Isatin down-regulates expression of atrial natriuretic peptide receptor A and inhibits airway inflammation in a mouse model of allergic asthma.

Isatin, an endogenous indole compound, prevents atrial natriuretic peptide (ANP) from signaling through its cell-surface receptor, NPRA. Allergic airway inflammation has been linked to natriuretic peptide signaling and blocking this signaling axis in the lung prevents allergen-induced pathology. In this study we encapsulated isatin in chitosan nanoparticles and tested them in a mouse model of allergic asthma by intranasal delivery to the lung. Isatin nanocapsules reduced lung pathology by blocking ANP signaling, but surprisingly also by reducing the expression of NPRA. Ovalbumin-allergic mice were treated intranasally with isatin-containing chitosan nanocapsules either before or after allergen challenge, and lung function, cytokine levels, histopathology and cellular infiltration were determined. ANP activity was quantitated by measuring changes in intracellular cyclic GMP and changes in NPRA levels were determined. For comparison with isatin's effects, the expression of the receptor was inhibited with small interfering RNA against NPRA mRNA. Isatin nanocapsules administered locally to the lung reduced cGMP production and NPRA expression and protected allergic mice from airway hyperreactivity and lung inflammation when given either before or after allergen challenge. Leukocyte infiltration was reduced and lung cytokine profiles showed a repolarization from a Th2-like to a Th1-like phenotype. Isatin nanocapsules administered locally to the lung inhibit NPRA signaling but also are capable of lowering the expression of NPRA, thus effectively reducing inflammation in a mouse model of allergic asthma. Pharmacological intervention to reduce NPRA activity through the inflammatory natriuretic peptide axis in the lung may be a useful adjunct therapy for treating lung disease.

Human respiratory syncytial virus reduces the number of cells in S-phase and increases GADD153 expression in HEp-2 cells.

Human respiratory syncytial virus (HRSV) associated with bronchiolitis and asthma is known to replicate actively in ciliated epithelial cells. However, little is known about the influence of HRSV replication on the cell cycle. We found that HRSV infection of HEp-2 cells led to a reduction of the number of cells in S-phase, to an increase in the number of cells in G1-phase, together with an increase of GADD153 mRNA levels and GADD153 protein expression. These results implied that a shorter S-phase supported HRSV replication suggesting possible strategies for interfering with productive HRSV infection.

Comparison of culture, multiplex, and 5' nuclease polymerase chain reaction assays for the rapid detection of Yersinia enterocolitica in swine and pork products.

Bacteriological culture was compared with multiplex and fluorogenic (TaqMan) polymerase chain reaction (PCR) assays for the detection of attachment invasion locus (ail)-bearing Yersinia enterocolitica in market weight swine, chitterlings, and ground pork. The TaqMan assay detected 1 pg of purified Y. enterocolitica DNA, whereas conventional gel-based PCR detected I ng of the same. The presence of ail-bearing Y. enterocolitica was tested in pork and feces artificially inoculated with Y. enterocolitica strain NADC 5561. The sensitivity limits of culture, multiplex, and TaqMan PCR assays were 4 x 10(3), 4 x 10(2), and 0.4 CFU/g, respectively, for the artificially inoculated pork. The sensitivity limits were 4 x 10(2), 4 x 10(2), and 0.4 CFU/g, respectively, for feces after a 48-h enrichment in a Yersinia selective broth. By the culture method, Y. enterocolitica was not detected in any of the swine specimens (n = 2,403) examined. By contrast, it was detected in 48 (2%) of the swine samples screened using the multiplex PCR and in 656 (27.2%) of these samples using the TaqMan assay. Using the culture method, Y. enterocolitica was detected in 8% of chitterling samples (n = 350) and in none of the ground pork samples (n = 350). It was identified in 27% of the chitterling samples using multiplex PCR and in 79% of these samples using the TaqMan assay. Ten percent of the ground pork samples contained Y. enterocolitica, as determined by the multiplex PCR, and 38% based on the TaqMan assay. The results suggest that pork products harbor more ail-bearing Y. enterocolitica than selected organs of freshly slaughtered hogs and that the TaqMan assay is more sensitive than either the multiplex PCR or traditional culture methods.