Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P02794 (ferritin)
 17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Spectrin, a protein complex which is peripherally attached to the cytoplasmic surface of the human erythrocyte membrane, cannot be detected (by complement fixation with anti-spectrin antibodies) in homogenates of several different human non-muscle cells studied. On the other hand, a protein antigenically identical or similar to human smooth muscle myosin was detected (by complement fixation with antibodies to uterine smooth muscle myosin) in these cells. In the case of human fibroblast line WI38, this smooth muscle myosin like component was shown (by ferritin-antibody experiments in electron microscopy) to be at least partly associated with cytoplasmic surface of the plasma membrane of the cell. It is proposed that the spectrin complex of the erythrocyte membrane and the smooth muscle myosin-like component of the fibroblast membrane play similar roles in regulating the translational mobilities of integral proteins in their respective membranes.
 ...
PMID:Detection and ultrastructural localization of human smooth muscle myosin-like molecules in human non-muscle cells by specific antibodies. 105 11

Outer hair cell (OHC) shortening has previously been induced in vitro by the application of solutions containing high potassium (a depolarizing agent), acetylcholine (a suggested efferent transmitter) and cationized ferritin (a positively charged macromolecule), as well as by electrical current. The application of caffeine, which causes contractures in skeletal and smooth muscle by releasing calcium from intracellular stores to activate actin and myosin interaction, also causes shortening of OHCs. Tetracaine, which interferes with calcium movement in muscle and non-muscle cells, blocks potassium-induced and caffeine-induced shortening of OHCs, but does not block electrically-induced shortening. Sodium dantrolene which is an inhibitor of intracellular calcium release in skeletal muscle does not block potassium-induced OHC shortening. Immunocytochemical studies using antibodies to muscle-like contractile and regulatory proteins on unfixed, freeze-dried OHCs demonstrate the co-localization of calmodulin with actin throughout the OHC cytoplasm. These results support the ideas that in OHCs, intracellular calcium release is involved in the activation of shortening and that an actin-mediated cell shape change may be regulated by calmodulin in a manner similar to that which occurs in contraction of smooth muscle.
 ...
PMID:Effects of caffeine and tetracaine on outer hair cell shortening suggest intracellular calcium involvement. 335 Jul 71

A procedure has been developed for the immunoelectron microscopic localization of intracellular antigens on thin-sectioned tissues. The tissues were fixed in a periodate-lysine-paraformaldehyde solution or a formaldehyde-glutaraldehyde combination and embedded in the acrylate-methacrylate mixture, Lowicryl K4M (Polaron), which was polymerized under ultraviolet irradiation at -35 degrees C. Thin sections were mounted on gold grids, immunostained using an indirect method with ferritin-labeled antibodies, and, optionally, counterstained with osmium tetroxide and/or lead citrate and uranyl acetate. The procedure provided good morphologic preservation of the cell architecture in adult and embryonic heart, and skeletal and smooth muscle tissue, as well as nonmuscle cells. At the same time it retained the antigenicities of several contractile proteins, including myosin, tropomyosin, actin, and alpha-actinin. The method has advantages over en bloc staining techniques in that the problem of antibody penetration into the cells is eliminated and careful controls can be performed on adjacent sections. This technique will be useful for localizing, at the ultrastructural level, contractile and other selected proteins in a variety of muscle and non-muscle cells. Details of the new protocol and a description of the results of using antibody against the contractile protein, alpha-actinin, are given.
 ...
PMID:Immunoelectron microscopic localization of alpha-actinin on Lowicryl-embedded thin-sectioned tissues. 388 38

Heart and other muscles of the rat contain two forms of ferritin separable in polyacrylamide gel electrophoresis. The cellular location of the fast- and slow-migrating ferritins was investigated using primary cultures of hindlimb skeletal muscle, and isolated myocardial cell populations. Muscle and non-muscle cells were isolated in good yield from hearts of adult rats pretreated with large doses of iron to increase their ferritin content. In virtually all cases, the isolated muscle cells contained traces only of the fast-migrating species and the non-muscle cells contained small amounts of the slow-migrating ferritin. During cell isolation, 90-100% of both ferritins was lost and could be recovered in the perfusates and solutions employed, while one third of the total tissue protein, and a larger percentage of creatine phosphokinase, was recovered in the isolated cells. Primary cultures of thigh muscle from adult rats which had differentiated into multi-nucleated myotubes, were incubated for 1-3 days with chelated iron. These cells contained substantial amounts of the electrophoretically fast migrating ferritin, with its characteristic larger Stokes' radius (determined by quantitative polyacrylamide gel electrophoresis). None of the slow-migrating ferritin species was detected, although hindlimb muscle from iron-treated rats contained both forms. It is concluded that the fast-migrating ferritin of muscle, which is much larger and more asymmetric than other ferritins, is confined to the muscle cell population, while the other form is predominantly or exclusively in the non-muscle cells. Both ferritins are lost preferentially over other proteins during procedures which injure muscle tissue.
 ...
PMID:Cellular location of rat muscle ferritins and their preferential loss during cell isolation. 671 90