Abstract
PM2.5 causes abnormal immune response and asthma in animals. In this study, a Balb/c mouse animal model was exposed to PM2.5 to induce asthma. Lactobacillus paracasei HB89 was fed at the same time, in order to observe whether L. paracasei HB89 mitigates respiratory tract allergies stimulated by PM2.5. The results showed that PM2.5 stimulated a significant increase in white blood cells and immunoglobulin (IgE) in OVA-induced allergic Balb/c mice, and IgE in the blood further triggered the release of histamine in the lung immune cells. This not only increased overall immune cell counts, but the lymphocyte counts also increased significantly, resulting in significant inhibitions of cytokines INF-r and TGF-β, and induction of IL-4, IL-5, IL-13 and IL-17a. After feeding with HB89, apart from the absence of observable changes in body weight, the total white blood cell count in the animal blood and IgE response were also be reduced; the proliferation of immune cells in the lungs caused by PM2.5 was slowed down; and histamine and cytokines INF-r and TGF-β were secreted in large quantities, but IL- 4, IL-5, IL-13, IL-17a were inhibited, which effectively reduced the possibility of asthma induction.
Highlights
In recent years, more and more attention has been paid to the impact of air pollution on our health
PM2.5, or which had OVA-sensitized and challenged group (OVA)-induction or feeding with HB89, there was no significant difference in RBC count between groups
The WBC counts in the control group, OVA allergic+L. paracasei HB89 group, and OVA+PM2.5 allergic + L. paracasei HB89 group all went down to a normal level, while the L. paracasei HB89 groups recorded a significant decrease in inflammatory response
Summary
More and more attention has been paid to the impact of air pollution on our health. This has become a public health issue. Many epidemiological studies have shown that an increase in the concentration of air pollutants over short periods of time may increase the incidence rates of lung and cardiovascular diseases. Prolonged exposure to air pollutants results in increased overall death and incidence rates for cardiovascular diseases [1,2,3,4,5].
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