Chemotherapeutic agents subvert tumor immunity by generating agonists of platelet-activating factor

Oxidative stress suppresses host immunity by generating oxidized lipid agonists of the platelet-activating factor receptor (PAF-R). Because many classical chemotherapeutic drugs induce reactive oxygen species (ROS), we investigated whether these drugs might subvert host immunity by activating PAF-R. Here, we show that PAF-R agonists are produced in melanoma cells by chemotherapy that is administered in vitro, in vivo, or in human subjects. Structural characterization of the PAF-R agonists induced revealed multiple oxidized glycerophosphocholines that are generated nonenzymatically. In a murine model of melanoma, chemotherapeutic administration could augment tumor growth by a PAF-R-dependent process that could be blocked by treatment with antioxidants or COX-2 inhibitors or by depletion of regulatory T cells. Our findings reveal how PAF-R agonists induced by chemotherapy treatment can promote treatment failure. Furthermore, they offer new insights into how to improve the efficacy of chemotherapy by blocking its heretofore unknown impact on PAF-R activation

Insulin‐like growth factor‐1 receptor regulates repair of ultraviolet B‐induced DNA damage in human keratinocytes in vivo

The activation status of the insulin‐like growth factor‐1 receptor (IGF‐1R) regulates the cellular response of keratinocytes to ultraviolet B (UVB) exposure, both in vitro and in vivo. Geriatric skin is deficient in IGF‐1 expression resulting in an aberrant IGF‐1R‐dependent UVB response which contributes to the development of aging‐associated squamous cell carcinoma. Furthermore, our lab and others have reported that geriatric keratinocytes repair UVB‐induced DNA damage less efficiently than young adult keratinocytes. Here, we show that IGF‐1R activation influences DNA damage repair in UVB‐irradiated keratinocytes. Specifically, in the absence of IGF‐1R activation, the rate of DNA damage repair following UVB‐irradiation was significantly slowed (using immortalized human keratinocytes) or inhibited (using primary human keratinocytes). Furthermore, inhibition of IGF‐1R activity in human skin, using either ex vivo explant cultures or in vivo xenograft models, suppressed DNA damage repair. Primary keratinocytes with an inactivated IGF‐1R also exhibited lower steady‐state levels of nucleotide excision repair mRNAs. These results suggest that deficient UVB‐induced DNA repair in geriatric keratinocytes is due in part to silenced IGF‐1R activation in geriatric skin and provide a mechanism for how the IGF‐1 pathway plays a role in the initiation of squamous cell carcinoma in geriatric patients., IGF‐1R is necessary for optimal repair of UVB‐induced DNA damage in keratinocytes.Novel separation technique allows study specifically in basal layer keratinocytes.IGF‐1R activation enhances the expression of nucleotide excision repair genes

Chemotherapeutic agents subvert tumor immunity by generating agonists of platelet-activating factor

Oxidative stress suppresses host immunity by generating oxidized lipid agonists of the platelet-activating factor receptor (PAF-R). Because many classical chemotherapeutic drugs induce reactive oxygen species (ROS), we investigated whether these drugs might subvert host immunity by activating PAF-R. Here, we show that PAF-R agonists are produced in melanoma cells by chemotherapy that is administered in vitro, in vivo, or in human subjects. Structural characterization of the PAF-R agonists induced revealed multiple oxidized glycerophosphocholines that are generated nonenzymatically. In a murine model of melanoma, chemotherapeutic administration could augment tumor growth by a PAF-R-dependent process that could be blocked by treatment with antioxidants or COX-2 inhibitors or by depletion of regulatory T cells. Our findings reveal how PAF-R agonists induced by chemotherapy treatment can promote treatment failure. Furthermore, they offer new insights into how to improve the efficacy of chemotherapy by blocking its heretofore unknown impact on PAF-R activation

p38γ MAPK Cooperates with c-Jun in trans-Activating Matrix Metalloproteinase 9*

Mitogen-activated protein kinases (MAPKs) regulate gene expression through transcription factors. However, the precise mechanisms in this critical signal event are largely unknown. Here, we show that the transcription factor c-Jun is activated by p38γ MAPK, and the activated c-Jun then recruits p38γ as a cofactor into the matrix metalloproteinase 9 (MMP9) promoter to induce its trans-activation and cell invasion. This signaling event was initiated by hyperexpressed p38γ that led to increased c-Jun synthesis, MMP9 transcription, and MMP9-dependent invasion through p38γ interacting with c-Jun. p38γ requires phosphorylation and its C terminus to bind c-Jun, whereas both c-Jun and p38γ are required for the trans-activation of MMP9. The active p38γ/c-Jun/MMP9 pathway also exists in human colon cancer, and there is a coupling of increased p38γ and MMP9 expression in the primary tissues. These results reveal a new paradigm in which a MAPK acts both as an activator and a cofactor of a transcription factor to regulate gene expression leading to an invasive response

Randomized controlled trial of fractionated laser resurfacing on aged skin as prophylaxis against actinic neoplasia

BACKGROUND: The loss of insulin-like growth factor 1 (IGF-1) expression in senescent dermal fibroblasts during aging is associated with an increased risk of nonmelanoma skin cancer (NMSC). We tested how IGF-1 signaling can influence photocarcinogenesis during chronic UVB exposure to determine if fractionated laser resurfacing (FLR) of aged skin, which upregulates dermal IGF-1 levels, can prevent the occurrence of actinic keratosis (AK) and NMSC. METHODS: A human skin/immunodeficient mouse xenografting model was used to test the effects of a small molecule inhibitor of the IGF-1 receptor on chronic UVB radiation. Subsequently, the durability of FLR treatment was tested on a cohort of human participants aged 65 years and older. Finally, 48 individuals aged 60 years and older with considerable actinic damage were enrolled in a prospective randomized clinical trial in which they underwent a single unilateral FLR treatment of one lower arm. Numbers of AKs/NMSCs were recorded on both extremities for up to 36 months in blinded fashion. RESULTS: Xenografting studies revealed that chronic UVB treatment with a topical IGF-1R inhibitor resulted in a procarcinogenic response. A single FLR treatment was durable in restoring appropriate UVB response in geriatric skin for at least 2 years. FLR resulted in sustained reduction in numbers of AKs and decreased numbers of NMSCs in the treated arm (2 NMSCs) versus the untreated arm (24 NMSCs). CONCLUSION: The elimination of senescent fibroblasts via FLR reduced the procarcinogenic UVB response of aged skin. Thus, wounding therapies are a potentially effective prophylaxis for managing high-risk populations