Iron Sequestrant DIBI, a Potential Alternative for Nares Decolonization of Methicillin-Resistant Staphylococcus aureus, Is Anti-infective and Inhibitory for Mupirocin-Resistant Isolates.

Methicillin-resistant (MRSA) opportunistic infections are a major health burden. Decolonization of hospitalized patients with mupirocin (MUP) has reduced the incidence of infection but has led to MUP resistance. DIBI is a developmental-stage anti-infective agent that sequesters bacterial iron and bolsters innate host iron-withdrawal defenses.

Antibiotic-Resistant Is Susceptible to the Novel Iron-Sequestering Anti-infective DIBI and in Experimental Pneumonia in Mice.

is a major cause of nosocomial infections especially hospital-acquired pneumonia. This bacterium readily acquires antibiotic resistance traits and therefore, new treatment alternatives are urgently needed. The virulence of linked to iron acquisition suggests a potential for new anti-infectives that target its iron acquisition.

Novel Iron-Chelator DIBI Inhibits Growth, Suppresses Experimental MRSA Infection in Mice and Enhances the Activities of Diverse Antibiotics .

DIBI, a purpose-designed hydroxypyridinone-containing iron-chelating antimicrobial polymer was studied for its anti-staphylococcal activities in comparison to deferiprone, the chemically related, small molecule hydroxypyridinone chelator. The sensitivities of 18 clinical isolates of from human, canine and bovine infections were determined. DIBI was strongly inhibitory to all isolates, displaying approximately 100-fold more inhibitory activity than deferiprone when compared on their molar iron-binding capacities.

Dengue virus strain DEN2 16681 utilizes a specific glycochain of syndecan-2 proteoglycan as a receptor.

Dengue virus (DENV) causes fever and severe haemorrhagic symptoms in humans. The DEN2 16681 strain, derived from a dengue haemorrhagic fever patient, has been widely used in studies related to DENV pathogenesis, such as mouse and non-human primate haemorrhagic models and human vascular endothelial-cell permeability. To clarify the entry mechanism of the 16681 strain, we characterized a novel cell receptor for this strain.

Molecular epidemiology of dengue 2 viruses in the Philippines: genotype shift and local evolution.

The pre-membrane (prM) and envelope (E) genes of 41 viruses isolated from dengue fever (DF), dengue hemorrhagic fever (DHF), and dengue shock syndrome (DSS) patients from 1995 to 2002 were sequenced to determine the genetic variability of dengue 2 (DENV 2) viruses in the Philippines. The envelope sequence data were compared with a global sample of DENV 2 obtained from GenBank. Phylogenetic analysis revealed that two distinct genotypes, Asian 2 and Cosmopolitan, are currently circulating locally, each with the potential to cause severe hemorrhagic disease.

Fusion PCR generated Japanese encephalitis virus/dengue 4 virus chimera exhibits lack of neuroinvasiveness, attenuated neurovirulence, and a dual-flavi immune response in mice.

The first flavivirus chimera encoding dengue 4 virus (D4) PrM and E structural proteins in a Japanese encephalitis virus (JEV) backbone was successfully generated using the long-PCR based cDNA-fragment stitching (LPCRcFS) technique, demonstrating the technique's applicability for rapid preparation of flavivirus chimeras. The JEV/D4 chimera multiplied at levels equal to JEV and D4 in the mosquito cell line C6/36, while in a mouse neuronal cell line (N2a) JEV replicated efficiently, but JEV/D4 and D4 did not. In mouse challenge experiments, JEV/D4 showed a lack of neuroinvasiveness similar to D4 when inoculated intraperitoneally, but demonstrated attenuated neurovirulence (LD50=3.

Shift in Japanese encephalitis virus (JEV) genotype circulating in northern Vietnam: implications for frequent introductions of JEV from Southeast Asia to East Asia.

This study analyses the evolutionary relatedness of 16 Japanese encephalitis virus (JEV) isolates (nine from Vietnam and seven from Japan) to previously published JEV strains using E gene sequence data. Vietnamese and Japanese strains isolated between 1986 and 1990 were found to cluster in genotype 3. However, more recent Vietnamese and Japanese strains isolated between 1995 and 2002 grouped within genotype 1, now a dominant though previously unreported genotype in Vietnam.

Complete nucleotide sequence of chikungunya virus and evidence for an internal polyadenylation site.

In this study, the complete genomic sequence of chikungunya virus (CHIK; S27 African prototype) was determined and the presence of an internal polyadenylation [I-poly(A)] site was confirmed within the 3' non-translated region (NTR) of this strain. The complete genome was 11805 nucleotides in length, excluding the 5' cap nucleotide, an I-poly(A) tract and the 3' poly(A) tail. It comprised two long open reading frames that encoded the non-structural (2474 amino acids) and structural polyproteins (1244 amino acids).