Jacques Hermann

The ciliary neurotrophic factor receptor alpha component induces the secretion of and is required for functional responses to cardiotrophin-like cytokine

Ciliary neurotrophic factor (CNTF) is involved in the survival of a number of different neural cell types, including motor neurons. CNTF functional responses are mediated through a tripartite membrane receptor composed of two signalling receptor chains, gp130 and the leukaemia inhibitory factor receptor (LIFR), associated with a non‐signalling CNTF binding receptor α component (CNTFR). CNTFR‐deficient mice show profound neuronal deficits at birth, leading to a lethal phenotype. In contrast, inactivation of the CNTF gene leads only to a slight muscle weakness, mainly during adulthood, suggesting that CNTFR binds to a second ligand that is important for development. Modelling studies of the interleukin‐6 family member cardiotrophin‐like cytokine (CLC) revealed structural similarities with CNTF, including the conservation of a site I domain involved in binding to CNTFR. Co‐expression of CLC and CNTFR in mammalian cells generates a secreted composite cytokine, displaying activities on cells expressing the gp130–LIFR complex on their surface. Correspondingly, CLC–CNTFR activates gp130, LIFR and STAT3 signalling components, and enhances motor neuron survival. Together, these observations demonstrate that CNTFR induces the secretion of CLC, as well as mediating the functional responses of CLC.

Co-expression and secretion of C3, the third component of complement and a C3-cleaving cysteine proteinase in a highly metastatic human melanoma cell line.

We recently demonstrated that DM-4, a human melanoma cell line highly metastatic in nude mice, expressed a p41 C3-cleaving proteinase. This p41 proteinase is a cysteine proteinase, associated to cell surface and involved in tumorigenicity and metastatic properties of these tumor cells. We demonstrate herein that DM-4 cells also secrete the p41 proteinase. In addition, analysis of cellular components which reacted with the p41 proteinase led us to demonstrate that DM-4 cells synthesized and secreted human C3. Secreted C3 is cleaved by the secreted p41 proteinase and a C3dg-like fragment is generated. This is the first demonstration that a human melanoma cell line co-expresses and co-secretes human C3 and a C3-cleaving cysteine proteinase, antigenically related to procathepsin L.

Nuclear localization of the epstein-barr virus/c3d receptor (CR2) in the human burkitt b lymphoma cell, raji☆

Epstein-Barr virus/C3d receptor (CR2) is a glycoprotein of mol. wt 140,000 expressed on the surface of Raji cells. We previously isolated phosphorylated CR2 from purified Raji cell nuclei. We have analyzed the nuclear localization of CR2 by electron microscope immunochemistry of thin sections of Raji cells and we have compared the binding properties of CR2 expressed on purified plasma membranes or nuclei. Anti-CR2 mAb immunogold labeling of thin sections of Raji cells identified CR2 at the nuclear surface and also within the nucleus. Nuclear envelope associated CR2 was localized mainly at nuclear pores. Within the nucleus, CR2 was associated with ribonucleoprotein (RNP) interchromatin fibrils. This labeling was preserved in nuclear matrix preparations. CR2 expressed on the surfaces of purified nuclei or on the cell surface interacted with soluble and particle-bound C3bi/C3d. Monoclonal anti-CR2 antibodies, which recognized extracellular domains of CR2, reacted differently with CR2 depending on its subcellular localization. The presence of CR2 in nuclei may be due to translocation of the cell surface CR2 and/or the presence of two distinct intracellular pathways for mature CR2.

A 16 amino-acid synthetic peptide, derived from human C3d, carries regulatory activity on in vitro phosphorylation of a cellular component of the human B lymphoma cells, Raji

We present herein the first evidence that human C3 and, with a higher efficiency, trypsin-cleaved C3 enhanced in vitro phosphorylation of a cellular component, characterized by an apparent molecular weight of 105 kDa, pp105, present in the human B lymphoma cells, Raji. This regulatory activity was associated with C3d fragment generated in trypsin-cleaved C3. A 16 amino-acid peptide, carrying the LYNVEA sequence of C3d reacting with the C3d receptor (CR2), was synthetized. P16 enhanced, in a dose-dependent curve between 0.3 to 10 microM, in vitro phosphorylation of pp105, as well as C3d fragments present in trypsin-cleaved C3. A fibrinogen-related synthetic peptide of 15 amino acids, used as control, had no effect on pp105 phosphorylation. P16 and trypsin-cleaved C3 regulate pp105 phosphorylation through identical pathways. Thus, p16 represents the 16 amino-acid sequence of C3 which regulated in vitro phosphorylation of pp105.

α1-Proteinase inhibitor is the serum regulator of the activity of p57, a C3-cleaving proteinase present in human erythrocyte membranes

Abstract Human erythrocytes express at the membrane level a p57 serine proteinase which cleaves C3, the third component of complement. We demonstrated herein that human serum carries an inhibitory activity against this p57 membrane proteinase. Purification allowed to identify this inhibitor as the α 1-proteinase inhibitor ( α 1-PI) on the basis of its molecular weight, antigenicity and amino acid sequence identity. Data demonstrated that α 1-PI is the unique and strong serum inhibitor of the p57 proteinase activity: inhibition studies showed that α 1-PI inhibited p57 proteinase activity with a k ass value of 10 5 M −1 s −1 . Inhibition of p57 proteinase by α 1-PI was due to formation of a SDS-stable complex between both components. We suggest that inhibition of the membrane p57 proteinase activity by serum α 1-PI may be involved in the regulation of C3 fragment generation and/or in clearance in liver of C3b bearing immune complexes by erythrocyte-CR1.