Publications by authors named "Larissa Legewie"

Guanylate-binding proteins (GBPs) are essential interferon-γ-activated large GTPases that play a crucial role in host defense against intracellular bacteria and parasites. While their protective functions rely on protein polymerization, our understanding of the structural intricacies of these multimerized states remains limited. To bridge this knowledge gap, we present dimer models for human GBP1 (hGBP1) and murine GBP2 and 7 (mGBP2 and mGBP7) using an integrative approach, incorporating the crystal structure of hGBP1's GTPase domain dimer, crosslinking mass spectrometry, small-angle X-ray scattering, protein-protein docking, and molecular dynamics simulations.

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Members of the murine guanylate-binding protein family (mGBP) are induced by interferon gamma (IFN-γ) and have been shown to be important factors in cell-autonomous immunity toward the intracellular pathogen Previously, we identified that mGBP2 mediates disruption of the parasitophorous vacuole membrane (PVM) and directly assaults the plasma membrane of the parasite. Here, we show that mGBP7-deficient mice are highly susceptible to infection. This is demonstrated by the loss of parasite replication control, pronounced development of ascites, and death of the animals in the acute infection phase.

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Guanylate-binding proteins (GBPs) constitute a family of interferon-inducible guanosine triphosphatases (GTPases) that are key players in host defense against intracellular pathogens ranging from protozoa to bacteria and viruses. So far, human GBP1 and GBP5 as well as murine GBP2 (mGBP2) have been biochemically characterized in detail. Here, with murine GBP7 (mGBP7), a GBP family member with an unconventional and elongated C-terminus is analyzed.

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