Jeein Oh scite author profile

Jeein Oh

4Publications

50Citation Statements Received

208Citation Statements Given

How they've been cited

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150

201

Affiliations

Seoul National University, University of Chicago, Loyola University Chicago

Publications

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Differential ability of specific regions of Plasmodium falciparum sexual‐stage antigen, Pfs230, to induce malaria transmission‐blocking immunity

Bustamante

Woodruff

et al. 2000

Parasite Immunology

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Antibodies raised against an Escherichia coli-produced recombinant protein encoding a 76-kDa section (region C) of malaria transmission-blocking vaccine candidate, Pfs230, have previously been shown to significantly reduce the ability of Plasmodium falciparum parasites to infect mosquitoes (71.2-89.8%). To further define the region of the Pfs230 required for transmission-blocking activity, four recombinant proteins each encoding a section of region C (Pfs230 amino acids 443-1132) were produced using the same E. coli expression system and tested for immunogenicity in mice: (i) r230/MBP.C5' encodes the first half of region C (amino acids 443-791, six cysteines); (ii) r230/MBP.CM1 encodes only cysteine motif (CM) 1 (amino acids 583-913, eight cysteines); (iii) r230/MBP.C1.6 (amino acids 453-913, eight cysteines) also includes all of CM1; and (iv) r230/MBP.C2 encodes only CM2 (amino acids 914-1268, 11 cysteines). All the recombinant proteins induced antibodies that recognized parasite-produced Pfs230, but the titre of the Pfs230 specific-antibodies generated varied, C = C1.6 = C5' > CM1 > CM2. Two recombinants, r230/MBP.C5' and r230/MBP.C1.6, induced antibody titres that were equivalent to or greater than the titre generated by r230/MBP.C. However, in contrast to r230/MBP.C, none of the recombinants induced antibodies that effectively blocked parasite infectivity to mosquitoes. This suggests that the inclusion of amino acids 914-1132 is important for the production of the transmission-blocking epitope present in region C.

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Blood glucosylceramide levels in gaucher's disease and its distribution amongst lipoprotein fractions

Dawson

1977

Clinica Chimica Acta

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The transcription factor Mef2d regulates B:T synapse–dependent GC-T _FH differentiation and IL-21–mediated humoral immunity

Kim

Jung

et al. 2023

Sci. Immunol.

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Communication between CD4 T cells and cognate B cells is key for the former to fully mature into germinal center–T follicular helper (GC-T FH ) cells and for the latter to mount a CD4 T cell–dependent humoral immune response. Although this interaction occurs in a B:T synapse–dependent manner, how CD4 T cells transcriptionally regulate B:T synapse formation remains largely unknown. Here, we report that Mef2d, an isoform of the myocyte enhancer factor 2 (Mef2) transcription factor family, is a critical regulator of this process. In CD4 T cells, Mef2d negatively regulates expression of Sh2d1a , which encodes SLAM-associated protein (SAP), a critical regulator of B:T synapses. We found that Mef2d regulates Sh2d1a expression via DNA binding–dependent transcriptional repression, inhibiting SAP-dependent B:T synapse formation and preventing antigen-specific CD4 T cells from differentiating into GC-T FH cells. Mef2d also impeded IL-21 production by CD4 T cells, an important B cell help signaling molecule, via direct repression of the Il21 gene. In contrast, CD4 T cell–specific disruption of Mef2d led to a substantial increase in GC-T FH differentiation in response to protein immunization, concurrent with enhanced SAP expression. MEF2D mRNA expression inversely correlates with human systemic lupus erythematosus (SLE) patient autoimmune parameters, including circulating T FH –like cell frequencies, autoantibodies, and SLEDAI scores. These findings highlight Mef2d as a pivotal rheostat in CD4 T cells for controlling GC formation and antibody production by B cells.

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Virus-like Particle (VLP) Mediated Antigen Delivery as a Sensitization Tool of Experimental Allergy Mouse Models

Kim

Kang

et al. 2020

Immune Netw

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Antigen delivery systems play critical roles in determining the quality and quantity of Ab responses in vivo. Induction of protective antibodies by B cells is essential in the development of vaccines against infectious pathogens, whereas production of IgE antibodies is prerequisite for investigation of allergic responses, or type 1 hypersensitivity reactions. Viruslike particles (VLPs) are efficient platforms for expression of proteins of interest in highly repetitive manners, which grants strong Ab responses to target antigens. Here, we report that delivery of hen egg lysozyme (HEL), a model allergen, through VLP could provoke strong HEL specific IgE Ab responses in mice. Moreover, acute allergic responses were robustly induced in the mice sensitized with VLPs that express HEL, when challenged with recombinant HEL protein. Our data show that antigen delivery in the context of VLPs could function as a platform for sensitization of mice and for subsequent examination of allergic reactions to molecules of interest.

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Jeein Oh

Differential ability of specific regions of Plasmodium falciparum sexual‐stage antigen, Pfs230, to induce malaria transmission‐blocking immunity

Blood glucosylceramide levels in gaucher's disease and its distribution amongst lipoprotein fractions

The transcription factor Mef2d regulates B:T synapse–dependent GC-T _FH differentiation and IL-21–mediated humoral immunity

Virus-like Particle (VLP) Mediated Antigen Delivery as a Sensitization Tool of Experimental Allergy Mouse Models

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Jeein Oh

Differential ability of specific regions of Plasmodium falciparum sexual‐stage antigen, Pfs230, to induce malaria transmission‐blocking immunity

Blood glucosylceramide levels in gaucher's disease and its distribution amongst lipoprotein fractions

The transcription factor Mef2d regulates B:T synapse–dependent GC-T FH differentiation and IL-21–mediated humoral immunity

Virus-like Particle (VLP) Mediated Antigen Delivery as a Sensitization Tool of Experimental Allergy Mouse Models

Contact Info

Product

Resources

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The transcription factor Mef2d regulates B:T synapse–dependent GC-T _FH differentiation and IL-21–mediated humoral immunity