S Jitsukawa scite author profile

A number of cell surface structures are thought to belong to the Ig superfamily (IgSF) t because they contain at least one domain with a characteristic folding pattern, called the Ig fold (reviewed in reference 1). Several of these molecules have critical functions in immune responses . In addition to ensuring specific antigen recognition (Ig, TCR), they may function as monomorphic ligands critical in cell-cell interactions (e .g., ICAM, CD4, CD8), receptors for viruses (e .g., CD4, ICAM), or lymphokine receptors (e .g., IL-1-R, IL-6-R).We report here the characterization of a novel human gene, termed lymphocyte activation gene 3 (LAG-3), selectively transcribed in activated NK and T lymphocytes . It codes for a membrane protein with four extracellular IgSF domains . The sequence data, the compared exon/intron organization, and the chromosomal localization revealed that LAG-3 is closely related to CD4. Materials and MethodsCell Lines. The isolation and growth of the fetal CD3 -CD2`F55111E5 (or F5) cloned cell line has been described elsewhere (2) . For mass production, the cell suspensions were plated on a feeder layer composed of irradiated allogeneic PBL plus the EBV transformed B cell line Laz388 in Vbottomed 96-well plates at 3,000 cells per well with rIL-2 and lymphocyte-conditioned medium . 200 plates were harvested at a concentration of 3 x 106 cells/ml after 12 d in culture to give 6 x 109 cells . For the Northern blot analyses, similar culture conditions were used to produce the relevant cells .

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Characterization of the lymphocyte activation gene 3-encoded protein. A new ligand for human leukocyte antigen class II antigens.

Baixerás

et al. 1992

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SummaryThe lymphocyte activation gene 3 (LAG-3), expressed in human activated T and natural killer (NK) cells, is closely related to CD4 at the gene and protein levels. We report here the initial characterization of the LAG-3-encoded protein. We have generated two monoclonal antibodies after immunization of mice with a 30-amino acid peptide that corresponds to an exposed extra loop region present in the LAG-3 immunoglobulin-like first domain. The reactivity of these reagents is directed against LAG-3 since they recognize both membrane-expressed and soluble recombinant LAG-3 molecules produced in a baculovirus expression system. The two antibodies are likely to react with the same or closely related epitope (termed LAG-3.1) exposed on the LAG-3 first domain extra loop, as assessed in competition experiments on LAG-3-expressing activated lymphocytes. Cellular distribution analysis indicated that the LAG-3.1 epitope is expressed on activated T (both CD4 + and CD8 + subsets) and NK cells, and not on activated B cells or monocytes. In immunoprecipitation experiments performed on activated T and NK cell lysates, a 70-kD protein was detected after SDS-PAGE analysis. 45-kD protein species were also immunoprecipitated. Both the 70-and 45-kD proteins were shown to be N-glycosylated. In Western blot analysis, only the former molecule was recognized by the anti-LAG-3 antibodies, demonstrating that it is LAG-3 encoded. These anti-LAG-3 antibodies were used to investigate whether the LAG-3 protein interacts with the CD4 ligands. By using a high-level expression cellular system based on COS-7 cell transfection with recombinant CDM8 vectors and a quantitative cellular adhesion assay, we demonstrate that rosette formation between LAG-3-transfected COS-7 cells and human leukocyte antigen (HLA) class II-bearing B lymphocytes is specifically dependent on LAG-3/HLA class II interaction. In contrast to CD4, LAG-3 does not bind the human immunodeficiency virus gp120. This initial characterization will guide further studies on the functions of this molecule, which may play an important role in immune responses mediated by T and NK lymphocytes.

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New insights in photoaging, UVA induced damage and skin types

Battie

Jitsukawa

Bernerd

et al. 2014

Experimental Dermatology

257

217

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UVA radiation is the most prevalent component of solar UV radiation; it deeply penetrates into the skin and induces profound alterations of the dermal connective tissue. In recent years, the detrimental effects of UVA radiation were more precisely demonstrated at cellular and molecular levels, using adequate methods to identify biological targets of UVA radiation and the resulting cascade impairment of cell functions and tissue degradation. In particular gene expression studies recently revealed that UVA radiation induces modulation of several genes confirming the high sensitivity of dermal fibroblasts to UVA radiation. The major visible damaging effects of UVA radiation only appear after years of exposure: it has been clearly evidenced that they are responsible for more or less early signs of photoageing and photocarcinogenesis. UVA radiation appears to play a key role in pigmented changes occurring with age, the major sign of skin photoaging in Asians. Skin susceptibility to photoaging alterations also depends on constitutive pigmentation. The skin sensitivity to UV light has been demonstrated to be linked to skin color type.

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A γ-chain complex forms a functional receptor on cloned human lymphocytes with natural killer-like activity

Moingeon

Jitsukawa

Faure

et al. 1987

Nature

185

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We have recently derived from human fetal blood (25 wks) a series of cloned cell lines that were selected for their ability to kill the conventional natural killer (NK) target cell K562. It was found that a fraction of these clones express CD3 proteins but not the monomorphic Ti alpha beta determinant recognized by WT31 antibody. One interleukin-2-dependent CD3+ WT31- clone, termed F6C7, was used for immunization of mice to generate monoclonal antibodies directed at a potentially novel recognition receptor. It was shown that F6C7 cells, which transcribe Ti beta but not Ti alpha genes, surface-express a clonotypic structure, termed NKFi. Immunoprecipitations performed with anti-NKFi monoclonal antibody (mAb) indicated that the corresponding molecule is resolved in SDS-polyacrylamide gel electrophoresis (PAGE) as a single band of relative molecular mass approximately 85,000 (Mr approximately 85K). After reduction, a major band was detected at 44K and a faint band was present at 41K. The present study was designed to characterize this structure. It was found that NKFi represents either two 44K disulphide-linked gamma (TCR) chains, or possibly one gamma chain associated to an additional undetected molecule, and that the 41K material corresponds to a partially glycosylated fraction of the gamma protein. Anti-NKFi mAb both induces a specific autocrine proliferative response and blocks cytotoxic function, demonstrating that gamma chains serve as functional receptor structures on subpopulations of normal human lymphocytes.

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S Jitsukawa

LAG-3, a novel lymphocyte activation gene closely related to CD4.

Characterization of the lymphocyte activation gene 3-encoded protein. A new ligand for human leukocyte antigen class II antigens.

New insights in photoaging, UVA induced damage and skin types

A γ-chain complex forms a functional receptor on cloned human lymphocytes with natural killer-like activity

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