Michael Schauer scite author profile

F ibrosis is associated with many liver diseases, including hepatitis C virus infection, iron deposition, alcohol consumption, and nonalcoholic fatty liver disease. Hepatic fibrosis results from a net increased synthesis and decreased degradation of extracellular matrix (ECM) proteins. Type I collagen is the most prevalent ECM protein deposited, 1 with activated hepatic stellate cells (HSCs) serving as the primary source. Following a fibrogenic stimulus, HSCs activate from their normal quiescent state, whereby they increase synthesis of procollagen type I messenger RNA (mRNA) and protein, 1,2 and increase cellular proliferation, migration, and contractility. 3,4 Excess ECM accumulation results in scarring within the tissue. Our understanding of ECM degradation during hepatic fibrosis is still very limited. ECM degradation is mediated by matrix metalloproteinases (MMPs), a family of zinc-dependent enzymes grouped into collagenases, gelatinases, stromelysins, and membrane-type MMPs, 5 based upon their substrates. Interstitial collagenases (MMP-1 and MMP-13 in humans,

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The N-terminal region of HIV-1 integrase is required for integration activity, but not for DNA-binding

Schauer

Billich²

1992

Biochemical and Biophysical Research Communications

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Multiple Myeloma Treatment in Real-world Clinical Practice: Results of a Prospective, Multinational, Noninterventional Study

Beksaç

Durán

Kochkareva³

et al. 2018

Clinical Lymphoma Myeloma and Leukemia

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Efficient Binding of Glucocorticoid Receptor to Its Responsive Element Requires a Dimer and DNA Flanking Sequences

Chalepakis¹,

Schauer²,

Cao³

et al. 1990

DNA and Cell Biology

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A combination of the gel retardation assay and interference by hydroxyl radical modification (missing nucleoside technique) was used to analyze the interaction of the glucocorticoid receptor (GR) with various glucocorticoid responsive elements (GRE). Short oligonucleotides containing the 15-bp GRE and 1 to 3 flanking base pairs on each side, are bound with very low affinity. The same GREs, when positioned in the center of a large DNA fragment (40-50 bp), show high affinity for the receptor. However, when the GRE is positioned at the border of a 54-bp fragment, the affinity of the GR for the GRE decreases markedly. The DNA binding affinity increases linearly with each added flanking base pair and optimal binding is observed with 8-10 flanking bp. Thus, the nonconserved DNA sequences flanking the GRE contribute significantly to the free energy of receptor binding to DNA. Using larger DNA fragments (greater than 100 bp) and a smaller form of the receptor (40 kD), two retarded complexes are found that correspond to monomeric and homodimeric receptor DNA complexes. The DNA-binding domain of the GR (20 kD), expressed in bacteria, binds to the GRE as a monomer as well as a dimer and can form heterodimers with the native 94-kD GR. Insertion or deletion of one single base pair between the two halves of the GRE reduces the affinity for the homodimeric form of the native GR, and inhibits the function of the GRE in gene transfer experiments, suggesting that a dimer of the GR is the functional entity that binds to the GRE.

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Michael Schauer

DNA regulatory elements for steroid hormones

Antifibrotic effects of a tissue inhibitor of metalloproteinase-1 antibody on established liver fibrosis in rats

The N-terminal region of HIV-1 integrase is required for integration activity, but not for DNA-binding

Multiple Myeloma Treatment in Real-world Clinical Practice: Results of a Prospective, Multinational, Noninterventional Study

Efficient Binding of Glucocorticoid Receptor to Its Responsive Element Requires a Dimer and DNA Flanking Sequences

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