Alain Jouan

INTERFERON, RIBAVIRIN, 6-AZAURIDINE, AND GLYCYRRHIZIN: ANTIVIRAL COMPOUNDS ACTIVE AGAINST PATHOGENIC FLAVIVIRUSES

Ribavirin, interferon-alpha (IFN-alpha), 6-azauridine and glycyrrhizin were tested in vitro for their antiviral activities against 11 pathogenic flaviviruses belonging to principal antigenic complexes or individual serogroups of medical importance: dengue, Japanese encephalitis, mammalian tick-borne and yellow fever virus (YFV) groups. Antiviral activity was estimated by the reduction of the cytopathic effect of each flavivirus in Vero cells and by the reduction in virus titer. Cytotoxicity was evaluated by determining the inhibition of Trypan blue exclusion in confluent cell cultures and by the evaluation of the inhibitory effect on cell growth. The specificity of action of each tested compound was estimated by the selectivity index (CC(50)/EC(50)). IFN-alpha proved to be a selective and potent inhibitor of the replication of the 11 tested pathogenic flaviviruses. Ribavirin and 6-azauridine proved to be active on the replication of the 11 tested pathogenic flaviviruses at the concentrations which did not alter normal cell morphology, but they were not selective inhibitors when selectivity indices were evaluated with regard to the inhibition of cell growth because of their cytostatic effect. Glycyrrhizin inhibited the replication of flaviviruses at high non-cytotoxic concentrations. These antiflavivirus compounds should be further evaluated for their efficacy in the treatment of flavivirus infections in vivo.

ADP-ribosylation of a small size GTP-binding protein in bovine neutrophils by the C3 exoenzyme of Clostridium botulinum and effect on the cell motility.

A 24-kDa G protein, ADP-ribosylable by exoenzyme C3 from Clostridium botulinum and therefore related to the rho family, was found to be abundantly present in human and bovine neutrophils, and preferentially located in cytosol. In human myeloid HL60 cells, the amount of C3 substrate increased during differentiation of the HL60 cells into granulocytes. The effect of exoenzyme C3 on different functions of bovine neutrophils, namely generation of O-2, degranulation and chemotaxis, has been tested, using electropermeabilized cells. Exoenzyme C3 hardly affected the respiratory burst and the degranulation. In contrast, it efficiently inhibited the spontaneous and chemoattractant-induced motility of the cells and disorganized the actin microfilament assembly.

Fever-like thermal conditions regulate the activation of maturing dendritic cells

Fever is one of the most frequent clinical signs encountered in pathology, especially with respect to infectious diseases. It is currently thought that the role of fever on immunity is limited to activation of innate immunity; however, its relevance to activation of adaptive immunity remains unclear. Dendritic cells (DCs) that behave as sentinels of the immune system provide an important bridge between innate and adaptive immunity. To highlight the role of fever on adaptive immunity, we exposed murine bone marrow‐derived lipopolysaccharide (LPS)‐ or live bacteria‐maturing DCs over a 3‐h period to 37°C or to fever‐like thermal conditions (39°C or 40°C). At these three temperatures, we measured the kinetics of cytokine production and the ability of DCs to induce an allogeneic mixed lymphocyte reaction. Our results show that short exposure of DCs to temperatures of 39°C or 40°C differentially increased the secretion of interleukin (IL)‐12p70 and decreased the secretion of IL‐10 and tumor necrosis factor α by maturing DCs. These fever‐like conditions induced a regulation of cytokine production at the single‐cell level. In addition, short‐term exposed LPS‐maturing DCs to 39°C induced a stronger reaction with allogeneic CD4+ T cells than maturing DCs incubated at 37°C. These results provide evidence that temperature regulates cytokine secretion and DC functions, both of which are of particular importance in bacterial diseases.

Small G proteins and the neutrophil NADPH oxidase.

The NADPH oxidase of phagocytic cells is a multimeric enzyme complex activated during phagocytosis. It catalyzes the production of the superoxide anion, precursor of many toxic oxygen metabolites involved in the defense against microorganisms. The enzyme becomes active after assembly on a membrane bound flavocytochrome b of cytosolic factors p47 phox, p67 phox and p40 phox and of low molecular mass GTP binding proteins. This paper reviews recent results concerning the role of two small G proteins, Rac and Rap 1A in oxidase activation. Native prenylated small G proteins are either in the form of a complex in which the GDP bound G protein is associated with a guanine nucleotide dissociation inhibitor, GDI, or in an active GTP bound form able to trigger the activity of its effector. Rac and Rho share a common GDI. As chemotaxis, under Rho control, and oxidase activation, under Rac control, show mutually exclusive signalling pathways, we propose a model where the GDI would switch from one pathway to the other by sequestering either Rac or Rho.

Purification and properties of a functional 47-kilodalton cytosolic factor required for NADPH-oxidase activation in bovine neutrophils.

A cytosolic factor of 47 kDa required for activation of the NADPH oxidase, and referred to as p47, has been purified in its functional form from the cytosol of resting bovine neutrophils. The purification was monitored by the determination of the activating potency of p47 in a cell-free system of oxidase activation. The recovery was around 10% and the purification factor greater than 1000. P47 was phosphorylated in vitro by protein kinase A and protein kinase C. [32P] labeled p47 was resolved by isoelectric focusing into two major labeled bands of pI 7.0 and 8.5. Polyclonal antibodies were used to demonstrate that p47 is localized specifically in the cytosol of resting neutrophils, and that, upon activation of neutrophils, p47 is translocated from the cytosol to the membrane.

NS3 protease of Langat tick-borne flavivirus cleaves serine protease substrates

Langat (LGT) virus, initially isolated in 1956 from ticks in Malaysia, is a naturally occurring nonpathogenic virus with a very close antigenicity to the highly pathogenic tick-borne encephalitis (TBE) Western subtype virus and TBE Far Eastern subtype virus. NS3, the second largest viral protein of LGT virus, is highly conserved among flaviviruses and contains a characteristic protease moiety (NS3 pro). NS3 pro represents an attractive target for anti-protease molecules against TBE virus. We report herein a purification method specially designed for NS3 pro of LGT using a strategy for proper refolding coupled with the enzymatic characterisation of the protein. Different p-nitroanilide substrates, defined on canonic sequences for their susceptibility to Ser-protease, were applied to the proteolytic assays of the protein. The highest values were obtained from substrates containing an Arg or Lys (amino acid) residue at the P1 position. This purification method will facilitate the future development of reliable testing procedures for anti-proteases directed to NS3 proteins.