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Full-Text Articles in Medicine and Health Sciences
Structural Basis For The Homotypic Fusion Of Chlamydial Inclusions By The Snare-Like Protein Inca., Gino Cingolani, Michael Mccauley, Anna Lobley, Alexander J Bryer, Jordan Wesolowski, Deanna L Greco, Ravi K Lokareddy, Erik Ronzone, Juan R Perilla, Fabienne Paumet
Structural Basis For The Homotypic Fusion Of Chlamydial Inclusions By The Snare-Like Protein Inca., Gino Cingolani, Michael Mccauley, Anna Lobley, Alexander J Bryer, Jordan Wesolowski, Deanna L Greco, Ravi K Lokareddy, Erik Ronzone, Juan R Perilla, Fabienne Paumet
Department of Biochemistry and Molecular Biology Faculty Papers
Many intracellular bacteria, including Chlamydia, establish a parasitic membrane-bound organelle inside the host cell that is essential for the bacteria's survival. Chlamydia trachomatis forms inclusions that are decorated with poorly characterized membrane proteins known as Incs. The prototypical Inc, called IncA, enhances Chlamydia pathogenicity by promoting the homotypic fusion of inclusions and shares structural and functional similarity to eukaryotic SNAREs. Here, we present the atomic structure of the cytoplasmic domain of IncA, which reveals a non-canonical four-helix bundle. Structure-based mutagenesis, molecular dynamics simulation, and functional cellular assays identify an intramolecular clamp that is essential for IncA-mediated homotypic membrane fusion during …
Gasdermin Pores Permeabilize Mitochondria To Augment Caspase-3 Activation During Apoptosis And Inflammasome Activation., Corey Rogers, Dan A. Erkes, Alexandria Nardone, Andrew E. Aplin, Teresa Fernandes-Alnemri, Emad S. Alnemri
Gasdermin Pores Permeabilize Mitochondria To Augment Caspase-3 Activation During Apoptosis And Inflammasome Activation., Corey Rogers, Dan A. Erkes, Alexandria Nardone, Andrew E. Aplin, Teresa Fernandes-Alnemri, Emad S. Alnemri
Department of Biochemistry and Molecular Biology Faculty Papers
Gasdermin E (GSDME/DFNA5) cleavage by caspase-3 liberates the GSDME-N domain, which mediates pyroptosis by forming pores in the plasma membrane. Here we show that GSDME-N also permeabilizes the mitochondrial membrane, releasing cytochrome c and activating the apoptosome. Cytochrome c release and caspase-3 activation in response to intrinsic and extrinsic apoptotic stimuli are significantly reduced in GSDME-deficient cells comparing with wild type cells. GSDME deficiency also accelerates cell growth in culture and in a mouse model of melanoma. Phosphomimetic mutation of the highly conserved phosphorylatable Thr6 residue of GSDME, inhibits its pore-forming activity, thus uncovering a potential mechanism by which GSDME …