Your search keyword '"Hwan Keun Kim"' showing total 55 results

51. Small molecule inhibitor of lipoteichoic acid synthesis is an antibiotic for Gram-positive bacteria.

Author

Richter, Stefan G., Elli, Derek, Hwan Keun Kim, Hendrickx, Antoni P. A., Sorg, Joseph A., Schneewind, Olaf, and Missiakas, Dominique

Subjects

LIPOTEICHOIC acid, MICROBIOLOGICAL synthesis, GRAM-positive bacteria, BACTERIAL genetics, ESCHERICHIA coli, PHOSPHATIDYLGLYCEROL, GLYCOLIPIDS, ANTIBIOTICS

Abstract

The current epidemic of infections caused by antibiotic-resistant Gram-positive bacteria requires the discovery of new drug targets and the development of new therapeutics. Lipoteichoic acid (LTA), a cell wall polymer of Gram-positive bacteria, consists of 1,3-polyglycerol-phosphate linked to glycolipid. LTA synthase (LtaS) polymerizes polyglycerol-phosphate from phosphatidylglycerol, a reaction that is essential for the growth of Gram-positive bacteria. We screened small molecule libraries for compounds inhibiting growth of Staphylococcus aureus but not of Gram-negative bacteria. Compound 1771 [2-oxo-2-(5-phenyl-1,3,4-oxadiazol-2-ylamino)ethyl 2-naphtho[2,1-b]furan-1-ylacetate] blocked phosphatidylglycerol binding to LtaS and inhibited LTA synthesis in S. aureus and in Escherichia coli expressing ltaS. Compound 1771 inhibited the growth of antibiotic-resistant Gram-positive bacteria and prolonged the survival of mice with lethal S. aureus challenge, validating LtaS as a target for the development of antibiotics. [ABSTRACT FROM AUTHOR]

Published

2013

52. Identifying protective antigens of Staphylococcus aureus, a pathogen that suppresses host immune responses.

Author

Hwan Keun Kim, Hye-Young Kim, Schneewind, Olaf, and Missiakas, Dominique

Abstract

Staphylococcus aureus infections result in abscesses as well as septicemia. Even with therapy, abscesses can persist or even reoccur, as staphylococcal infections fail to induce protective immune responses. Here, we show that prior infection with certain attenuated strains may elicit protective immunity. A closer examination reveals that protection correlates with antibody responses elicited on exposure to particular attenuated variants. Linear regression analysis was used to compare reduction in staphylococcal disease and antibody responses to infection with wild-type and attenuated variants. This analysis identified protective antigens that, when tested as vaccines in mice, elicited disease protection. Protection afforded by attenuated strains correlates in part with the ability of Staphylococcus aureus to modulate B cell responses via protein A (spa encoded). We designate this approach "genetic vaccinology," since it exploits genetic variants to draw a correlation between disease protection and humoral immune responses for the deduction of vaccine antigens. Genetic vaccinology is particularly useful for microbes that do not elicit natural protective immunity during infection. [ABSTRACT FROM AUTHOR]

Published

2011

53. Age-dependent Powassan virus lethality is linked to glial cell activation and divergent neuroinflammatory cytokine responses in a murine model.

Author

Mladinich, Megan C., Himmler, Grace E., Conde, Jonas N., Gorbunova, Elena E., Schutt, William R., Sarkar, Shayan, Tsirka, Styliani-Anna E., Hwan Keun Kim, and Mackow, Erich R.

Subjects

*OLDER people, *POWASSAN (Disease), *VIRAL load, *NEUROGLIA, *THERAPEUTICS

Abstract

Powassan virus (POWV) is an emergent tick-borne flavivirus that causes fatal encephalitis in the elderly and long-term neurologic sequelae in survivors. How age contributes to severe POWV encephalitis remains an enigma, and no animal models have assessed age-dependent POWV neuropathology. Inoculating C57BL/6 mice with a POWV strain (LI9) currently circulating in Ixodes ticks resulted in age-dependent POWV lethality 10–20 dpi. POWV infection of 50-week-old mice was 82% fatal with lethality sequentially reduced by age to 7.1% in 10-week-old mice. POWV LI9 was neuroinvasive in mice of all ages, causing acute spongiform CNS pathology and reactive gliosis 5–15 dpi that persisted in survivors 30 dpi. High CNS viral loads were found in all mice 10 dpi. However, by 15 dpi, viral loads decreased by 2–4 logs in 10- to 40-week-old mice, while remaining at high levels in 50-week-old mice. Age-dependent differences in CNS viral loads 15 dpi occurred concomitantly with striking changes in CNS cytokine responses. In the CNS of 50-week-old mice, POWV induced Th1-type cytokines (IFNγ, IL-2, IL-12, IL-4, TNFα, IL-6), suggesting a neurodegenerative pro-inflammatory M1 microglial program. By contrast, in 10-week-old mice, POWV-induced Th2-type cytokines (IL-10, TGFβ, IL-4) were consistent with a neuroprotective M2 microglial phenotype. These findings correlate age-dependent CNS cytokine responses and viral loads with POWV lethality and suggest potential neuroinflammatory therapeutic targets. Our results establish the age-dependent lethality of POWV in a murine model that mirrors human POWV severity and long-term CNS pathology in the elderly. IMPORTANCE Powassan virus is an emerging tick-borne flavivirus causing lethal encephalitis in aged individuals. We reveal an age-dependent POWV murine model that mirrors human POWV encephalitis and long-term CNS damage in the elderly. We found that POWV is neuroinvasive and directs reactive gliosis in all age mice, but at acute stages selectively induces pro-inflammatory Th1 cytokine responses in 50-week-old mice and neuroprotective Th2 cytokine responses in 10-week-old mice. Our findings associate CNS viral loads and divergent cytokine responses with age-dependent POWV lethality and survival outcomes. Responses of young mice suggest potential therapeutic targets and approaches for preventing severe POWV encephalitis that may be broadly applicable to other neurodegenerative diseases. Our age-dependent murine POWV model permits analysis of vaccines that prevent POWV lethality, and therapeutics that resolve severe POWV encephalitis. [ABSTRACT FROM AUTHOR]

Published

2024

54. Powassan Viruses Spread Cell to Cell during Direct Isolation from Ixodes Ticks and Persistently Infect Human Brain Endothelial Cells and Pericytes.

Author

Conde, Jonas N., Sanchez-Vicente, Santiago, Saladino, Nicholas, Gorbunova, Elena E., Schutt, William R., Mladinich, Megan C., Himmler, Grace E., Benach, Jorge, Hwan Keun Kim, and Mackow, Erich R.

Subjects

*PERICYTES, *ENDOTHELIAL cells, *LYME disease, *IXODES, *IXODES scapularis, *VIRAL transmission, *TICKS

Abstract

Powassan viruses (POWVs) are neurovirulent tick-borne flaviviruses emerging in the northeastern United States, with a 2% prevalence in Long Island (LI) deer ticks (Ixodes scapularis). POWVs are transmitted within as little as 15 min of a tick bite and enter the central nervous system (CNS) to cause encephalitis (10% of cases are fatal) and long-term neuronal damage. POWV-LI9 and POWV-LI41 present in LI Ixodes ticks were isolated by directly inoculating VeroE6 cells with tick homogenates and detecting POWV-infected cells by immunoperoxidase staining. Inoculated POWV-LI9 and LI41 were exclusively present in infected cell foci, indicative of cell to cell spread, despite growth in liquid culture without an overlay. Cloning and sequencing establish POWV-LI9 as a phylogenetically distinct lineage II POWV strain circulating in LI deer ticks. Primary human brain microvascular endothelial cells (hBMECs) and pericytes form a neurovascular complex that restricts entry into the CNS. We found that POWV-LI9 and -LI41 and lineage I POWV-LB productively infect hBMECs and pericytes and that POWVs were basolaterally transmitted from hBMECs to lower-chamber pericytes without permeabilizing polarized hBMECs. Synchronous POWV-LI9 infection of hBMECs and pericytes induced proinflammatory chemokines, interferon-b (IFN-b) and proteins of the IFN-stimulated gene family (ISGs), with delayed IFN-b secretion by infected pericytes. IFN inhibited POWV infection, but despite IFN secretion, a subset of POWV-infected hBMECs and pericytes remained persistently infected. These findings suggest a potential mechanism for POWVs (LI9/LI41 and LB) to infect hBMECs, spread basolaterally to pericytes, and enter the CNS. hBMEC and pericyte responses to POWV infection suggest a role for immunopathology in POWV neurovirulence and potential therapeutic targets for preventing POWV spread to neuronal compartments. [ABSTRACT FROM AUTHOR]

Published

2022

55. N-Acetylglucosaminylation of Serine-Aspartate Repeat Proteins Promotes Staphylococcus aureus Bloodstream Infection.

Author

Thomer, Lena, Becker, Samuel, Emolo, Carla, Quach, Austin, Hwan Keun Kim, Rauch, Sabine, Anderson, Mark, LeBlanc, James F., Schneewind, Olaf, Faull, Kym F., and Missiakas, Dominique

Subjects

*STAPHYLOCOCCUS aureus, *GLYCOSYLATION, *ESTERIFICATION, *STAPHYLOCOCCAL diseases, *SEPSIS

Abstract

Staphylococcus aureus secretes products that convert host fibrinogen to fibrin and promote its agglutination with fibrin fibrils, thereby shielding bacteria from immune defenses. The agglutination reaction involves ClfA (clumping factor A), a surface protein with serine-aspartate (SD) repeats that captures fibrin fibrils and fibrinogen. Pathogenic staphylococci express several different SD proteins that are modified by two glycosyltransferases, SdgA and SdgB. Here, we characterized three genes of S. aureus, aggA, aggB (sdgA), and aggC (sdgB), and show that aggA and aggC contribute to staphylococcal agglutination with fibrin fibrils in human plasma. We demonstrate that aggB (sdgA) and aggC (sdgB) are involved in GlcNAc modification of the ClfA SD repeats. However, only sdgB is essential for GlcNAc modification, and an sdgB mutant is defective in the pathogenesis of sepsis in mice. Thus, GlcNAc modification of proteins promotes S. aureus replication in the bloodstream of mammalian hosts. [ABSTRACT FROM AUTHOR]

Published

2014