1% ITS þ 1% FBS culture (not shown).…”

Section: Ecm Structuresmentioning

confidence: 89%

Effect of Serum and Insulin Modulation on the Organization and Morphology of Matrix Synthesized by Bovine Corneal Stromal Cells

Bueno

Saeidi

Melotti

et al. 2009

Tissue Engineering Part A

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The in vitro production of highly organized collagen fibrils by corneal keratocytes in a three-dimensional scaffold-free culture system presents a unique opportunity for the direct observation of organized matrix formation. The objective of this investigation was to develop such a culture system in a glass substrate (for optical accessibility) and to directly examine the effect of reducing serum and=or increasing insulin on the stratification and secretion of aligned matrix by fourth-to fifth-passage bovine corneal stromal keratocytes. Medium concentrations of 0%, 1%, or 10% fetal bovine serum and 0% or 1% insulin-transferrin-selenium were investigated. Highresolution differential interference contrast microscopy, quick-freeze=deep-etch, and conventional transmission electron microscopy were used to monitor the evolution, morphology, and ultrastructure of the cell-matrix constructs. In a medium containing 1% each of serum and insulin-transferrin-selenium, stromal cells stratified and secreted abundant and locally aligned matrix, generating the thickest cell-matrix constructs (allowing handling with forceps). The results of this study have the potential to significantly advance the field of developmental functional engineering of load-bearing tissues by (i) elucidating cues that modulate in vitro cell secretion of organized matrix and (ii) establishing an optically accessible cell culture system for investigating the mechanism of cell secretion of aligned collagen fibrils.

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Section: Ecm Structuresmentioning

confidence: 89%

Effect of Serum and Insulin Modulation on the Organization and Morphology of Matrix Synthesized by Bovine Corneal Stromal Cells

Bueno

Saeidi

Melotti

et al. 2009

Tissue Engineering Part A

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“…At an electron microscopic level, when the cryotechnique is combined with the freeze-fracture replica method as described in the previous section (Section II), we recently reported that the cryotechnique is applicable for the in situ immunolocalization of some soluble matrix molecules, such as hyaluronic acid and fibronectin, in the rat mandibular joint cartilage [20]. Therefore, we have now proposed that the quick-freeze replica method can maintain the original distribution of all biological molecules in cells and tissues by sealing them in a vitreous ice crystal environment.…”

Section: Preservation Of Soluble Components With the In Vivo Crymentioning

confidence: 99%

Immunohistochemical Application of Cryotechniques to Native Morphology of Cells and Tissues

Terada

Ohno

2004

Acta Histochem. Cytochem

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Common immunohistochemistry is a technique based on antigen-antibody reactions in thin sections. It is well known that the important steps of tissue preparation protocols are (i) fixation (chemical and physical methods, especially cryofixation), (ii) sectioning, and (iii) immunostaining. We have already examined how to combine these preparation steps for an improved immunohistochemistry of target cells and tissues so as to overcome some of the technical problems commonly encountered. In many experimental cases, various cryotechniques were useful to obtain both a strong immunoreactivity of the antigens and a high time-resolution of the morphology of living animal cells and tissues. When the ultimate aim is to obtain in vivo observation of the morphology and immunolocalization, the new concept of in vivo cryotechnique becomes indispensable in the field of cell biology.

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“…This technique was performed by rapid freezing of these tissues with liquid isopentane-propane cryogen (À1938C) with or without cutting using a cryoknife (À1968C) cooled down in liquid nitrogen. In previous studies, the dynamic morphological changes in living cells, tissues, and organs using the cryotechnique were observed by electron and light microscopy (Ohno et al, 1996;Takayama et al, 1999Takayama et al, , 2000Terada et al, 1998;Xue et al, 2001;Zea-Aragon et al, 2004b).…”

Section: Introductionmentioning

confidence: 99%

Detection of injected fluorescence-conjugated IgG in living mouse organs using “in vivo cryotechnique” with freeze-substitution

Terada

Ohno

et al. 2005

Microsc. Res. Tech.

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In this experiment, we performed the "in vivo cryotechnique" in tandem with fluorescence microscopy. The fluorescein isothiocyanate (FITC)-conjugated goat anti-rabbit immunoglobulin (IgG) antibody (FITC-IgG) was directly injected into mouse livers or kidneys, which were then frozen in vivo by pouring an isopentane-propane mixture (-193 degrees C) cooled in liquid nitrogen over these living organs. The organs were subsequently freeze-substituted in acetone containing paraformaldehyde at about -80 degrees C, then gradually brought up to a room temperature, infiltrated with 30% sucrose and refrozen. Some well-frozen areas 300-400 mum below the frozen tissue surface were cryocut into several slices. The slices were observed under the fluorescence microscope. By examining the distribution of FITC-IgG in the frozen livers, some aspects of functional blood circulation in the liver, such as the concept of the liver lobule, were reconfirmed. This also confirmed that the blood flow in the liver after the FITC-IgG injection was normal. The subsequent preparation of the specimens with immunohistochemistry, using the tetramethylrhodamine (TRITC)-conjugated anti-mouse IgG antibody, allowed us to visualize the localizations of both the original mouse IgG and the injected goat IgG in the cryosections with different color images. The experimental protocol presented demonstrates the in situ localization of the various proteins labeled with fluorescent probes, and it can, in conjunction with immunohistochemistry, localize proteins in cells and tissues.

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Replica immunoelectron microscopic study of the upper surface layer in rat mandibular condylar cartilage by a quick-freezing method

Cited by 22 publications

References 13 publications

Effect of Serum and Insulin Modulation on the Organization and Morphology of Matrix Synthesized by Bovine Corneal Stromal Cells

Effect of Serum and Insulin Modulation on the Organization and Morphology of Matrix Synthesized by Bovine Corneal Stromal Cells

Immunohistochemical Application of Cryotechniques to Native Morphology of Cells and Tissues

Detection of injected fluorescence-conjugated IgG in living mouse organs using “in vivo cryotechnique” with freeze-substitution

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