Viktoria Janke scite author profile

Previous in vivo studies have revealed that resins may generate a persistent inflammation of oral tissues and cell death as well. Apoptosis is an important regulated process that results in rapid cell death. This study tested the hypothesis that the comonomer triethyleneglycol-dimethacrylate (TEGDMA) causes apoptosis. The effects of TEGDMA on proliferation and apoptosis in primary oral fibroblasts were analyzed by light microscopy and flow cytometry (FACS; Annexin V-assay). TEGDMA at 5 and 7.5 mM inhibited proliferation after 24 hrs. No increased frequency of apoptosis or necrosis was observed with 1 mM or 2.5 mM TEGDMA after 24 hrs. Apoptosis and Annexin V-positive cells were observed with 5 mM and 7.5 mM TEGDMA by light microscopy after 24 hrs. A dramatic increase in apoptotic cells was detected by FACS after 24 hrs with 7.5 mM TEGDMA. Thus, TEGDMA was cytotoxic and "apoptotic" in a dose- and time-dependent manner.

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UBD, a downstream element of FOXP3, allows the identification of LGALS3, a new marker of human regulatory T cells

Ocklenburg

Moharregh-Khiabani

Geffers

et al. 2006

Laboratory Investigation

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Here, we report the identification of the ubiquitin-like gene UBD as a downstream element of FOXP3 in human activated regulatory CD4 þ CD25 hi T cells (T reg ). Retroviral transduction of UBD in human allo-reactive effector CD4 þ T helper (T h ) cells upregulates CD25 and mediates downregulation of IL4 and IL5 expression similar to overexpression of FOXP3. Moreover, UBD impairs T h cell proliferation without upregulation of FOXP3 and impairs calcium mobilization. In the presence of ionomycin, overexpression of UBD in T h cells leads to the induction of IL1R2 that resemble FOXP3-transduced T h cells and naturally derived T reg cells. A comparison of the transcriptome of FOXP3-and UBD-transduced T h cells with T reg cells allowed the identification of the gene LGALS3. However, high levels of LGALS3 protein expression were observed only in human CD4 þ CD25 hi derived T reg cells and FOXP3-transduced T h cells, whereas little was induced in UBD-transduced T h cells. Thus, UBD contributes to the anergic phenotype of human regulatory T cells and acts downstream in FOXP3 induced regulatory signaling pathways, including regulation of LGALS3 expression. High levels of LGALS3 expression represent a FOXP3-signature of human antigen-stimulated CD4 þ CD25 hi derived regulatory T cells.

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Conformational Restraints and Flexibility of 14-Meric Peptides in Complex with HLA-B*3501

Probst‐Kepper

Hecht

Herrmann³

et al. 2004

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Human HLA-B*3501 binds an antigenic peptide of 14-aa length derived from an alternative reading frame of M-CSF with high affinity. Due to its extraordinary length, the exact HLA binding mode was unpredictable. The crystal structure of HLA-B*3501 at 1.5 Å shows that the N and C termini of the peptide are embedded in the A and F pockets, respectively, similar to a peptide of normal length. The central part of the 14-meric peptide bulges flexibly out of the groove. Two variants of the alternative reading frame of M-CSF peptide substituted at P2 or P2 and P9 with Ala display weak or no T cell activation. Their structure differs mainly in flexibility and conformation from the agonistic peptide. Moreover, the variants induce subtle changes of MHC α-helical regions implicated as critical for TCR contact. The TCR specifically recognizing this peptide/MHC complex exhibits CDR3 length within the normal range, suggesting major conformational adaptations of this receptor upon peptide/MHC binding. Thus, the potential antigenic repertoire recognizable by CTLs is larger than currently thought.

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Effects of BisGMA on glutathione metabolism and apoptosis in human gingival fibroblasts in vitro

et al. 2004

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Cloning of a Gene for an Acyl-CoA Dehydrogenase from Pisum sativum L. and Purification and Characterization of Its Product as an Isovaleryl-CoA Dehydrogenase

Reinard¹,

Janke²,

Willard³

et al. 2000

Journal of Biological Chemistry

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Isovaleryl-CoA dehydrogenase (IVD, EC 1.3.99.10) catalyzes the third step in the catabolism of leucine in mammals. Deficiency of this enzyme leads to the clinical disorder isovaleric acidemia. IVD has been purified and characterized from human and rat liver, and the x-ray crystallographic structure of purified recombinant human IVD has been reported. Nothing is known about IVD activity in plants, although cDNA clones from Arabidopsis thaliana and partial sequences from Gossypium hirsutum and Oryza sativa have been identified as putative IVDs based on sequence homology and immuno cross-reactivity. In this report we describe the identification and characterization of an IVD from pea, purification of the enzyme using a novel and rapid auxin affinity chromatography matrix, and cloning of the corresponding gene. At the amino acid level, pea IVD is 60% similar to human and rat IVD. The specific activity and abundance of plant IVD was found to be significantly lower than for its human counterpart and exhibits developmental regulation. Substrate specificity of the plant enzyme is similar to the human IVD, and it crossreacts to anti-human IVD antibodies. Molecular modeling of the pea enzyme based on the structure of human IVD indicates a high degree of structural similarity among these enzymes. Glu-244, shown to function as the catalytic base in human IVD along with most of the amino acids that make up the acyl CoA binding pocket, is conserved in pea IVD. The genomic structure of the plant IVD gene consists of 13 exons and 12 introns, spanning approximately 4 kilobases, and the predicted RNA splicing sites exhibit the extended consensus sequence described for other plant genes.

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Viktoria Janke

TEGDMA Causes Apoptosis in Primary Human Gingival Fibroblasts

UBD, a downstream element of FOXP3, allows the identification of LGALS3, a new marker of human regulatory T cells

Conformational Restraints and Flexibility of 14-Meric Peptides in Complex with HLA-B*3501

Effects of BisGMA on glutathione metabolism and apoptosis in human gingival fibroblasts in vitro

Cloning of a Gene for an Acyl-CoA Dehydrogenase from Pisum sativum L. and Purification and Characterization of Its Product as an Isovaleryl-CoA Dehydrogenase

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