The Journal of infectious diseases
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The unique environment of the human stomach makes it difficult to establish representative in vitro models for Helicobacter pylori that mimic the natural infection. The in vitro explant culture (IVEC) technique is based on coculture of human gastric explants with H. pylori, where bacteria-host interaction is studied on the basis of interleukin (IL)-8 secretion of the explant tissue in response to infection. ⋯ Furthermore, IL-8 production by the explant tissue in response to H. pylori infection demonstrated that the explants were adequately responsive. The IVEC technique for studies of the interplay between H. pylori and the human gastric mucosa during conditions of experimental infections in vitro could add knowledge to our understanding of the complex bacteria-host cross-talk in vivo.
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A lethal synergism exists between influenza virus and pneumococcus, which likely accounts for excess mortality from secondary bacterial pneumonia during influenza epidemics. Characterization of a mouse model of synergy revealed that influenza infection preceding pneumococcal challenge primed for pneumonia and led to 100% mortality. This effect was specific for viral infection preceding bacterial infection, because reversal of the order of administration led to protection from influenza and improved survival. ⋯ Groups of mice receiving CV-6209, a competitive antagonist of PAFr, had survival rates similar to those of control mice, and lung and blood bacterial titers increased during PAFr inhibition. These data suggest that PAFr-independent pathways are operative in the model, prompting further study of receptor interactions during pneumonia and bacteremia. The model of lethal synergism will be a useful tool for exploring this and other mechanisms underlying viral-bacterial interactions.
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The genomic DNA patterns (genotypes) of 55 episodes of late positive sputum isolates, collected after >or=4 consecutive months of negative sputum cultures, in prospective macrolide treatment trials of Mycobacterium avium complex (MAC) lung disease were assessed by pulsed-field gel electrophoresis (PFGE). Having >or=2 cultures positive for MAC after completion of therapy was documented 23 times; of 20 episodes studied by PFGE, 17 (85%) represented new genotypes (i.e., new infections), and 87% occurred in patients with nodular bronchiectasis. ⋯ No late isolates were macrolide resistant. Thus, relapses of MAC lung disease with these macrolide regimens are unusual, and most infections after completing therapy resulted from new strains in patients with nodular bronchiectasis.
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Pseudomonas aeruginosa is a gram-negative pathogen causing life-threatening infections. Lung injury and the development of sepsis depend largely on the expression of type III secretion system (TTSS) virulence. TTSS functions as a molecular syringe to deliver toxins directly to the cytosol of cells, inhibit innate immune mechanisms, and prevent bacterial clearance. ⋯ In this study, a murine monoclonal antibody (MAb) to PcrV was generated: MAb 166, which is protective against P. aeruginosa when coinstilled with the bacterial inoculum or intraperitoneally transferred to mice. Fab fragments from MAb 166 prevent sepsis and death. The epitope bound by MAb 166 was mapped to the carboxyl-terminus of PcrV.
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Rhinoviruses and coronaviruses are recognized as the major causes of the common cold syndrome. The role of these viruses in more serious respiratory illnesses resulting in hospitalization is less well defined. During a winter when influenza A infection was prevalent, 100 elderly adults hospitalized because of cardiopulmonary illnesses were evaluated for rhinovirus and coronavirus infection. ⋯ All patients had significant underlying diseases. Although all patients recovered, the mean length of stay was 8 days; 4 persons had pneumonia, and 1 required ventilator support. These data suggest that rhinoviruses and coronaviruses may be associated with serious respiratory illnesses in frail older adults.