Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.2.1.36 (hyaluronidase)
4,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To investigate the dystrophic influence on the characteristics of actin, a method for the isolation of F-actin filaments from the skeletal muscle of small sizes, i.e., less than 0.5 g, was devised. In this method, minced muscle was treated with collagenase and hyaluronidase, and the isolated filaments were washed with adenosine triphosphate (ATP). Upon examination in the sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the ATP-washed filaments showed a protein component identical in mobility to actin in untreated myofibrils or to that prepared by the conventional method. Electron microscopic appearances of the filaments were similar to those of F-actin filaments described in the literature. The dimensions of the filaments were 0.5--2.5 micrometer in length and 60--70 A in diameter. The ability to activate the Mg-adenosine triphosphatase or myosin was found to be Ca2+ independent. In all aspects of the above characteristics, the filaments from leg muscles of 129/Re dydy dystrophic mice and their litter mates were observed to be identical.
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PMID:Isolation of F-actin filaments. Comparison of F-actin filament preparations from normal and dystrophic mouse muscle. 15 92

When normal or SV40-transformed Balb/c 3T3 cells are treated with the Ca++-specific chelator EGTA, they round up and pull away from their footpad adhesion sites to the serum-coated tissue culture substrate, as shown by scanning electron microscope studies. Elastic membranous retraction fibers break upon culture agitation, leaving adhesion sites as substrate-attached material (SAM) (Cells leave "footprints" of substrate adhesion sites during movement by a very similar process.) SAM contains 1-2% of the cell's total protein and phospholipid content and 5-10% of its glucosamine-radiolabeled polysaccharide, most of which is glycosaminoglycan (GAG). By one- and two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis, there is considerable enrichment in SAM for specific GAGs; for the glycoprotein fibronectin; and for the cytoskeletal proteins actin, myosin, and the subunit protein of the 10 nm-diameter filaments. Fibrillar fibronectin of cellular origin and substratum-bound fibronectin of serum origin (cold-insoluble globulin, CIg) have been visualized by immunofluorescence microscopy. The GAG composition in SAM has been examined under different cellular growth and attachment conditions. Heparan sulfate content correlates with glycopeptide content (derived from glycoprotein). Newly attaching cells deposit SAM with principally heparan sulfate and fibronectin and little of the other GAGs. Hyaluronate and chrondroitin proteoglycans are coordinately deposited in SAM as cells begin spreading and movement over the substrate. Cells attaching to serum-coated or CIg-coated substrates deposited SAM with identical compositions. The proteoglycan nature of the GAGs in SAM has been examined, as well as the ability of proteoglycans to form two classes of reversibly dissociable "supramolecular complexes" - one class with heparan sulfate and glycopeptide-containing material and the second with hyaluronate-chondroitin complexes. Enzymatic digestion of "intact" SAM with trypsin or testicular hyaluronidase indicates that (1) only a small portion of long-term radiolabeled fibronectin and cyto-skeletal protein is bound to the substrate via hyaluronate or chondroitin classes of GAG; (2) most of the fibronectin, cytoskeletal protein and heparan sulfate coordinately resist solubilization; and (3) newly synthesized fibronectin, which is metabolically labile in SAM, is linked to SAM by hyaluronate- and/or chondroitin-dependent binding. All of our studies indicate that heparan sulfate is a direct mediator of adhesion of cells to the substrate, possibly by binding to both cell-surface fibronectin and substrate-bound CIg in the serum coating; hyaluronate-chondroitin complexes in SAM appear to be most important in motility of cells by binding and labilizing fibronectin at the periphery of footpad adhesions, with subsequent cytoskeletal disorganization.
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PMID:Fibronectin and proteoglycans as determinants of cell-substratum adhesion. 23 21

Our initial attempts to immunolabel intact myocardial walls of 4-12 somite stage chick embryos were hindered by the presence of the cardiac jelly that covers the inner myocardial wall surface and prevents the access of antibodies to that surface. We overcame this difficulty by treating the specimens with hyaluronidase, which made the cardiac jelly permeable to the antibodies. An additional nonionic detergent treatment made the two or more cell layers of the myocardial wall accessible to the antibodies from both surfaces of the wall. Specimens treated in this manner were fluorescently labeled with antibodies to titin, myosin, or actin or with NBD-phallacidin for F-actin and examined as whole mount preparations or cut into semithin sections after resin embedding. These preparations and sections revealed that titin, a putative scaffolding protein of sarcomeres, is present in a punctate state and also in a diffuse form throughout the cytoplasm of cardiac myocytes in the premyofibril stages (4-7 somite stages) as well as in the early stages of myofibril formation. We interpreted the punctate and diffuse states to represent an aggregated state of several titin molecules and a dispersed state of individual titin molecules, respectively. In the 4-7 somite cardiac primodia, myosin and actin show only a uniform labeling throughout the cytoplasm of the myocytes. These observations are in contrast to a previous report that titin and myosin are tightly linked during in vitro skeletal myofibrillogenesis (Hill, C. S., S. Duran, Z. Ling, K. Weber, and H. Holtzer, 1986, J. Cell Biol., 103:2185-2196). In the 8-11 somite stage hearts, the number of individual titin spots rapidly reduces, while the number of myofibrils with periodically aligned titin spots increases, which strongly suggests that the titin spots are incorporated into the newly arising myofibrils. Titin spots were seen as doublets only after titin spots were incorporated into the first myofibrils. However, the fact that the distance between the components of the narrowest doublet was close to the resolution limit of the light microscope left open the possibility that undiscernible doublets of submicroscopic separations might exist in the premyofibril stages. The myosin labeling revealed the sarcomeric periodicity in an earlier stage of myofibril development than the F-actin labeling. In addition, we made two morphogenic observations.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Immunocytochemical studies of cardiac myofibrillogenesis in early chick embryos. I. Presence of immunofluorescent titin spots in premyofibril stages. 332 55

Adult rat heart was dissociated into a single-cell suspension by a retrograde perfusion technique with collagenase and hyaluronidase in Krebs-Ringer phosphate buffer. Long-term culture of these isolated single cardiac muscle cells was established for up to 45 days. Transmission electron microscopy and immunofluorescence analysis with monoclonal antibodies to cardiac myosin were used to examine sequentially the external and internal structural organization of the cardiac myocytes. Most of the cardiac myocytes exhibited prominent alterations in their external and internal structural organization during the first two weeks of culture. As they attached to the substrate and spread out, the myocytes assumed various shapes and sizes, with the exception of a few which maintained their original cylindrical shape. Electron microscopy of 2 to 4-day cultures revealed that most of the muscle cells contained disorganized myofibrils and surface blebs with enclosed mitochondria and myofilaments, which were eventually extruded from the cytoplasm. With progressive culture, the cardiac myocytes appeared to lose myofibrillar material; fewer myofilaments or sacromere fragments with interfibrillar mitochondria were observed in the sarcoplasm. Such cells resembled cultured embryonic or neonatal cardiac myocytes. However, some muscle cells retained closely packed, well organized myofibrils characteristic of freshly dissociated or in vivo cardiac myocytes. Immunofluorescence microscopy demonstrated that the cultured cardiac myocytes were strongly myosin positive throughout their morphological changes and subsequent maintenance in culture. Two patterns of fluorescence were observed in these cells in correlation with the fine structural evidence for myofibrillar distribution. One pattern exhibited bright fluorescence near the central region of the cell with a more weakly diffuse fluorescence throughout the cytoplasm; the other pattern was characterized by bright fluorescence throughout the sarcoplasm. Most of the myocytes retained their contractility throughout the culture period excepting the initial 24 to 48 h of cell attachment and flattening. These studies demonstrate the feasibility of maintaining contractile cardiac muscle cells from adult rats for at least 1 1/2 months in monolayer culture, although some variability in myofibrillar organization has been observed.
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PMID:Long-term cell culture of adult mammalian cardiac myocytes: electron microscopic and immunofluorescent analyses of myofibrillar structure. 635 Jun 10

The focal adhesion preparations which remain attached to a glass substratum when fibroblast bodies are removed by a gentle stream of buffer have been analysed by gel electrophoresis coupled with other selective methods of analysis. The results are consistent with the presence of three classes of macromolecular components. (i) Muscle and associated proteins amongst which actin was abundant with significant amounts of tropomyosin, some myosin and traces of alpha-actinin. Some vimentin was present but no vinculin. We detected a major new protein component, as yet unidentified, with a molecular weight in the region of 50000-55000 which is not desmin or tubulin and could have an important function at the focal adhesion. (ii) Glycoproteins which are a specialised subset of those in the whole plasma membrane and included a family which bind ricin and therefore contain beta-galactose end groups, together with a series having carbohydrate chains which bound neither ricin nor concanavalin A. The relative proportion of ricin-binding glycoproteins compared to concanavalin A-binding glycoproteins was higher than in whole plasma membranes. (iii) Glycosaminoglycans, with hyaluronate identified as the major component by column chromatography and its susceptibility to Streptomyces hyaluronidase.
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PMID:Analysis of the proteins, glycoproteins and glycosaminoglycans of fibroblast adhesions to substratum. 711 14

Vascular endothelial cell (EC) wound healing was characterized on an EC-synthesized extracellular matrix (ECM) previously treated with enzymes and antibodies specific for ECM components. Using a computer-assisted video-microscope recording system capable of automatic EC recognition, we learned whether components of the EC-synthesized matrix influenced post-injury migration and wound healing in vitro. Localization of actin and its encoded mRNA using isoform-specific antibodies and labeled cDNA probes allowed for a direct correlation of living-cell behavior with cytoskeletal form and distribution. Results of these studies indicate that the computer-assisted EC tracking system allows for an automatic and reproducible analysis of EC behavior following injury in vitro. EC migrate fastest immediately following injury and then achieve a new, slower migration rate that is maintained until EC from one edge of 200- to 300-microns-wide wound zone contact EC from the other wound face. Treatment of EC-synthesized matrices with antibodies against fibronectin and laminin has no effect on EC migration following injury (-0.25 microns/min) or on cytoskeletal array. Similarly, digestion of these matrices with heparinase and hyaluronidase has no effect on wound healing rates. Slowly spreading EC cytoplasm, which borders the intact and antibody-treated EC matrices, is rich in actin but lacks myosin II. Two different preparations of collagenase (bacterial and mammalian) each potentiate EC wound healing in vitro. Bacterial collagenase treatment of the EC-synthesized matrices potentiates EC migration fivefold (1 micron/min) while treatment of EC-matrices with mammalian cell collagenase stimulates EC migration following injury some twofold (0.4 micron/min) over control values. Whereas EC on control matrices migrate in unison as a tissue-like sheet, EC on the collagenase-treated EC matrices migrate as individuals. Concomitant with the increased rates of migration following injury on the collagenase-treated EC-matrices is a two- to fourfold increase in the steady-state levels of beta-actin mRNA. This increase in actin mRNA abundance is observable by its preferential localization (seen by in situ hybridization) in the lamellae bordering the wound edge in association with beta-actin, which is exclusively localized there. Because beta-actin and its encoded mRNA are positioned together in association with the plasma membrane in regions of moving cytoplasm, it seems likely that beta-actin filament assembly is required for motility following endothelial injury.
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PMID:Molecular mechanisms regulating the vascular endothelial cell motile response to injury. 752 70

Local anesthetics, particularly bupivacaine, are known to be myotoxic to skeletal muscle. Injury is followed by satellite cell mediated regeneration. The eyelid is a common site for the injection of local anesthetics. Due to the complex anatomy of this region and the unique properties of facial musculature compared to limb skeletal muscle, the response of the orbicularis oculi to local injection of bupivacaine was examined to determine the time course of maximum satellite cell activation and division. The lower eyelids of rabbits were injected with two doses of a combination of bupivacaine and hyaluronidase, spaced 18 h apart. To assess the time course of satellite cell division, bromodeoxyuridine (BrdU) was injected immediately or, 1, 2, 3, 6 or 13 days after the second bupivacaine injury. The rabbits were sacrificed 24 h later. The eyelids were prepared for immunohistological examination and morphometric analysis of the presence of CD11-positive monocytes, neutrophils and macrophages, MyoD expression in satellite cells and/or myoblasts, and co-expression of BrdU and the developmental myosin heavy chain isoform. One day after bupivacaine injury of the orbicularis oculi, there was a large influx of CD11-positive cells which gradually decreased over time. Maximum activation of satellite cells, as defined by MyoD expression, occurred 2 and 3 days after the injury. Using double labeling techniques, the peak of BrdU incorporation occurred on day 3 and was identified in developmental myosin co-labeled cells 4 days after injury. The peak of satellite cell activation and division occurred 3 days after bupivacaine induced injury, as demonstrated by both MyoD expression and after pulse labeling with BrdU as identified in double labeled cells positive for BrdU and the developmental myosin heavy chain isoform. The process of regeneration in this muscle extended beyond the duration of this study. Muscle fibers remained small in cross-sectional area and positive for developmental myosin 2 weeks after injury, at a time when the fiber number had reached control, uninjured levels.
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PMID:Time course of the regenerative response in bupivacaine injured orbicularis oculi muscle. 979 61

Nodular mucinosis is an extremely rare breast lesion. This benign mass usually presents clinically as a poorly circumscribed, subareolar, myxoid mass in young female patients. We report a case of this rare breast lesion and discuss its clinical, radiologic, and histopathologic features. A 21-year-old white woman presented with a mass in the left breast of 6 months' duration. She had never been pregnant or had any history of breast feeding, surgery, trauma, or use of exogenous hormones or a family history of breast cancer. Clinical breast examination demonstrated a 1 cm "rubbery" mass directly under and continuous with the left nipple. The skin that covered the mass had an edematous and irregular appearance without erythema or drainage from the nipple. Ultrasonography demonstrated a 1-cm, nonintraductal, circumscribed, homogeneous, isoechoic mass that was continuous or part of the base of the left nipple. The mass was smooth, with a thin echogenic rim. Doppler flow showed some vascularity. These findings suggested a benign breast lesion, including a fibroadenoma or nipple adenoma. Despite reassurance, the patient desired excision of the lesion. Gross examination revealed a nodular, rubbery-firm, ovoid, pink, polypoid mass that measured 1.5 x 0.9 x 0.8 cm. Microscopic examination showed a well-circumscribed tumor with a nodular appearance, which consisted of an accumulation of pink myxoid tissue and contained spindle cells with bland-appearing nuclei, no mitosis, and mild cellularity. The pink myxoid tissue was stained with Hale colloidal iron and Alcian blue. The Alcian blue stain was removed by pretreatment with hyaluronidase. The spindle cells stained with vimentin and smooth muscle actin; however, they did not express smooth muscle myosin or cytokeratin. This report presents and discusses the pathologic, ultrasonographic, and clinical findings of this rare entity.
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PMID:Nodular mucinosis of the breast: a case report with pathologic, ultrasonographic, and clinical findings and review of the literature. 1573 51

Gastrointestinal nematodes are among the most prevalent parasites infecting humans and livestock worldwide. Infective larvae of the soil-transmitted nematode Ascaris spp. enter the host and start tissue migration by crossing the intestinal epithelial barrier. The initial interaction of the intestinal epithelium with the parasite, however, has received little attention. In a time-resolved interaction model of porcine intestinal epithelial cells (IPEC-J2) and infective Ascaris suum larvae, we addressed the early transcriptional changes occurring simultaneously in both organisms using dual-species RNA-Seq. Functional analysis of the host response revealed an overall induction of metabolic activity, without induction of immune responsive genes or immune signaling pathways and showing suppression of chemotactic genes like CXCL8/IL-8 or CHI3L1. Ascaris larvae, when getting in contact with the epithelium, showed induction of genes that orchestrate motor activity and larval development, such as myosin, troponin, myoglobin, and protein disulfide isomerase 2 (PDI-2). In addition, excretory-secretory products that likely facilitate parasite invasion were increased, among them, aspartic protease 6 or hyaluronidase. Integration of host and pathogen data in an interspecies gene co-expression network indicated links between nematode fatty acid biosynthesis and host ribosome assembly/protein synthesis. In summary, our study provides new molecular insights into the early factors of parasite invasion, while at the same time revealing host immunological unresponsiveness. Reproducible software for dual RNA-Seq analysis of non-model organisms is available at https://gitlab.com/mkuhring/project_asuum and can be applied to similar studies.
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PMID:Silent Witness: Dual-Species Transcriptomics Reveals Epithelial Immunological Quiescence to Helminth Larval Encounter and Fostered Larval Development. 3015 30

The design of hyaluronic acid (HA)-based and stimuli-responsive hydrogels to elicit highly controlled and tunable cell response and behaviors is a major field of interest in tissue engineering and regenerative medicine. The pH-responsive hydrogel can respond to pH variation during wound healing, which may in turn regulate the tissue regeneration process. In this study, a double-network hydrogel cross-linked with vinyl double bonds and Schiff base was prepared, whose properties were further adjusted by incubation in pH 7.4 and pH 5 buffers. The endothelial cells (ECs) migrated much deeper into the softer HA hydrogel pre-treated with pH 5 buffer than the stiffer hydrogel. By contrast, the mesenchymal stem cells (MSCs) migrated easily into the stiffer hydrogel. The ECs highly expressed RhoA and non-muscle myosin (NM) II genes in the softer hydrogel, which may facilitate amoeboid migration. Meanwhile, the MSCs were stiffer than the ECs, and highly expressed Rac1, RhoA, vinculin, NM II, hyaluronidase (HYAL) 2 and CD44 genes in the stiffer hydrogel, which facilitate mesenchymal migration. These results provide important clues for revealing the different migration strategies of the ECs and MSCs in HA hydrogels with different stiffness, and suggest that the mechanical properties and the network structure of hydrogels play an important role in regulating the three-dimensional migration process of these cells.
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PMID:Migration of endothelial cells and mesenchymal stem cells into hyaluronic acid hydrogels with different moduli under induction of pro-inflammatory macrophages. 3141 53


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