Platelet-activating factor induces cell cycle arrest and disrupts the DNA damage response in mast cells

Platelet-activating factor (PAF) is a potent phospholipid modulator of inflammation that has diverse physiological and pathological functions. Previously, we demonstrated that PAF has an essential role in ultraviolet (UV)-induced immunosuppression and reduces the repair of damaged DNA, suggesting that UV-induced PAF is contributing to skin cancer initiation by inducing immune suppression and also affecting a proper DNA damage response. The exact role of PAF in modulating cell proliferation, differentiation or transformation is unclear. Here, we investigated the mechanism(s) by which PAF affects the cell cycle and impairs early DNA damage response. PAF arrests proliferation in transformed and nontransformed human mast cells by reducing the expression of cyclin-B1 and promoting the expression of p21. PAF-treated cells show a dose-dependent cell cycle arrest mainly at G2–M, and a decrease in the DNA damage response elements MCPH1/BRIT-1 and ataxia telangiectasia and rad related (ATR). In addition, PAF disrupts the localization of p-ataxia telangiectasia mutated (p-ATM), and phosphorylated-ataxia telangiectasia and rad related (p-ATR) at the site of DNA damage. Whereas the potent effect on cell cycle arrest may imply a tumor suppressor activity for PAF, the impairment of proper DNA damage response might implicate PAF as a tumor promoter. The outcome of these diverse effects may be dependent on specific cues in the microenvironment.Ultraviolet (UV)-mediated immunosuppression poses a major risk for skin cancer induction,^{1, 2} and many have reported that an essential mediator in this process is UV-induced platelet-activating factor (PAF; 1-alkyl-2-acetyl-sn-glycero-3-phosphocholine).^{3, 4, 5} PAF is a phospholipid, first discovered as a secreted component by activated innate immune cells,^{6, 7} that mediates its activity by binding to a G-protein-coupled receptor.⁸ It is involved in a variety of mechanisms including the release of histamine in activated leukocytes,^{9, 10, 11} anaphylaxis, and phagocytosis.¹²Exposure to low doses of UV radiation activates PAF release by keratinocytes,^{13, 14} so it is likely that most of the population is regularly exposed to keratinocyte-derived PAF. In previous studies we showed that PAF upregulates both CXCR4 on mast cells and its ligand (CXCL12) on draining lymph node cells, promoting the migration of dermal mast cells from inflamed skin to the lymph nodes.¹⁵ Mast cells that reach the draining lymph nodes activate immune suppression by releasing interleukin 10.¹⁶ Blocking mast cell migration by using a CXCR4 antagonist, AMD3100, blocks UV-induced immune suppression and the induction of skin cancer.^{15, 17} No immune suppression is noted when PAF receptor-deficient mice (PAFR^-/-) are exposed to UV radiation,^{4, 5} nor can one reconstitute immune suppression when PAFR^-/- mast cells are used to reconstitute mast cell-deficient mice.¹⁸ PAF also has a critical role in skin cancer induction and progression,^{19, 20} and this may reflect its capacity to both induce immune suppression and hamper DNA repair.²¹Hanahan and Weinberg recognized the important roles inflammation and immune evasion play in the initiation of cancer.²² UV-induced PAF by activating immune suppression, retarding DNA repair and activating inflammation clearly constitutes an important hallmark for cancer induction. Supporting this idea is the observation that PAF is involved in a variety of other cancers besides skin cancer.^{23, 24, 25, 26, 27} Although we previously demonstrated that PAF suppresses the rate of DNA repair in vivo,²¹ little is known regarding the mechanisms involved. In this study we performed a series of experiments to determine how PAF affects DNA repair by examining important checkpoints that regulate DNA repair and cell cycle progression. We primarily used mast cells because of the critical role these cells have in UV-induced immune suppression and skin cancer induction,^{15, 28} and also because the dermis where they reside is targeted by UV-induced PAF.¹⁸