Abstract
Ultraviolet blood irradiation has been used as a physical therapy to treat many nonspecific diseases in clinics; however, the underlying mechanisms remain largely unclear. Neutrophils, the first line of host defense, play a crucial role in a variety of inflammatory responses. In the present work, we investigated the effects of ultraviolet light A (UVA) on the immune functions of human neutrophils at the single-cell level by using an inverted fluorescence microscope. N-Formyl-methionyl-leucyl-phenylalanine (FMLP), a classic physiological chemotactic peptide, was used to induce a series of immune responses in neutrophils in vitro. FMLP-induced calcium mobilization, migration, and phagocytosis in human neutrophils was significantly blocked after treatment with 365[Formula: see text]nm UVA irradiation, demonstrating the immunosuppressive effects of UVA irradiation on neutrophils. Similar responses were also observed when the cells were pretreated with H2O2, a type of reactive oxygen species (ROS). Furthermore, UVA irradiation resulted in an increase in NAD(P)H, a member of host oxidative stress in cells. Taken together, our data indicate that UVA irradiation results in immunosuppression associated with the production of ROS in human neutrophils.
Highlights
As an important component of solar radiation, ultraviolet (UV) light has signicant in°uence on human health
We investigated the e®ects of ultraviolet light A (UVA) on the immune functions of human neutrophils at the single-cell level by using an inverted °uorescence microscope
Our results showed that UVA irradiation could induce immunosuppression by inhibiting calcium mobilization, migration, and phagocytosis associated with the production of reactive oxygen species (ROS) in activated human neutrophils
Summary
As an important component of solar radiation, ultraviolet (UV) light has signicant in°uence on human health. Our previous work demonstrated that UVA could induce °uorescence enhancement through photodecomposition of hemoglobin in erythrocytes.[8]
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