Pathogenesis of XJ and Romero strains of Junin virus in two strains of guinea pigs.

Argentine hemorrhagic fever (AHF), a systemic infectious disease caused by infection with Junin virus, affects several organs, and patients can show hematologic, cardiovascular, renal, or neurologic symptoms. We compared the virulence of two Junin virus strains in inbred and outbred guinea pigs with the aim of characterizing this animal model better for future vaccine/antiviral efficacy studies. Our data indicate that this passage of the XJ strain is attenuated in guinea pigs. In contrast, the Romero strain is highly virulent in Strain 13 as well as in Hartley guinea pigs, resulting in systemic infection, thrombocytopenia, elevated aspartate aminotransferase levels, and ultimately, uniformly lethal disease. We detected viral antigen in formalin-fixed, paraffin-embedded tissues. Thus, both guinea pig strains are useful animal models for lethal Junin virus (Romero strain) infection and potentially can be used for preclinical trials in vaccine or antiviral drug development.

Combinatorial selection and edited combinatorial selection of phosphorothioate aptamers targeting human nuclear factor-kappaB RelA/p50 and RelA/RelA.

Nuclear factor-kappaB (NF-kappaB) transcription factors are important in regulating the immune response and play critical roles in the pathogenesis of chronic inflammatory diseases and a variety of human cancers. Agents that target specific NF-kappaB dimers may serve as therapeutic agents for the prevention of pathogenic immune responses. We have selected monothiophosphate-modified aptamers, or "thioaptamers", to the NF-kappaB p50/RelA heterodimer using combinatorial selection techniques. We also utilized a "double sieve" or editing approach for the generation of thioaptamers with enhanced selectivity to the RelA/RelA homodimer. The thioaptamers from these selections and our previous selections on the p50/p50 and RelA/RelA homodimers all had unique sequences and bound tightly to the recombinant NF-kappaB dimers against which they were selected. The selected thioaptamers also appear to maintain their selectivity and specificity among other cellular proteins, because they have the ability to bind NF-kappaB proteins within nuclear extracts from lipopolysaccharide (LPS)-induced macrophages and B cells.