The X-axis of Fig. 3A1 and A2 illustrates the overall changes in these markers, with the responses separated for Crizotinib chemical structure each treatment group.

Also shown in Fig. 3A are IP-10 and IL-6 data at 24 h, a time point of peak elevation, and relationship to ALC or CRP. As expected, there was a correlation between the observed decrease in ALC and the increase in IP-10 levels 24 h after immunization (r = −0.76) ( Fig. 3A). Increased CRP at 48 h was associated with increased IL-6 at 24 h (r = 0.59) ( Fig. 3A). Additionally, there was a significant association of Day 28 TNA NF50 values reported by Hopkins et al. [14] with IP-10, IL-6, ALC, and CRP. In addition, Day 28 IgG antibody levels directed against PA (reported below) correlated significantly with these early innate biomarkers ( Fig. 3B). Fig. 4A presents the sequence of steps by which PBMC ELISpot data in each of 6 treatment groups were analyzed for responder rates. Using criteria to include only those PBMC pairs (day 0 and day 21) having adequate positive responses to PHA or CEF-I, the IFN-γ ELISpot responder rate to PAp and/or rPA averaged 11% (1/9) in recipients of two full (0.5 mL) doses of AVA. In contrast, a significantly higher IFN-γ response rate was observed Mdm2 antagonist for the subjects in treatment

groups that received the lower amount of CPG 7909 (0.25 mg), resulting in 5/11 and 7/12 positive responders for Formulations 2 and 4, respectively compared to those that received a higher amount of CPG 7909 (Suissa-Shuster, p = 0.03). There were no responders in the placebo group. Using the Suissa-Shuster unconditional

test [18], the IFN-γ responder rates of subjects immunized with AV7909 formulations containing half (formulations 3 and 4) compared to full (formulations 1 and 2) dose AVA were not statistically different (p = 0.57). Fig. 4B summarizes the IFN-γ T cell SFC cell count responses to PAp and/or rPA for each treatment group. ANOVA Statistics performed on the SFC counts in response to rPA (i.e. not on responder rate) demonstrated AV7909 F2 to be significantly different from AVA; this was not observed for the PAp mixture, however ( Fig. CYTH4 4B). The T cell IFN-γ response (reported as SFC) at Day 21 did not correlate with any of the other endpoints ( Fig. 3B). Of the investigated time points of Days 28, 42, and 70, IgG anti-PA content was highest in recipients of AV7909 compared to AVA, peaking at Day 28 (Fig. 5). IgG anti-PA content of 99 human serum samples obtained 14 days following the second immunization (study day 28) ranged from 21 to 160 μg/mL; this was a 5-fold or higher mean response for recipients of AV7909 compared to AVA. As expected, there was also an increase in mean serum content within AVA recipients (average 21 μg/mL on Day 28), compared to the saline (placebo) group. Significant correlations occurred between this parameter and the changes in both ALC and CRP (Fig. 3B).