sabato 14 marzo 2015

Factors intrinsic and extrinsic to blood hamper the development of a routine blood test for human prion diseases

Development of numerous advanced techniques in recent years have allowed detection of the pathological prion protein (PrPTSE), the unique marker of transmissible spongiform encephalopathies (TSEs, or prion diseases), in the blood of animals and humans; however, an ante mortem screening test that can be used for the routine diagnosis of human prion diseases remains unavailable. A critical, analytical review of all the diagnostic assays developed to date will allow an evaluation of progress in this field and may facilitate the identification of the possible reasons for this delay. Thus, in this review, I provide a detailed overview of the techniques currently available for detecting PrPTSE and other markers of the disease in blood, as well as an analysis of the significance, feasibility, reliability and application spectrum for these methods. I highlight that factors intrinsic and extrinsic to blood may interfere with the detection of PrPTSE/prions, and that this is not yet taken into account in current tests. This may inspire researchers in this field to not only aspire to increase test sensitivity, but also to adopt other strategies in order to identify and overcome the limitations that hamper the development of a successful routine blood test for prion diseases (read more)

venerdì 13 febbraio 2015

Postmortem Stability of Ebola Virus

The ongoing Ebola virus outbreak in West Africa has highlighted questions regarding stability of the virus and detection of RNA from corpses. We used Ebola virus–infected macaques to model humans who died of Ebola virus disease. Viable virus was isolated 7 days posteuthanasia; viral RNA was detectable for 10 weeks (read more)

lunedì 12 gennaio 2015

Unraveling the Web of Viroinformatics: Computational Tools and Databases in Virus Research

The beginning of the second century of research in the field of virology (the first virus was discovered in 1898) was marked by its amalgamation with bioinformatics, resulting in the birth of a new domain—viroinformatics. The availability of more than 100 Web servers and databases embracing all or specific viruses (for example, dengue virus, influenza virus, hepatitis virus, human immunodeficiency virus [HIV], hemorrhagic fever virus [HFV], human papillomavirus [HPV], West Nile virus, etc.) as well as distinct applications (comparative/diversity analysis, viral recombination, small interfering RNA [siRNA]/short hairpin RNA [shRNA]/microRNA [miRNA] studies, RNA folding, protein-protein interaction, structural analysis, and phylotyping and genotyping) will definitely aid the development of effective drugs and vaccines. However, information about their access and utility is not available at any single source or on any single platform. Therefore, a compendium of various computational tools and resources dedicated specifically to virology is presented in this article (read more)

venerdì 2 gennaio 2015

Human Noroviruses' Fondness of Histo-Blood Group Antigens.

Human noroviruses are the dominant cause of outbreaks of gastroenteritis around the world. Human norovirus interacts with the polymorphic human histo-blood group antigens (HBGAs) and this interaction is thought to be important for infection. Indeed, synthetic HBGAs or HBGA-expressing enteric bacteria were shown to enhance norovirus infection in B cells. A number of studies have found a possible relationship between HBGA type and norovirus susceptibility. The genogroup II genotype 4 (GII.4) noroviruses are the dominant cluster, evolve every other year, and are thought to modify their binding interactions to different HBGA types. Here, we show the high-resolution X-ray crystal structures of the capsid protruding (P) domains from epidemic GII.4 variants in 2004, 2006, and 2012, co-crystallized with a panel of HBGA types (H type 2, Lewis Y, Lewis B, Lewis A, Lewis X, A-type, and B-type). Many of the HBGA binding interactions were found to be complex, involving capsid loop movements, alternative HBGA conformations, and HBGA rotations. We showed that a loop (residues 391-395) was elegantly repositioned in order to allow for Lewis Y binding. This loop was also slightly shifted to provide direct hydrogen and water-mediated bonds with Lewis B. We considered that the flexible loop modulated Lewis HBGA binding. The GII.4 noroviruses have dominated outbreaks over the past decade, which may be explained by their exquisite HBGA binding mechanisms, their fondness for Lewis HBGAs, and their temporal amino acid modifications (read more)