[Rabies transmission through organ transplantation]

Neurotropic virus infections as the cause of immediate and delayed neuropathology

A wide range of viruses from different virus families in different geographical areas, may cause immediate or delayed neuropathological changes and neurological manifestations in humans and animals. Infection by neurotropic viruses as well as the resulting immune response can irreversibly disrupt the complex structural and functional architecture of the central nervous system, frequently leaving the patient or affected animal with a poor or fatal prognosis. Mechanisms that govern neuropathogenesis and immunopathogenesis of viral infections are highlighted, using examples of well-studied virus infections that are associated with these alterations in different populations throughout the world. A better understanding of the molecular, epidemiological and biological characteristics of these infections and in particular of mechanisms that underlie their clinical manifestations may be expected to provide tools for the development of more effective intervention strategies and treatment regimens.

Cationic amphiphilic drugs enhance entry of lentiviral particles pseudotyped with rabies virus glycoprotein into non-neuronal cells

Amiodarone and other cationic amphiphilic drugs (CADs) inhibit cell entry by diverse human pathogenic viruses including Filoviruses, Dengue virus and Japanese encephalitis virus. They are thus considered potential broad spectrum antiviral agents. Here we report the unexpected finding that amiodarone and other CADs markedly enhance rabies virus (RABV) glycoprotein- (GP-) mediated cell entry of pseudotyped lentiviruses into non-neuronal cells but not in neuronal cells. Increased cell entry can also be elicited when CADs are added several hours after pseudoviral attachment. Perturbing endosomal processing with phosphoinosite-3-kinase inhibitors wortmannin and LY294002 mimics the effects of CADs on RABV GP-mediated cell entry. Thus, CADs may enhance RABV GP-mediated cell entry of pseudotyped lentiviruses by promoting a late step of the pseudoviral cell entry process, possibly release from an endosomal compartment into the cytosol. In contrast to the pseudotyped lentiviruses, infection by fully infectious RABV was not enhanced by CADs, indicating, that the observed stimulation of RABV GP mediated lentivirus entry also depended on the used lentivirus vector backbone. In conclusion, we show that while CADs inhibit cell entry of diverse viruses they can also have a paradoxical enhancing effect on the ability of a viral glycoprotein to mediate cell entry depending on the cellular and viral context. Although, we show CAD-mediated enhancement of entry only for pseudoviruses, but not fully infectious RABV, the potential to unexpectedly enhance viral entry should be taken into account when considering use of CADs as antiviral agents.

Nanoparticles and Pop-off Technique for Electron Microscopy

Because of the size of the nanoparticles, their detection and exact anatomical localization in tissue samples are very difficult. Consequently, suitable methods are needed to prove their presence, especially co-localized to histological lesions. Therefore, the aim of this study was to investigate whether nanoparticles were detectable in specimens after reprocessing samples from glass slides using the pop-off technique. Tissue slides containing agglomerates of titanium dioxide nanoparticles already visible on a light microscopic level and amorphous silicium dioxide (SiO2) particles not observable in tissue slides were reprocessed. Furthermore, cytospots of bronchoalveolar lavage acquired from rats that previously inhaled carbon nanotubes were used. After reprocessing the samples, they were investigated using transmission electron microscopy. In all the reprocessed samples, the respective nanoparticles were detectable. Even the light microscopically invisible amorphous SiO2 particles were observed as electron dense structures. Titanium and silicium were additionally confirmed in the respective nanoparticles by energy-dispersive X-ray spectroscopy (EDX). In summary, the pop-off technique represents a fast and easy way to detect nanoparticles in histological sections. This enables further characterization of these particles by additional techniques such as EDX, and their direct correlation with light microscopic lesions at exactly the same location is investigated.

[Neuritis cordis and myocarditis in rabies]

Once the rabies virus has spread through the central nervous system (CNS), the virus is also transported centrifugally along axons, especially of the autonomic nervous system, to a wide range of organs including the heart. In this case report of a 49-year-old man who had been bitten by a dog in Asia, the rabies infection of cardiac nerves and cardiac muscle fibres is shown by immunohistochemistry. The neuritis cordis and rabies myocarditis can have important clinical effects on the heart rate and myocardial function and lead to blood pressure crises which are typical for the clinical course of rabies in humans.

Imported human rabies in Switzerland, 2012: a diagnostic conundrum

Human rabies is rare in Western Europe. It is not easily recognized in the absence of a history of exposure. We describe the clinical course, diagnosis and follow-up of an imported human rabies case in Switzerland. The patient, a U.S. citizen, presented at an outpatient clinic in Iraq with pain in his right shoulder on July 5, 2012. On July 8 he was transferred to a hospital in the United Arab Emirates, where he exhibited progressive encephalitis with coma. On July 29, he was transferred to a hospital in Switzerland, where he died on July 31, 2012. The autopsy showed severe encephalitis. Rabies was diagnosed by the rapid fluorescent focus inhibition test (RFFIT) and confirmed by fluorescence antibody testing (FAT) in brain smears and immunohistochemistry on paraffin-embedded brain sections. The viral strain was characterized by RT-PCR followed by sequencing and phylogenetic analysis as an American bat rabies strain associated with Tadarida brasiliensis. Close contacts and exposed health care workers received postexposure prophylaxis (PEP).