Chiho Hirota scite author profile

Chiho Hirota

4Publications

7Citation Statements Received

23Citation Statements Given

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Affiliations

Tokyo Medical and Dental University, Kitasato University

Publications

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Immuno-electron-microscopic localization of enkephalin in the secretory granules of C cells in the chicken ultimobranchial glands

1993

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In the chicken, enkephalin-immunoreactive cells and nerve fibers are distributed in the ultimobranchial glands, which consist of C-cell groups and cyst structures. Ultrastructural features of the enkephalin cells and nerve fibers were examined by immuno-electron microscopy using both the streptavidin-biotin-peroxidase method and the protein A-colloidal gold method. Immunoreactivity for enkephalin was located on the secretory granules of C cells. In 1-day-old chickens, three types of C cells were distinguished on the basis of their granule size. Type-I cells were filled with large secretory granules (200-600 nm in diameter). These elements represented a majority of the C-cell population. Type-II cells contained medium-sized granules (100-280 nm in diameter). Type-III cells displayed small secretory granules (60-200 nm in diameter). The latter cells were elongate or irregular in shape and frequently extended cytoplasmic processes into the connective tissue stroma or contacted other C cells. Enkephalin-immunoactivity was revealed by dense deposits of immunogold particles on the secretory granules of type-II and type-III cells. There were only a few type-I cells showing immunoreactivity for enkephalin. A double immunogold labeling procedure demonstrated that calcitonin and enkephalin were colocalized in the same secretory granules of type-I and type-II cells. Type-III cells were devoid of immunoreactivity for calcitonin. Enkephalin-immunoreactive nerve fibers were characterized by the presence of granular vesicles, 60-160 nm in diameter, and frequently established direct contact with the surface of C cells.(ABSTRACT TRUNCATED AT 250 WORDS)

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Staining of pancreatic centroacinar cells, liver bile canaliculi and testicular Leydig cells with a monoclonal antibody against adrenocortical cells

1993

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The immunoreactivity of a monoclonal antibody against cell suspensions from guinea pig adrenal glands was examined at light- and electron-microscopic levels. In addition to the cell surface membrane of adrenocortical cells, the antibody labeled specific sites in the pancreas, liver and testis, but did not label any of the other tissues examined. In the pancreas, microvilli-like processes and the cell surface membrane of centroacinar cells were immunoreactive to the antibody. The microvilli of interlobular duct cells and pancreatic duct cells were also immunoreactive. In the liver, bile canalicular microvilli of hepatocytes were exclusively labeled. Membrane structures of cell organelles, mainly mitochondria, in testicular Leydig cells were also labeled. Immunoblot analysis showed that the monoclonal antibody bound to two common bands at molecular weights of approximately 62 kDa and 110 kDa in the pancreas, liver, testis, and adrenal gland. The two bands reacted with the digoxigenin-conjugated lectin, Sambucus nigra agglutinin (SNA), which recognizes sialic acid linked alpha (2-6) to galactose. Reaction patterns of SNA in the pancreas, liver and testis were similar to those of the monoclonal antibody; pancreatic centroacinar cells and interlobular duct cells, hepatocyte bile canaliculi and testicular Leydig cells were densely stained with SNA. Thus, the monoclonal antibody recognizes two common membrane glycoproteins containing sialic acids in the pancreas, liver, testis and adrenal cortex.

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Developing a “Multidisciplinary Collaboration Ability Scale (MCAS)”: Examining the Reliability and Validity for Medical Professionals Engaged in Cancer Care

et al. 2023

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Purpose: e purpose of this study is to develop a Multidisciplinary Collaboration Ability Scale (MCAS) and examine the reliability and validity for medical professionals engaged in cancer care. Method: e rst MCAS draft was created, and the content validity and surface validity of the scale were examined for medical professionals. Next, a cross-sectional questionnaire survey was conducted on medical professionals engaged in cancer care who worked in medical institutions. Exploratory factor analysis and known-groups technique were carried out, coe cient α calculated, and concurrent validity examined. is study was conducted with the approval of the research ethics review. Result: Exploratory factor analysis resulted in 33 items of 4 factors (ability to promote discussion, foundational relationship building, self-control, and problem-solving activities).e MCAS score was signi cantly higher for those who had participated in a multidisciplinary workshop and those who had more years of experience. Coe cient α for the entire scale and for each factor was .80 and above. Examination of concurrent validity showed a moderate correlation. Conclusion: e reliability and validity of MCAS in its development stage were generally veri ed.

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Production of a monoclonal antibody against cell-surface glycoprotein of guinea pig adrenocortical cells.

Kameda

Hirota²

1993

J Histochem Cytochem.

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A monoclonal antibody (MAb) that reacted with the cellsurface antigens of adrenocortical cells was generated against cell suspensions from guinea pig adrenal glands. Cell-surfam membranes of the adrenocortical cells in all zones, i.e., zona glomerulosa, ZOM fasciculata, and ZOM reticularis, were labeled with the antibody. Adrenal medulla remained unlabeled. Immunoelectron microscopy showed that entire plasma membranes, i.e., plasma membranes between adjacent cells and free cell-surface membranes, including sinusoidal microvilli, were immunoreactive to the antibody. Immunoblot analysis demonstrated that the antibody bound to two prominent bands at molecular weights of approximately 62,000 and 110,000. Two bands were stained with lectin-digoxigenin conjugates. The 110 KD band reacted with Datura svamoniUm @SA) and Maackia amurensis (MAA) agglutinins, indicating the presence of N-acetyl-

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Chiho Hirota

Immuno-electron-microscopic localization of enkephalin in the secretory granules of C cells in the chicken ultimobranchial glands

Staining of pancreatic centroacinar cells, liver bile canaliculi and testicular Leydig cells with a monoclonal antibody against adrenocortical cells

Developing a “Multidisciplinary Collaboration Ability Scale (MCAS)”: Examining the Reliability and Validity for Medical Professionals Engaged in Cancer Care

Production of a monoclonal antibody against cell-surface glycoprotein of guinea pig adrenocortical cells.

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