Antonella Tinari

Entry Pathway of Vesicular Stomatitis Virus into Different Host Cells

A biochemical and morphological investigation of the mechanism of entry of vesicular stomatitis virus (VSV) into host cells of mammalian (HeLa), avian (CER), piscine (EPC) and arthropod (Aedes albopictus) origin, is described. VSV was capable of infecting all cell lines tested by a endosome- and/or a lysosome-dependent step since ammonium chloride and amantadine blocked the early stages of infection. Complement-dependent immune lysis of infected host cells provided evidence that in none of the four different cell types examined did insertion of VSV antigens occur from the outside to any great extent on the cell surface. When the entry process was studied by electron microscopy, virus particles were seen to be bound to the cell surface at 0 degrees C. After warming at 37 degrees C for homeothermic cells or at 26 degrees C for poikilothermic cells, virus was detected within coated pits and coated vesicles and, later, in lysosomes. VSV entry was seen to take place by endocytosis in all four cell lines, which were derived from phylogenetically unrelated species.

Bovine Lactoferrin Inhibits Adenovirus Infection by Interacting with Viral Structural Polypeptides

ABSTRACT We recently demonstrated that lactoferrin, an antimicrobial glycoprotein, can inhibit adenovirus infection by competing for common glycosaminoglycan receptors. This study further characterizes the antiadenovirus activity of the protein, thus demonstrating that lactoferrin neutralizes infection by binding to adenovirus particles and that its targets are viral III and IIIa structural polypeptides.

Effect of Acid Adaptation on the Fate of Listeria monocytogenes in THP-1 Human Macrophages Activated by Gamma Interferon

ABSTRACT In Listeria monocytogenes the acid tolerance response (ATR) takes place through a programmed molecular response which ensures cell survival under unfavorable conditions. Much evidence links ATR with virulence, but the molecular determinants involved in the reactivity to low pHs and the behavior of acid-exposed bacteria within host cells are still poorly understood. We have investigated the effect of acid adaptation on the fate of L. monocytogenes in human macrophages. Expression of genes encoding determinants for cell invasion and intracellular survival was tested for acid-exposed bacteria, and invasive behavior in the human myelomonocytic cell line THP-1 activated with gamma interferon was assessed. Functional approaches demonstrated that preexposure to an acidic pH enhances the survival of L. monocytogenes in activated human macrophages and that this effect is associated with an altered pattern of expression of genes involved in acid resistance and cell invasion. Significantly decreased transcription of the plcA gene, encoding a phospholipase C involved in vacuolar escape and cell-to-cell spread, was observed in acid-adapted bacteria. This effect was due to a reduction in the quantity of the bicistronic plcA-prfA transcript, concomitant with an increase in the level(s) of the monocistronic prfA mRNA(s). The transcriptional shift from distal to proximal prfA promoters resulted in equal levels of the prfA transcript (and, as a consequence, of the inlA, hly, and actA transcripts) under neutral and acidic conditions. In contrast, the sodC and gad genes, encoding a cytoplasmic superoxide dismutase and the glutamate-based acid resistance system, respectively, were positively regulated at a low pH. Morphological approaches confirmed the increased intracellular survival and growth of acid-adapted L. monocytogenes cells both in vacuoles and in the cytoplasm of interferon gamma-activated THP-1 macrophages. Our data indicate that preexposure to a low pH has a positive impact on subsequent challenge of L. monocytogenes with macrophagic cells.

Inhibition of Rotavirus Replication by Prostaglandin A: Evidence for a Block of Virus Maturation

Rotaviruses are recognized as the leading cause of severe viral gastroenteritis in young children and in immunocompromised patients. Cyclopentenone prostaglandins possess antiviral activity against several single-strand RNA viruses; therefore, the effect of prostaglandin A1 (PGA1) on SA-11 simian rotavirus infection was investigated in cultured cells. PGA1 potently inhibited SA-11 rotavirus replication. Whereas it did not affect virus adsorption or penetration, PGA1 partially inhibited VP4 and VP7 synthesis and selectively reduced glucosamine incorporation into the NSP4 viral enterotoxin. Electron microscopy analysis showed that, despite normal formation of cytoplasmic inclusions and budding of particles into the rough endoplasmic reticulum, virus maturation was impaired in PGA1-treated cells, with most of the virus particles remaining in the membrane-enveloped intermediate form. Because prostaglandins are used clinically as cytoprotective drugs for gastric ulcers, these observations offer new perspectives in the search for therapeutic agents for rotavirus-induced gastroenteritis.

Infection of a Simian B Cell Line by Human and Simian Immunodeficiency Viruses

It is well known that HIV-1 does not establish infection in nonhuman primates, nor in cell lines derived from them, due to the existence of saturable resistance factors. In this study, we show that an in vitro established Macaca fascicularis-derived CD4(-) B cell line (F6) can be productively infected by the laboratory-adapted T-tropic HXBc2/HIV-1 strain at low multiplicity of infection, apparently because it does not express the restriction factor that has been detected in other simian cell lines. Moreover, efficient entry into F6 cells was obtained with pseudotyped recombinant HIV-1 viruses containing the laboratory-adapted T-tropic (HXBc2) or the dual-tropic (89.6) envelope glycoproteins, whereas entry of virus containing the envelope glycoproteins of the M-tropic Ba-L strain was less efficient. Virus containing primary T-tropic (Eli) envelope glycoproteins did not infect F6 cells. Furthermore, although CCR5 was not present on the cell surface and gpr15 and strl33 mRNAs were not expressed in the cells, a high level of infection of F6 cells by the M-tropic simian immunodeficiency virus SIVmac316 was observed. In contrast, F6 cells were poorly infected by T-tropic SIVmac239. Given the unique properties of the F6 cell line, i.e., that it is of simian origin yet is able to be infected by HIV-1 in a CD4-independent manner, F6 cells represent a useful model for studying cellular factors mediating resistance or permissivity to HIV-1 infection and may help to evaluate HIV-1 and SIV cell tropism.