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Target Concepts:
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Query: EC:2.7.12.2 (
MEK
)
18,161
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Photodynamic therapy (PDT), using the porphyrin photosensitizer
Photofrin
(PH), is approved for the clinical treatment of solid tumors. In addition to the direct cytotoxic responses of PH-PDT-mediated oxidative stress, this procedure also induces expression of angiogenic and prosurvival molecules including cyclooxygenase-2 (COX-2). In vivo treatment efficacy is improved when PH-PDT is combined with inhibitors of COX-2. In the current study we evaluated the signaling pathways involved with PH-PDT-mediated COX-2 expression in a mouse fibrosarcoma cell line. COX-2 promoter reporter constructs with mutated transcription elements documented that the nuclear factor kappa B (NFkappaB) element, cyclic-AMP response element 2 (CRE-2), CCAAT/enhancer binding protein (C/EBP) element and activator binding protein-1 (AP-1) element were responsive to PH-PDT. Transcription factor binding assays demonstrated that nuclear protein binding to NFkappaB, CRE-2, c-fos and c-jun elements were elevated following PH-PDT. Kinase phosphorylation upstream of COX-2 expression was also examined following PH-PDT. Stress-activated protein kinase/c-Jun N-terminal kinase (SAPK/JNK) and c-Jun were phosphorylated following PH-PDT but the SAPK/JNK inhibitor SP600125 failed to attenuate COX-2 expression. In contrast, p38 mitogen-activated protein kinase (MAPK), which activates CRE-2 binding, was phosphorylated following PH-PDT and inhibitors of p38 MAPK, SB203580 and SB202190, decreased PH-PDT-induced COX-2 expression at both the mRNA and protein levels. Extracellular signal-regulated kinase (ERK1/2) phosphorylation, which also increases CRE-2 binding activity, was initially high in untreated cells, decreased immediately following PH-PDT and then rapidly increased.
MEK1
/2 is immediately upstream of ERK1/2 and the
MEK1
inhibitor PD98059 failed to attenuate COX-2 expression while the
MEK1
/2 inhibitor U0126 induced a slight decrease in COX-2 expression. The NFkappaB inhibitor SN50 failed to reduce COX-2 expression. These results demonstrate that multiple protein kinase cascades can be activated by oxidative stress and that the p38 MAPK signaling pathway and CRE-2 binding are involved in COX-2 expression following PH-PDT.
...
PMID:Cyclooxygenase-2 expression induced by photofrin photodynamic therapy involves the p38 MAPK pathway. 1828 82
Reactive oxygen species (ROS) play important roles in fundamental cellular processes such as proliferation and survival. Here we investigated the effect of oxidative stress on stem cell maintenance and neuronal differentiation in a human embryonic stem cell (hESC) model, Ntera2 (NT2). CM-H2DCFDA and
DHE
assays confirmed that the oxidizing agent paraquat could induce a high level of ROS in NT2 cells. Quantitative PCR, Western blotting and immunocytochemistry showed that paraquat-induced oxidative stress suppressed the expression of stemness markers, including NANOG, OCT4 and TDGF1, whereas it enhanced the spontaneous expression of neuronal differentiation markers such as PAX6, NEUROD1, HOXA1, NCAM, GFRA1 and TUJ1. The treated cells even exhibited a strikingly different morphology from control cells, extending out long neurite-like processes. The neurogenic effect of ROS on stem cell behaviour was confirmed by the observations that the expression of neuronal markers in the paraquat-treated cells was suppressed by an antioxidant while further enhanced by knocking down Nrf2, a key transcription factor associated with antioxidant signaling. Lastly, paraquat dose-dependently activated the neurogenic MAPK-ERK1/2, which can be reversed by the
MEK1
/2 inhibitor SL327. Our study suggests that excessive intracellular ROS can trigger the exit from stem cell state and promote the neuronal differentiation of hESCs, and that MAPK-ERK1/2 signaling may play a proactive role in the ROS-induced neuronal differentiation of hESCs.
...
PMID:Oxidative stress promotes exit from the stem cell state and spontaneous neuronal differentiation. 2942 17
