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Fas-induced apoptosis is one form of programmed cell death responsible for hepatocyte demise. However, the role of this cell surface receptor in the death of tumoral hepatic cells is still being debated. It has been shown that some hepatoma cell lines may escape apoptosis because of abnormal Fas localization correlated with non-functionality of the Fas protein or dysfunctionality in the Fas pathway cascade. The aim of this study was to investigate the behaviour of four hepatoma cell lines, HepG2, Hep3B, SKHep1 and Chang-Liver and two extrahepatic cell lines, MCF7, a mammary tumoral cell line and OVCAR-3, an ovarian tumoral cell line, when they were treated with an agonistic anti-Fas antibody alone, with interferon gamma (IFNgamma), an up-regulator of Fas protein expression, alone or with a combination of both agents. We first performed immunofluorescence and flow cytometry to confirm that Fas was present on the cell surface of each cell line in the normal state. Apoptosis was then investigated after induction with the various treatments, by DAPI staining, agarose gel DNA electrophoresis and PARP cleavage. Caspase 8 and 3 expression, as well as two anti-apoptotic proteins Bcl-2 and HSP70, and one proapoptotic protein Bax were also investigated by immunoblot allowing identification of several apoptotic pathways based on the behaviour of the different studied proteins. HepG2 and OVCAR-3 cells were sensitive to the anti-Fas antibody alone. Hep3B was resistant to Fas-induced apoptosis but sensitive to IFNgamma-induced apoptosis. MCF7 was resistant to anti-Fas antibody and IFNgamma Chang-Liver and SKHep1 were sensitive to IFNgamma and anti-Fas antibody but at different degrees. Chang-Liver used the Fas and IFNgamma pathways, while SKHep1 involved mostly the Fas pathway. These results show that each tumor cell line is characterized by different apoptotic behaviour in relation to Fas and/or IFNgamma-induced apoptosis. In addition, despite the high level of Bcl-2 and HSP70 proteins in the tumoral cells investigated here, they were not fully protected against apoptosis, except for MCF7. This emphasizes the necessity to analyse the different proteins responsible for apoptosis to adapt anti-tumoral therapeutics.
Cell Mol Biol (Noisy-le-grand) 2000 Feb
PMID:Apoptotic behaviour of hepatic and extra-hepatic tumor cell lines differs after Fas stimulation. 1072 68

The receptors for interleukin-3 (IL-3) and granulocyte-macrophage colony-stimulating factor (GM-CSF) share a common beta subunit, the distal cytoplasmic domain of which is essential for the promotion of cell survival by these two cytokines. Genes whose expression is specifically induced by signaling through the distal cytoplasmic domain of this receptor beta subunit were screened by a subtraction cloning approach in derivatives of a mouse pro-B-cell line. One gene thus identified was shown to encode a protein highly homologous (with only 7 amino acid substitutions) to murine osteopontin (OPN), a secreted adhesion protein. Conditioned medium from cells expressing wild-type OPN, but not that from cells expressing a deletion mutant lacking residues 79 to 140, increased the viability of a non-OPN-producing cell line in the presence of human GM-CSF. Antibody blocking experiments revealed that OPN produced as a result of IL-3 or GM-CSF signaling was secreted into the medium and, through binding to its cell surface receptor, CD44, contributed to the survival-promoting activities of these two cytokines. Furthermore, coupling of the OPN-CD44 pathway to the survival response to IL-3 was also demonstrated in primary IL-3-dependent mouse bone marrow cells. These results thus show that induction of an extracellular adhesion protein and consequent activation of its cell surface receptor are important for the antiapoptotic activities of IL-3 and GM-CSF.
Mol Cell Biol 2000 Apr
PMID:Coupling of osteopontin and its cell surface receptor CD44 to the cell survival response elicited by interleukin-3 or granulocyte-macrophage colony-stimulating factor. 1073 76

Cytotoxic necrotizing factor 1 (CNF1), a protein produced by pathogenic strains of Escherichia coli, activates the p21 Rho-GTP-binding protein, inducing a profound reorganization of the actin cytoskeleton. CNF1 binds to its cell surface receptor on HEp-2 cells with high affinity (K(d) = 20 pM). In HEp-2 cells the action of CNF1 is not blocked in the presence of filipin, a drug described to reduce cholera toxin internalization by the caveolae-like mechanism. Moreover, HEp-2 cells, which express a dominant negative form of proteins that impair the formation of clathrin coated-vesicles and internalization of transferrin (Eps15, dynamin or intersectin-Src homology 3), are still sensitive to CNF1. In this respect, the endocytosis of CNF1 is similar to the plant toxin ricin. However, unlike ricin toxin, CNF1 does not cross the Golgi apparatus and requires an acidic cell compartment to transfer its enzymatic activity into the cytosol in a manner similar to that required by diphtheria toxin. As shown for diphtheria toxin, the pH-dependent membrane translocation step of CNF1 could be mimicked at the level of the plasma membrane by a brief exposure to a pH of </=5.2. CNF1 is the first bacterial toxin described that uses both a clathrin-independent endocytic mechanism and an acidic-dependent membrane translocation step in its delivery of the catalytic domain to the cell cytosol.
Mol Biol Cell 2000 May
PMID:The p21 Rho-activating toxin cytotoxic necrotizing factor 1 is endocytosed by a clathrin-independent mechanism and enters the cytosol by an acidic-dependent membrane translocation step. 1079 51

The essential mechanism involved in sperm-oolemma fusion has yet to be elucidated. Recognition and binding is initiated by specific cell surface receptor engagement between gametes. Fusion between hamster oolemma and spermatozoa is prevented in the presence of trypsin in Ca(2+)-free media, as is oocyte activation, implicating a cadherin-like adhesion. Cadherins are a family of Ca(2+)-dependent adhesion molecules that bind homotypically with their target, are morphoregulatory and function eptopically to affect tissue form and function. Cadherins and cadherin-associated molecules have been identified in testes and germinal cells, as well as ejaculated spermatozoa. Moreover, cadherins are also present in oocytes and may suggest a cadherin-mediated adhesion in sperm-oocyte interaction. We have detected antigenic epitopes recognized by N-cadherin monoclonal antibodies diffusely distributed over the entire sperm head. In addition, Western blot analysis confirmed the presence of an antibody reactive peptide in spermatozoa, testis and ovary protein extracts at the expected molecular weight for authentic N-cadherin. Total RNA was isolated from mature motile spermatozoa, as well as ovary and testis tissue, and served as template for reverse transcription-polymerase chain reaction (RT-PCR) with N-cadherin specific primers. Alignment of sequences from PCR products of testis, ovary and spermatozoa with published N-cadherin sequence was identical except for occasional base changes. We intend to develop methods to analyse this transcript from small numbers of spermatozoa from a variety of donors to determine if defects in cadherin distribution or structure may predict reduced male fertility.
Mol Hum Reprod 2000 Jun
PMID:Presence of N-cadherin transcripts in mature spermatozoa. 1082 64

The US28 gene of human cytomegalovirus (HCMV) codes a cell surface receptor for both beta chemokine and fractalkine molecules. This receptor facilitates HCMV-induced cell fusion and virus dissemination and influences susceptibility to infection with other viruses, including the human immunodeficiency virus. Five adjacent but divergent open reading frames that potentially code for molecules related to the US28 protein of HCMV are present in an African green monkey simian cytomegalovirus-derived stealth virus. This finding implies a role for chemokines in the pathogenicity of at least some stealth-adapted viruses. It may also help explain the apparent therapeutic benefit achieved in certain stealth virus-infected patients treated with agents that downregulate chemokine production.
Exp Mol Pathol 2000 Aug
PMID:Chemokine receptor-related genetic sequences in an african green monkey simian cytomegalovirus-derived stealth virus. 1089 Dec 88

The pleiotropic actions of PRL are necessary for mammary growth and differentiation and in vitro lymphoid proliferation. The proximal action of this ligand is mediated by its cell surface receptor via associated networks. PRL action, however, is also associated with the internalization and translocation of this hormone into the nucleus. To delineate the mechanism of this retrotranslocation, a yeast two-hybrid screen was performed and revealed an interaction between PRL and cyclophilin B (CypB). CypB is a peptidyl prolyl isomerase (PPI) found in the endoplasmic reticulum, extracellular space, and nucleus. The interaction between CypB and PRL was subsequently confirmed in vitro and in vivo through the use of recombinant proteins and coimmunoprecipitation studies. The exogenous addition of CypB potentiated the 3H-thymidine incorporation of PRL-dependent cell lines up to 18-fold. CypB by itself was nonmitogenic and did not potentiate the action of GH or other interleukins. CypB did not alter the affinity of the PRL receptor (PRLr) for its ligand, or increase the phosphorylation of PRLr-associated Jak2 or Stat5a. The potentiation of PRL-action by CypB, however, was accompanied by a dramatic increase in the nuclear retrotranslocation of PRL. A CypB mutant, termed CypB-NT, was generated that lacked the wild-type N-terminal nuclear localization sequence. Although CypB-NT demonstrated levels of PRL binding and PPI activity equivalent to wild-type CypB, it was incapable of mediating the nuclear retrotranslocation of PRL or enhancing PRL-driven proliferation. These studies reveal CypB as an important chaperone facilitating the nuclear retrotransport and action of the lactogenic hormones.
Mol Endocrinol 2000 Aug
PMID:Role of cyclophilin B in prolactin signal transduction and nuclear retrotranslocation. 1093 42

The effects of several mutations of the human LH receptor (hLHR) on the phosphorylation, internalization, and turnover of the cell surface receptor were examined. Three gain-of-function mutations associated with Leydig cell hyperplasia (L457R and D578Y) and one associated with Leydig cell adenomas (D578H), one signaling-impaired mutation associated with Leydig cell hypoplasia (I625K), and two laboratory designed signaling-impaired mutations (D405N and Y546F) were used. The signaling-impaired mutations showed a reduction in human CG (hCG)-induced receptor phosphorylation and internalization. Mutation of the phosphorylation sites of these loss-of-function mutants had little or no additional effect on internalization. Cotransfection with G protein-coupled receptor kinase-2 (GRK2) rescued the hCG-induced phosphorylation and internalization of the signaling-impaired mutations but only if the phosphorylation sites were intact. Overexpression of arrestin-3 rescued the rate of internalization regardless of whether or not the phosphorylation sites were intact. Only two of the three constitutively active mutants displayed an increase in basal phosphorylation. Although they all failed to respond to hCG with increased receptor phosphorylation, they all internalized hCG faster than wild-type hLHR (hLHR-wt). Mutation of the phosphorylation sites of these constitutively active mutants lengthened the half-time of internalization of hCG toward that of hLHR-wt. Overexpression of arrestin-3 had little or no effect on the already short half-time of internalization of hCG mediated by these mutants. The data obtained with the signaling-impaired and phosphorylation-deficient mutants of the hLHR support a model whereby receptor phosphorylation and activation play a redundant role in the internalization of hCG. The results obtained with the constitutively active mutants suggest that, when occupied by hCG, these mutants assume a conformation that bypasses many of the steps (i.e. activation, phosphorylation, and/or arrestin binding) involved in internalization.
Mol Endocrinol 2000 Nov
PMID:Effect of activating and inactivating mutations on the phosphorylation and trafficking of the human lutropin/choriogonadotropin receptor. 1107 13

Gram-negative pathogenic bacteria have evolved novel strategies to obtain iron from host haem-sequestering proteins. These include the production of specific outer membrane receptors that bind directly to host haem-sequestering proteins, secreted haem-binding proteins (haemophores) that bind haem/haemoglobin/haemopexin and deliver the complex to a bacterial cell surface receptor and bacterial proteases that degrade haem-sequestering proteins. Once removed from haem-sequestering proteins, haem may be transported via the bacterial outer membrane receptor into the cell. Recent studies have begun to define the steps by which haem is removed from bacterial haem proteins and transported into the cell. This review describes recent work on the discovery and characterization of these systems. Reference is also made to the transport of haem in serum (via haemoglobin, haemoglobin/haptoglobin, haemopexin, albumin and lipoproteins) and to mechanisms of iron removal from the haem itself (probably via a haem oxygenase pathway in which the protoporphyrin ring is degraded). Haem protein-receptor interactions are discussed in terms of the criteria that govern protein-protein interactions in general, and connections between haem transport and the emerging field of metal transport via metallochaperones are outlined.
Mol Microbiol 2001 Jan
PMID:Emerging strategies in microbial haem capture. 1112 83

Until recently, the expression and primary function of the cell surface receptor CD40 and its ligand CD154 were considered restricted to B and T lymphocytes, and their interactions required for the thymus-dependent humoral response. However, current work from several groups challenges this view of the CD40/CD154 dyad as a mere mediator of lymphocyte communication. A variety of non-lymphocytic cell types express both receptor and ligand, including hematopoetic and non-hematopoetic cells, such as monocytes, basophils, eosinophils, dendritic cells, fibroblasts, smooth muscle, and endothelial cells. Accordingly, ligation of CD40 mediates a broad variety of immune and inflammatory responses, such as the expression of adhesion molecules, cytokines, matrix-degrading enzymes, prothrombotic activities, and apoptotic mediators. Consequently, CD40 signaling has been associated with pathogenic processes of chronic inflammatory diseases, such as autoimmune diseases, neurodegenerative disorders, graft-versus-host disease, cancer, and atherosclerosis. This review focuses on the synthesis and structure of CD40 and outlines CD154/CD40 signaling pathways, and emphasizes the previously unexpected importance of the CD40/CD154 receptor/ligand dyad in a spectrum of immunoregulatory processes and prevalent human diseases.
Cell Mol Life Sci 2001 Jan
PMID:The CD40/CD154 receptor/ligand dyad. 1122 15

Neuronal death is normal during nervous system development but is abnormal in brain and spinal cord disease and injury. Apoptosis and necrosis are types of cell death. They are generally considered to be distinct forms of cell death. The re-emergence of apoptosis may contribute to the neuronal degeneration in chronic neurodegenerative disease, such as amyotrophic lateral sclerosis and Alzheimer's disease, and in neurological injury such as cerebral ischemia and trauma. There is also mounting evidence supporting an apoptosis-necrosis cell death continuum. In this continuum, neuronal death can result from varying contributions of coexisting apoptotic and necrotic mechanisms; thus, some of the distinctions between apoptosis and necrosis are becoming blurred. Cell culture and animal model systems are revealing the mechanisms of cell death. Necrosis can result from acute oxidative stress. Apoptosis can be induced by cell surface receptor engagement, growth factor withdrawal, and DNA damage. Several families of proteins and specific biochemical signal-transduction pathways regulate cell death. Cell death signaling can involve plasma membrane death receptors, mitochondrial death proteins, proteases, kinases, and transcription factors. Players in the cell death and cell survival orchestra include Fas receptor, Bcl-2 and Bax (and their homologues), cytochrome c, caspases, p53, and extracellular signal-regulated protein kinases. Some forms of cell death require gene activation, RNA synthesis, and protein synthesis, whereas others forms are transcriptionally-translationally-independent and are driven by posttranslational mechanisms such as protein phosphorylation and protein translocation. A better understanding of the molecular mechanisms of neuronal cell death in nervous system development, injury and disease can lead to new therapeutic approaches for the prevention of neurodegeneration and neurological disabilities and will expand the field of cell death biology.
Int J Mol Med 2001 May
PMID:Neuronal cell death in nervous system development, disease, and injury (Review). 1129 6


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