Gerlinde Spurej scite author profile

Gerlinde Spurej

3Publications

23Citation Statements Received

25Citation Statements Given

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University of Graz

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Fate of Mallory Body–Containing Hepatocytes: Disappearance of Mallory Bodies and Restoration of the Hepatocytic Intermediate Filament Cytoskeleton After Drug Withdrawal in the Griseofulvin–Treated Mouse

Zatloukal

Spurej

Rainer

et al. 1990

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Mallory bodies are characteristic morphological features of alcoholic hepatitis in man and can be produced in the mouse by chronic griseofulvin intoxication. The appearance of Mallory bodies in hepatocytes is associated with derangement of the cytokeratin intermediate filament cytoskeleton, at least as revealed by immunofluorescence and suggested by immunoelectron microscopy. Immunohistochemical studies were performed to answer the question whether Mallory body formation and cytoskeleton alterations finally lead to cell death or are reversible phenomena. Chronically griseofulvin-intoxicated mice killed at different stages of recovery on a normal diet served as experimental animals. It could be shown that (a) Mallory bodies are very durable structures and are found for up to 6 mo after griseofulvin withdrawal as a result of persistence and neoformation; (b) new Mallory bodies can appear even several months after cessation of griseofulvin feeding; (c) Mallory body formation and cytoskeletal changes by themselves do not lead to irreversible cell damage; (d) the cytoskeletal changes are reversible within 7 mo after griseofulvin withdrawal; (e) a dissociation between disappearance of Mallory bodies and restoration of a regularly immunostained cytoplasmic cytokeratin meshwork is observed.

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Changes of cytokeratin filament organization in human and murine Mallory body‐containing livers as revealed by a panel of monoclonal antibodies

Preisegger

Zatloukal

Spurej

et al. 1991

Liver

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ABSTRACT— Mallory bodies (MBs) are characteristic morphologic features of alcoholic hepatitis and can be produced in mouse hepatocytes by chronic griseofulvin (GF) intoxication. The formation of MBs, which share some immunological, biochemical, and ultrastructural features with cytokeratin (CK) filaments of normal liver, is accompanied by derangement and even loss of the CK cytoskeleton of hepatocytes (“empty cells”) as revealed by immunofluorescence microscopy. To clarify whether this diminution or lack of CK‐related staining of MB‐containing hepatocytes was due to loss of CK filaments or changes in antigenicity or accessibility of antigenic determinants immunohistochemical studies using a battery of monoclonal and polyclonal CK antibodies were performed. It could be shown that all these antibodies directed against different CK polypeptide components and antigenic determinants of CKs revealed a highly reduced or even undetectable cytoplasmic CK meshwork in most cells with fully developed large MBs. In the light of our present knowledge of the organization of CK intermediate filaments, these results indicate that the phenomenon of the “empty cells” reflects a diminution of CK meshwork rather than altered antigenic determinants.

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Alterations of mouse liver nuclear lamins B and B by griseofulvin

Zatloukal¹,

Spurej²,

Denk³

1990

Cell Biology International Reports

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Gerlinde Spurej

Fate of Mallory Body–Containing Hepatocytes: Disappearance of Mallory Bodies and Restoration of the Hepatocytic Intermediate Filament Cytoskeleton After Drug Withdrawal in the Griseofulvin–Treated Mouse

Changes of cytokeratin filament organization in human and murine Mallory body‐containing livers as revealed by a panel of monoclonal antibodies

Alterations of mouse liver nuclear lamins B and B by griseofulvin

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