Jun Bae Park scite author profile

The bacterial effector proteins SseK and NleB glycosylate host proteins on arginine residues, leading to reduced NF-κB-dependent responses to infection. Salmonella SseK1 and SseK2 are E. coli NleB1 orthologs that behave as NleB1-like GTs, although they differ in protein substrate specificity. Here we report that these enzymes are retaining glycosyltransferases composed of a helix-loop-helix (HLH) domain, a lid domain, and a catalytic domain. A conserved HEN motif (His-Glu-Asn) in the active site is important for enzyme catalysis and bacterial virulence. We observe differences between SseK1 and SseK2 in interactions with substrates and identify substrate residues that are critical for enzyme recognition. Long Molecular Dynamics simulations suggest that the HLH domain determines substrate specificity and the lid-domain regulates the opening of the active site. Overall, our data suggest a front-face SNi mechanism, explain differences in activities among these effectors, and have implications for future drug development against enteric pathogens.

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N-linked glycosylation plays a crucial role in the secretion of HMGB1

Kim

Kwak

Park

et al. 2016

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HMGB1 protein is a delayed mediator of sepsis that is secreted to the extracellular milieu in response to various stimulants, inducing a pro-inflammatory response. HMGB1 is devoid of an endoplasmic reticulum (ER)-targeting signal peptide; hence, the mechanism of extracellular secretion is not completely understood, although HMGB1 is secreted after being subjected to post-translational modifications. Here, we identified the role of N-glycosylation of HMGB1 in extracellular secretion. We found two consensus (N37 and N134) and one non-consensus (N135) residues that were Nglycosylated in HMGB1 by performing liquid chromatography tandem mass spectrometry (LC-MS/MS) and analyzing for Nglycan composition and structure. Inhibition of N-glycosylation with tunicamycin resulted in a molecular shift of HMGB1 as assessed by gel electrophoresis. Non-glycosylated double mutant (N→Q) HMGB1 proteins (HMGB1 N37Q/N134Q and HMGB1 N37Q/N135Q ) showed localization to the nuclei, strong binding to DNA, weak binding to the nuclear export protein CRM1 and rapid degradation by ubiquitylation. These mutant proteins had reduced secretion even after acetylation, phosphorylation, oxidation and exposure to pro-inflammatory stimuli. Taken together, we propose that HMGB1 is N-glycosylated, and that this is important for its DNA interaction and is a prerequisite for its nucleocytoplasmic transport and extracellular secretion.

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Unraveling the Pathobiological Role of the Fungal KEOPS Complex in Cryptococcus neoformans

Choi

Jeong

Lee

et al. 2022

mBio

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Structural analysis of fungal pathogenicity-related casein kinase α subunit, Cka1, in the human fungal pathogen Cryptococcus neoformans

Ong

Yoo

Han

et al. 2019

Sci Rep

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CK2α is a constitutively active and highly conserved serine/threonine protein kinase that is involved in the regulation of key cellular metabolic pathways and associated with a variety of tumours and cancers. The most well-known CK2α inhibitor is the human clinical trial candidate CX-4945, which has recently shown to exhibit not only anti-cancer, but also anti-fungal properties. This prompted us to work on the CK2α orthologue, Cka1, from the pathogenic fungus Cryptococcus neoformans, which causes life-threatening systemic cryptococcosis and meningoencephalitis mainly in immunocompromised individuals. At present, treatment of cryptococcosis remains a challenge due to limited anti-cryptococcal therapeutic strategies. Hence, expanding therapeutic options for the treatment of the disease is highly clinically relevant. Herein, we report the structures of Cka1-AMPPNP-Mg2+ (2.40 Å) and Cka1-CX-4945 (2.09 Å). Structural comparisons of Cka1-AMPPNP-Mg2+ with other orthologues revealed the dynamic architecture of the N-lobe across species. This may explain for the difference in binding affinities and deviations in protein-inhibitor interactions between Cka1-CX-4945 and human CK2α-CX-4945. Supporting it, in vitro kinase assay demonstrated that CX-4945 inhibited human CK2α much more efficiently than Cka1. Our results provide structural insights into the design of more selective inhibitors against Cka1.

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Protein kinase A-induced phosphorylation at the Thr154 affects stability of DJ-1

Kim

Lee

et al. 2019

Parkinsonism & Related Disorders

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Structural insights showing how arginine is able to be glycosylated by pathogenic effector proteins

2018

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Glycosylation is one form of protein modification and plays a key role in protein stability, function, signaling regulation and even cancer. NleB and SseK are bacterial effector proteins and possess glycosyltransferase activity, even though they have different substrate preferences. NleB/SseKs transfer the GlcNAc sugar to an arginine residue of host proteins, leading to reduced NF-κB-dependent responses. By combining X-ray crystallography, NMR, molecular dynamics, enzyme kinetic assays and in vivo experiments, we demonstrated that a conserved HEN (His-Glu-Asn) motif in the active site plays a key role in enzyme catalysis and virulence. The lid-domain regulates the opening and closing of the active site and the HLH domain determines the substrate specificity. Our findings provide evidence for the enzymatic mechanism by which arginine can be glycosylated by SseK/NleB enzymes.

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Integrated cryoEM imaging center at Seoul National University, Korea

et al. 2021

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The Center for Macromolecular and Cell Imaging (CMCI) is a core facility equipped with multiple cryo-capable electron microscopes including a 200 kV Thermofisher Glacios, 200 kV JEOL JEM2100Plus and 120 kV FEI TECNAI with direct electron detector technologies. The center also has auxiliary equipment for optimal specimen preparation, such as for protein purification, tissue culture, grid preparation and vitrification. The center offers to the scientific community the best practice of cutting-edge cryogenic electron microscopy (cryoEM) technology for specimen optimization, highresolution data collection and structure determination. The center also develops the strategy of an integrated cryoEM imaging platform to visualize molecular architectures from purified proteins to cells.

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Jun Bae Park

Structural basis for arginine glycosylation of host substrates by bacterial effector proteins

N-linked glycosylation plays a crucial role in the secretion of HMGB1

Unraveling the Pathobiological Role of the Fungal KEOPS Complex in Cryptococcus neoformans

Structural analysis of fungal pathogenicity-related casein kinase α subunit, Cka1, in the human fungal pathogen Cryptococcus neoformans

Protein kinase A-induced phosphorylation at the Thr154 affects stability of DJ-1

Structural insights showing how arginine is able to be glycosylated by pathogenic effector proteins

Integrated cryoEM imaging center at Seoul National University, Korea

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