Natalie K. Horvat scite author profile

Pathogenesis induced by SARS-CoV-2 is thought to result from both an inflammation dominated cytokine response and virus-induced cell perturbation causing cell death. Here, we employ an integrative imaging analysis to determine morphological organelle alterations induced in SARS-CoV-2 infected human lung epithelial cells. We report 3D electron microscopy reconstructions of whole-cells and subcellular compartments, revealing extensive fragmentation of the Golgi apparatus, alteration of the mitochondrial network and recruitment of peroxisomes to viral replication organelles formed by clusters of double-membrane vesicles (DMVs). These are tethered to the endoplasmic reticulum, providing insights into DMV biogenesis and spatial coordination of SARS-CoV-2 replication. Live cell imaging combined with an infection sensor reveals profound remodeling of cytoskeleton elements. Pharmacological inhibition of their dynamics suppresses SARS-CoV-2 replication. We thus report insights into virus-induced cytopathic effects, and provide alongside a comprehensive publicly available repository of 3D data-sets of SARS-CoV-2 infected cells for download and smooth online visualization.

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Integrative Imaging Reveals SARS-CoV-2 Induced Reshaping of Subcellular Morphologies

Cortese

Lee

Cerikan

et al. 2020

SSRN Journal

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A Mutation in the Catalytic Loop of Hsp90 Specifically Impairs ATPase Stimulation by Aha1p, But Not Hch1p

Horvat

Armstrong

Lee

et al. 2014

Journal of Molecular Biology

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Core Cross‐Linked Polymeric Micelles for Specific Iron Delivery: Inducing Sterile Inflammation in Macrophages

Bauer

Horvat

Marques

et al. 2021

Adv Healthcare Materials

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Iron is an essential co-factor for cellular processes. In the immune system, it can activate macrophages and represents a potential therapeutic for various diseases. To specifically deliver iron to macrophages, iron oxide nanoparticles are embedded in polymeric micelles of reactive polysarcosine-block-poly(S-ethylsulfonyl-l-cysteine). Upon surface functionalization via dihydrolipoic acid, iron oxide cores act as crosslinker themselves and undergo chemoselective disulfide bond formation with the surrounding poly(S-ethylsulfonyl-l-cysteine) block, yielding glutathione-responsive core cross-linked polymeric micelles (CCPMs). When applied to primary murine and human macrophages, these nanoparticles display preferential uptake, sustained intracellular iron release, and induce a strong inflammatory response. This response is also demonstrated in vivo when nanoparticles are intratracheally administered to wild-type C57Bl/6N mice. Most importantly, the controlled release concept to deliver iron oxide in redox-responsive CCPMs induces significantly stronger macrophage activation than any other iron source at identical iron levels (e.g., Feraheme), directing to a new class of immune therapeutics.

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Natalie K. Horvat

Integrative Imaging Reveals SARS-CoV-2-Induced Reshaping of Subcellular Morphologies

Integrative Imaging Reveals SARS-CoV-2 Induced Reshaping of Subcellular Morphologies

A Mutation in the Catalytic Loop of Hsp90 Specifically Impairs ATPase Stimulation by Aha1p, But Not Hch1p

Core Cross‐Linked Polymeric Micelles for Specific Iron Delivery: Inducing Sterile Inflammation in Macrophages

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