001). The mean bronchial reactivity to histamine was significantly less in NRs (PC20 = 14.1 mg/ml; 6.2–32 mg/ml) than in Rs (PC20 = 2.3 mg/ml; 0.7 to 4.8 mg/ml; P < 0.0001). At T0, there was no FDA approved Drug Library cell line significant
difference in the mean number of PBMs between Rs, NRs and HCs (P = 0.184) (table 1). However, the mean number of CD14++ CD16+ PBMs was significantly elevated in Rs (156 cells/mm3; 95%CI 114–198 cells/mm3; P = 0.001) in comparison to HCs (40 cells/mm3; 95%CI 29–50 cells/mm3). Similarly, the mean percentage of CD14++ CD16+ PBMs was significantly elevated in Rs (35.4%; 95%CI 26.9–43.9%; P = 0.01) in comparison to HCs (14.6%; 95%CI 7.3–21.8%). In NRs, neither the mean number of CD14++ CD16+ PBMs (64 cells/mm3; 95%CI 36–92 cells/mm3) nor the mean percentage of CD14++ CD16+ PBMs (15.5%; cells/mm3; 95%CI 9.6–25.4%;) was different from those of HCs (P = 0.08 and P = 0.56, respectively). The mean baseline numbers of CD14++ CD16− or CD14+ CD16++ PBMs did not differ between HCs, NRs and Rs (Table 1). During a 24-h observation period after allergen challenge, no significant changes in the total number of PBMs in either of the studied groups could be demonstrated (Fig. 1). However, in Rs, significant decrease in the mean number of CD14++ CD16+ PBMs was seen which at T24 (107 cells/mm3; 95%CI 81–132 cells/mm3)
Proteasome inhibitor was significantly less than at T0 (P = 0.003) (Fig. 2). No significant change in the number of circulating CD14++ CD16− or CD14+ CD16++ cells was seen. In NRs, no statistically significant change of any of the PBM subsets could be demonstrated after allergen challenge (Fig. 2). Analysis of
associations between the number of CD14++ CD16+ PBMs and clinical or immunological parameters of the studied patients is presented in Table 2. The percentage of CD14++ CD16+ PBMs at T0 correlates with bronchial reactivity to histamine expressed as logPC20 (r = −0.685; 95%CI −0.834 to −0.432; P < 0.001) (Table 2). Similarly, the absolute number of CD14++ CD16+ PBMs at T0 correlates with logPC20 of histamine (r = −0.507; 95%CI −0.782 to −0.069; P = 0.027) (Fig. 3A). No other clinical or immunological parameters correlated with the number or percentage of CD14++ CD16+ PBMs at T0, T6 or T24. No correlation Interleukin-2 receptor between the number of other PBM subsets and any of the clinical or immunologic parameters was found. However, the change in the number of circulating CD14++ CD16+ cells over a 24-h observation period (from T0 to T24) correlated with bronchial hyperreactivity (r = 0.706; 95%CI 0.43–0.861; P < 0.001) (Fig. 3B). To evaluate potential mechanisms for changes in individual monocyte subsets after allergen challenge, we performed serial evaluations of plasma CCL2, CX3CL1 and CCL17 concentration. The baseline concentrations of CX3CL1 (359 pg/ml; 95% CI 293–424 pg/ml) and CCL17 (159 pg/ml; 95% CI 105–209 pg/ml) in Rs were significantly greater than in HCs (253 pg/ml; 95% CI 225–282 pg/ml, P < 0.