A new anti-p58 monoclonal antibody (mAb), termed CH-L, has been used to characterize a minor subset of T lymphocytes co-expressing p58 and CD3 molecules. In two-color immunofluorescence analysis, CH-L+CD3+ cells represented 0.5 to 6% of the peripheral blood lymphocytes (in 20 healthy donors). Clonal analysis showed that most CD3+CH-L+ T cell clones expressed the CD8+4- T cell receptor (TcR) alpha/beta+ phenotype, while only a few were CD8-4+ TcR alpha/beta, CD8-4- TcR alpha/beta+ or CD8-4- TcR gamma/delta+. Western blot analysis indicated that the CH-L mAb identifies the same 56-58-kDa diffuse band in both T and natural killer cell (NK) clones. A minority of T cell clones also expressed other NK-related markers such as CD16, CD56 and CD94 and two clones also reacted with the anti-p58 mAb EB6. Interestingly, most clones displayed cytolytic activity in an anti-CD3 mAb-triggered redirected killing assay against the Fc gamma receptor+ P815 target cells and NK-like activity against K562 and Raji cells. In contrast, the IGROV-1 ovarian carcinoma cell line was resistant to cytolysis by all of these clones. Since p58 molecules have previously been shown to exert regulatory functions on NK-mediated lysis, we investigated whether anti-p58 mAb could also influence cytotoxicity mediated by CD3+p58+ T lymphocytes. Lysis of P815 target cells, triggered by anti-CD3 mAb, could be inhibited by anti-p58 mAb in 8 out of 12 cytolytic clones tested, while 4 clones were not inhibited. In addition, anti-p58 mAb enhanced the cytolytic activity of 3 clones against IGROV-1 and of 4 other clones against Raji target cells. Taken together, these data indicate that p58+ T cells express heterogeneous phenotypes and different forms of TcR and, in most instances, display cytolytic functions. Perhaps more importantly, the p58 molecule appears to modulate the cytolytic activity triggered via the CD3/TcR complex.
AlphaCoV and lineage C betaCoV, genetically similar to those identified in Spanish related bat species, have been detected in Italian Myotis blithii and Eptesicus serotinus, respectively, out of 75 anal swabs collected from Vespertilionidae between 2009 and 2012. Sequence analysis of the 816-bp obtained RdRp sequence fragment indicates a 96.9 % amino acid identity of the Italian lineage C betaCoV with the recent Middle East Respiratory Syndrome Coronavirus (MERS-CoV, Genbank accession number KF192507). This is the first documented occurrence of a lineage C betaCoV in the Italian bat population, notably in E. serotinus.
Mutations in AbetaPP cause deposition of Abeta amyloid fibrils in brain parenchyma and cerebral vessels, resulting in Alzheimer's disease (AD) and/or cerebral amyloid angiopathy (CAA). We report a novel mutation (L705V) within the Abeta sequence of AbetaPP in a family with autosomal dominant, recurrent intracerebral hemorrhages. Pathological examination disclosed severe CAA, without parenchymal amyloid plaques or neurofibrillary tangles. This variant highlights the vascular tropism of mutated Abeta, resulting in CAA instead of the pathological hallmarks of AD.
We identified influenza A(H9N2) virus G1 lineage in poultry in Burkina Faso.
Urgent actions are needed to raise awareness about the risk associated with
spread of this zoonotic virus subtype in the area and to construct a strategy
for effective prevention and control of influenza caused by this virus.
Rabies is a fatal zoonosis caused by a nonsegmented negative-strand RNA virus, namely, rabies virus (RABV). Apart from RABV, at least 10 additional species are known as rabies-related lyssaviruses (RRVs), and some of them are responsible for occasional spillovers into humans. More lyssaviruses have also been detected recently in different bat ecosystems, thanks to the application of molecular diagnostic methods. Due to the variety of the members of the genus Lyssavirus, there is the necessity to develop a reliable molecular assay for rabies diagnosis able to detect and differentiate among the existing rabies and rabies-related viruses. In the present study, a pyrosequencing protocol targeting the 3 terminus of the nucleoprotein (N) gene was applied for the rapid characterization of lyssaviruses. Correct identification of species was achieved for each sample tested. Results from the pyrosequencing assay were also confirmed by those obtained using the Sanger sequencing method. A pan-lyssavirus one-step reverse transcription (RT)-PCR was developed within the framework of the pyrosequencing procedure. The sensitivity (Se) of the one-step RT-PCR assay was determined by using in vitro-transcribed RNA and serial dilutions of titrated viruses. The assay demonstrated high analytical and relative specificity (Sp) (98.94%) and sensitivity (99.71%). To date, this is the first case in which pyrosequencing has been applied for lyssavirus identification using a cheaper diagnostic approach than the one for all the other protocols for rapid typing that we are acquainted with. Results from this study indicate that this procedure is suitable for lyssavirus detection in samples of both human and animal origin.
Systemic reactive (AA) amyloidosis, leading to renal failure, is a severe complication of most hereditary periodic fever syndromes. The risk of developing this life‐threatening condition varies widely among these disorders, being higher for patients affected by familial Mediterranean fever and tumor necrosis factor receptor–associated periodic syndrome. In spite of an acute‐phase response during attacks, amyloidosis has never, to date, been described in patients affected with the hyperimmunoglobulinemia D with periodic fever syndrome (HIDS). This is the first report to describe the occurrence of renal AA amyloidosis causing severe nephrotic syndrome in a young Italian man affected with HIDS. The diagnosis of HIDS was established according to clinical, laboratory, and genetic criteria as required by the international Nijmegen HIDS registry. In this patient, 2 mutations in the mevalonate kinase gene were identified, one of which, the leucine‐to‐arginine substitution at codon 265, is novel.
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