Jan H. Lupker scite author profile

The discovery of new cytokines normally relies on a prior knowledge of at least one of their biological effects, which is used as a criterion either for the purification of the protein or for the isolation of the complementary DNA by expression cloning. However, the redundancy of cytokine activities complicates the discovery of novel cytokines in this way, and the pleiotropic nature of many cytokines means that the principal activities of a new cytokine may bear little relation to that used for its isolation. We have adopted an alternative approach which relies on differential screening of an organized subtracted cDNA library from activated peripheral blood mononuclear cells, using the inducibility of lymphokine messenger RNAs by anti-CD28 as a primary screening criterion. The ligation of the CD28 antigen on the T lymphocyte by a surface antigen, B7/BB-1, expressed on activated B lymphocytes and monocytes is a key step in the activation of T lymphocytes and the accumulation of lymphokine mRNAs. Here we report the discovery by molecular cloning of a new interleukin (interleukin-13 or IL-13) expressed in activated human T lymphocytes. Recombinant IL-13 protein inhibits inflammatory cytokine production induced by lipopolysaccharide in human peripheral blood monocytes. Moreover, it synergizes with IL-2 in regulating interferon-gamma synthesis in large granular lymphocytes. Recent mapping of the IL-13 gene shows that it is closely linked to the IL-4 gene on chromosome 5q 23-31 (ref. 4). Interleukin-13 may be critical in regulating inflammatory and immune responses.

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P2Y12, a New Platelet ADP Receptor, Target of Clopidogrel

Savi

Labouret

Delesque

et al. 2001

Biochemical and Biophysical Research Communications

220

142

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The two soluble forms of the lipopolysaccharide receptor, CD14: Characterization and release by normal human monocytes

et al. 1994

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CD14, a glycolipid-anchored membrane glycoprotein, acts as a high affinity lipopolysaccharide receptor on leukocytes. We previously reported that the Mono-Mac-6 cell line releases two different soluble forms of CD14 (sCD14) (Labeta et al., Eur. J. Immunol. 1993. 23: 2144). Here we show that the two sCD14, which we now refer to as sCD14 alpha (low M(r)) and sCD14 beta (high M(r)), are also synthesized and released by normal human monocytes and present in normal plasma. Their mechanism of release was examined by using the Mono-Mac-6 cell line, chinese hamster ovary cell (CHO)/CD14+ transfectants and plasma from paroxysmal nocturnal hemoglobinuria (PNH) patients. It was found that: (1) sCD14 beta is released faster than sCD14 alpha and that the release of the latter is a lengthy process. (2) Monensin blocked the biosynthesis of membrane-bound CD14 (mCD14) and sCD14, additionally, a 50-kDa CD14 polypeptide accumulated in the cell lysate, suggesting that the different forms of CD14 may have a common precursor. (3) Monensin also blocked the release of sCD14 alpha from surface-labeled cells, suggesting that conversion of mCD14 to sCD14 alpha involves a mechanism of endocytosis followed by exocytosis. Interestingly, (4) sCD14 alpha and sCD14 beta were detected in PNH plasma, indicating that sCD14 alpha may also derive from an endogenous pathway. (5) Phospholipase C-released CD14 was identical in size to mCD14, thus differed from sCD14 beta by approximately 2000, indicating that release of sCD14 beta involves further processing. (6) CHO cells transfected with a CD14 cDNA coding for an eight C-terminal amino acids shorter product released an sCD14 beta-like form; thus absence of the eight C-terminal amino acids prevented mCD14 expression but not the secretion of sCD14 beta. The characterization of sCD14 alpha and sCD14 beta reported here may be useful for better understanding of variations in sCD14 levels in pathological conditions and the contribution of each sCD14 in sepsis and other, as yet unknown functions.

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Emopamil-binding Protein, a Mammalian Protein That Binds a Series of Structurally Diverse Neuroprotective Agents, Exhibits Δ8-Δ7 Sterol Isomerase Activity in Yeast

Silve

Dupuy

Labit-Lebouteiller

et al. 1996

Journal of Biological Chemistry

123

104

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Delta8-delta7 sterol isomerase is an essential enzyme on the sterol biosynthesis pathway in eukaryotes. This endoplasmic reticulum-resident membrane protein catalyzes the conversion of delta8-sterols to their corresponding delta7-isomers. No sequence data for high eukaryote sterol isomerase being available so far, we have cloned a murine sterol isomerase-encoding cDNA by functional complementation of the corresponding deficiency in the yeast Saccharomyces cerevisiae. The amino acid sequence deduced from the cDNA open reading frame is highly similar to human emopamil-binding protein (EBP), a protein of unknown function that constitutes a molecular target for neuroprotective drugs. A yeast strain in which the sterol isomerase coding sequence has been replaced by that of human EBP or its murine homologue recovers the ability to convert delta8-sterol into delta7-sterol, both in vivo and in vitro. In these recombinant strains, both cell proliferation and the sterol isomerization reaction are inhibited by the high affinity EBP ligand trifluoperazine, as is the case in mammalian cells but not in wild type yeast cell. In contrast, the recombinant strains are much less susceptible to the sterol inhibition effect of haloperidol and fenpropimorph, as compared with wild type yeast strains. Our results strongly suggest that EBP and delta8-delta7 sterol isomerase are identical proteins in mammals.

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Cloning of the human IL‐13Rα1 chain and reconstitution with the IL‐4Rα of a functional IL‐4/IL‐13 receptor complex

Miloux¹,

Laurent²,

Bonnin³

et al. 1997

FEBS Letters

200

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The human homologue of the recently cloned murine IL-13 binding protein (IL-13Ral) was cloned from a cDNA library derived from the carcinoma cell line CAKI-1. The cloned cDNA encodes a 427 amino acid protein with two consensus patterns characteristic of the hematopoietic cytokine receptor family and a short cytoplasmic tail. The human protein is 74% identical to the murine IL-13Ral, and 27% identical to the human IL-13Ra2. CHO cells expressing recombinant hlL13Ral specifically bind IL-13 (Äd~4 nM) but not IL-4. Coexpression of the cloned cDNA with that of IL-4Ra resulted in a receptor complex that displayed high affinity for IL-13 (Κ^ ~ 30 pM), and that allowed cross-competition of IL-13 and IL-4. Electrophoretic mobility shift assay showed that IL-13 and IL-4 were able to activate Stat6 in cells expressing both IL-4Roc and IL-13Ral, while no activation was observed in cells expressing either one or the other alone.

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Jan H. Lupker

lnterleukin-13 is a new human lymphokine regulating inflammatory and immune responses

P2Y12, a New Platelet ADP Receptor, Target of Clopidogrel

The two soluble forms of the lipopolysaccharide receptor, CD14: Characterization and release by normal human monocytes

Emopamil-binding Protein, a Mammalian Protein That Binds a Series of Structurally Diverse Neuroprotective Agents, Exhibits Δ8-Δ7 Sterol Isomerase Activity in Yeast

Cloning of the human IL‐13Rα1 chain and reconstitution with the IL‐4Rα of a functional IL‐4/IL‐13 receptor complex

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