Cholesterol 25-hydroxylase suppresses rabies virus infection by inhibiting viral entry.

Cholesterol-25-hydroxylase (CH25H) is a reticulum-associated membrane protein that catalyzes the oxidation of cholesterol to 25-hydroxycholesterol (25HC). Recent studies have revealed that CH25H is an interferon-stimulated gene (ISG) that suppresses infection by several viruses. In the present study, we found that overexpression of both human and murine CH25H inhibited rabies virus (RABV) infection in HEK-293T (293T) cells. In contrast, silencing of CH25H enhanced RABV replication in 293T cells, and a catalytic mutant of CH25H lost its ability to inhibit RABV infection. Treatment with the oxysterol 25-hydroxycholesterol (25HC), the product of CH25H, dramatically decreased RABV replication in 293T, BSR and N2a cells by inhibiting viral membrane penetration. These data provide insights into the antiviral function of CH25H against RABV infection, which can potentially be used as a therapeutic agent for rabies.

The chaperonin CCTα is required for efficient transcription and replication of rabies virus.

Negri bodies (NBs) are formed in the cytoplasm of rabies virus (RABV)-infected cells and are accompanied by a number of host factors to NBs, in which replication and transcription occur. Here, it was found that chaperonin containing TCP-1 subunit alpha (CCTα) relocalizes to NBs in RABV-infected cells, and that cotransfection of nucleo- and phospho-proteins of RABV is sufficient to recruit CCTα to the NBs' structure. Inhibition of CCTα expression by specific short hairpin RNA knockdown inhibited the replication and transcription of RABV. Therefore, this study showed that the host factor CCTα is associated with RABV infection and is very likely required for efficient virus transcription and replication.

Mitochondrial dysfunction in rabies virus infection of neurons.

Infection with the challenge virus standard-11 (CVS) strain of fixed rabies virus induces neuronal process degeneration in adult mice after hindlimb footpad inoculation. CVS-induced axonal swellings of primary rodent dorsal root ganglion neurons are associated with 4-hydroxy-2-nonenal protein adduct staining, indicating a critical role of oxidative stress. Mitochondrial dysfunction is the major cause of oxidative stress. We hypothesized that CVS infection induces mitochondrial dysfunction leading to oxidative stress. We investigated the effects of CVS infection on several mitochondrial parameters in different cell types. CVS infection significantly increased maximal uncoupled respiration and complex IV respiration and complex I and complex IV activities, but did not affect complex II-III or citrate synthase activities. Increases in complex I activity, but not complex IV activity, correlated with susceptibility of the cells to CVS infection. CVS infection maintained coupled respiration and rate of proton leak, indicating a tight mitochondrial coupling. Possibly as a result of enhanced complex activity and efficient coupling, a high mitochondrial membrane potential was generated. CVS infection reduced the intracellular ATP level and altered the cellular redox state as indicated by a high NADH/NAD+ ratio. The basal production of reactive oxygen species (ROS) was not affected in CVS-infected neurons. However, a higher rate of ROS generation occurred in CVS-infected neurons in the presence of mitochondrial substrates and inhibitors. We conclude that CVS infection induces mitochondrial dysfunction leading to ROS overgeneration and oxidative stress.

Involvement of extraneural tissues and upregulation of inducible nitric oxide synthase after experimental infection with rabies virus in BALB/c mice and LEW/SsN rats.

Rabies virus can cause fatal encephalomyelitis, but the involvement of extraneural organs has not been well characterized. In this study, we investigated the histopathological changes and the distribution of viral antigens in extraneural organs after pathogenic rabies virus infection in mouse and rat models. In histopathological examination, classical viral encephalitis and rabies-specific Negri body were observed in the brain. In addition to the central nervous system (CNS), inflammatory responses were found in other organs, such as the heart, kidney, liver, and lung. Similarly, immunohistochemical staining and reverse transcription-polymerase chain reaction revealed the presence of rabies virus in the CNS and extraneural tissues. Moreover, macrophages, especially in the lung and heart, were involved in the infection. Transcriptional analyses of the expression of inducible nitric oxide synthase (iNOS) demonstrated that rabies virus potentiated the gene expression of iNOS in the brain, lung, and heart. The immunoreactive iNOS-positive macrophages were detected adjacent to the infection. These results suggest that macrophages are involved in the extraneural infection and the expression of iNOS in macrophages contributes to the formation of tissue inflammation. Our study indicates the involvement of extraneural organs following rabies virus infection, which may aggravate the progression of this deadly disease.

Local nitric oxide production in viral and autoimmune diseases of the central nervous system.

Because of the short half-life of NO, previous studies implicating NO in central nervous system pathology during infection had to rely on the demonstration of elevated levels of NO synthase mRNA or enzyme expression or NO metabolites such as nitrate and nitrite in the infected brain. To more definitively investigate the potential causative role of NO in lesions of the central nervous system in animals infected with neurotropic viruses or suffering from experimental allergic encephalitis, we have determined directly the levels of NO present in the central nervous system of such animals. Using spin trapping of NO and electron paramagnetic resonance spectroscopy, we confirm here that copious amounts of NO (up to 30-fold more than control) are elaborated in the brains of rats infected with rabies virus or borna disease virus, as well as in the spinal cords of rats that had received myelin basic protein-specific T cells.

Effect of neurotropic virus infection on neuronal and inducible nitric oxide synthase activity in rat brain.

To elucidate the potential role of inducible nitric oxide synthase (iNOS) and neuronal constitutive nitric oxide synthase (cNOS) in the pathogenesis of virus-induced encephalopathy, the activities of both NOS isoforms were determined in the brains of rats infected with Borna disease virus (BDV) or rabies virus. iNOS activity strongly increased, whereas neuronal cNOS activity significantly decreased in a time-dependent manner after either BDV or rabies virus infection. Choline acetyltransferase activity in the brain remained unchanged during both virus infections, suggesting that the decrease in cNOS activity does not reflect a generalized neuronal loss. Immunohistochemistry and Northern blot analyses indicate that the decrease in neuronal cNOS activity is due to a decrease in cNOS protein and mRNA synthesis. These results suggest that both an excessive generation of NO by activated macrophages or microglia, as well as a decrease of NO production in neurons may contribute to the neuropathogenesis of neurotropic virus infections.

Interferon production and immune response induction in apathogenic rabies virus-infected mice.

Pathogenic parental rabies virus strain CVS (challenge virus standard) and its apathogenic variant RV194-2 were shown to differ in their ability to induce interferon (IFN) and immune response of the host. After intracerebral inoculation, IFN and antibody production was higher in the RV194-2 virus-infected mice than in the CVS infection. The enhancement of 2-5A synthetase activity, an IFN-mediated enzyme marker, showed biochemical evidence that IFN is active in both apathogenic and pathogenic infections. On the other hand, spontaneous proliferation in vitro of thymocytes and splenocytes from CVS virus-infected mice was strongly inhibited in contrast to the RV194-2 infection. In the CVS infection, the thymocyte proliferation was more affected than the splenocyte proliferation. However, in the RV194-2 infection, the thymocyte proliferation was higher than of the splenocytes. These results suggest a better performance of T-cell response to the RV194-2 infection than to the CVS infection. This fact can be critical for an enhancement of antibody production in the apathogenic infection and subsequent virus clearance from the brain of RV194-2 virus-infected mice.

Cholinergic system in experimental rabies in mice.

A defect in cholinergic synaptic neurotransmission could explain the neuronal dysfunction that has been observed in rabies. The enzymatic activities of choline acetyltransferase (ChAT), acetylcholinesterase (AChE), and enolase were assessed in the brains of rabies virus strain CVS-infected and uninfected mice. No statistically significant differences in activities of ChAT, AChE, or enolase were observed in the cerebral cortex or hippocampus of moribund CVS-infected mice versus controls. Binding to muscarinic acetylcholine receptors, which was assessed with 3H-labelled quinuclidinyl benzylate (QNB), was also not significantly different in the cerebral cortex or hippocampus of CVS-infected mice and uninfected controls. The studies suggest that dysfunction of the cholinergic system is unlikely of fundamental importance in this mouse model of rabies.

In vivo expression of inducible nitric oxide synthase in experimentally induced neurologic diseases.

The purpose of this study was to investigate the induction of inducible nitric oxide synthase (iNOS) mRNA in the brain tissue of rats and mice under the following experimental conditions: in rats infected with borna disease virus and rabies virus, in mice infected with herpes simplex virus, and in rats after the induction of experimental allergic encephalitis. The results showed that iNOS mRNA, normally nondetectable in the brain, was present in animals after viral infection or after induction of experimental allergic encephalitis. The induction of iNOS mRNA coincided with the severity of clinical signs and in some cases with the presence of inflammatory cells in the brain. The results indicate that nitric oxide produced by cells induced by iNOS may be the toxic factor accounting for cell damage and this may open the door to approaches to the study of the pathogenesis of neurological diseases.

A collaborative study of an experimental kit for rapid rabies enzyme immunodiagnosis (RREID).

Six laboratories took part in a study to assess an experimental kit for the diagnosis of rabies using the rapid rabies enzyme immunodiagnosis (RREID) technique. The test is based on the immunocapture of rabies antigens present in homogenized brain specimens, followed by enzyme immunoassay. A total of 1253 specimens from various geographical locations and 27 animal species were tested with the RREID technique, and also with the fluorescent antibody test (FAT), which was used as a reference method. For 1220 specimens the results in RREID and FAT were the same (651 positive and 569 negative-concordance: 97.4%). However, the RREID technique appeared to be less sensitive, since 22 (3%) of the 673 specimens that were positive with FAT were negative with RREID. The RREID test is therefore specific and convenient and is a useful tool for epidemiological studies and for laboratories not equipped with an ultraviolet microscope.

[Cytologic and histochemical study of cell cultures chronically infected with fixed rabies virus]. / Tsitologicheskoe i gistokhimicheskoe izuchenie kletochnykh kul'tur, khronicheski infitsirovannykh fiksirovannym virusom beshenstva.

Cytoplasmic inclusion bodies corresponding in their tinctorial properties to Negri bodies were detected in TEp-2/2 and BHK-21/13S cell cultures chronically infected with fixed rabies virus. The number of cells containing the inclusions was always than that of the cells producing virus-specific antigen. Histological examinations of chronically infected cultures revealed considerable inhibition of the acid phosphatase activity, some weakening of the reaction to alkaline phosphatase, and a marked decline in the activity of succinate dehydrogenase. The intensity of reaction to RNA in chronically infected cultures was increased, particularly in those zones of the cells where RNA-containing inclusions were detected. The activity of the respiratory enzyme HAD-H2 tetrasolium reductase in HEp-2/2 cells was reduced and in BHK-21/13S cells increased as compared to the control.