The regular use of various nonsteroidal anti-inflammatory drugs (NSAIDs) was shown to decrease the incidence of colorectal cancer. This effect is thought to be caused predominantly by inhibition of cyclooxygenase-2 (COX-2) and, subsequently, prostaglandin synthesis. However, recent studies have suggested that COX-independent pathways may contribute considerably to these antiproliferative effects. To evaluate the involvement of COX-dependent and COX-independent mechanisms further, we assessed the effects of celecoxib (selective COX-2 inhibitor) and SC560 (selective COX-1 inhibitor) on cell survival, cell cycle distribution, and apoptosis in three colon cancer cell lines, which differ in their expression of COX-2. Both drugs induced a G0/G1 phase block and reduced cell survival independent of whether or not the cells expressed COX-2. Celecoxib was more potent than SC560. The G0/G1 block caused by celecoxib could be attributed to a decreased expression of cyclin A, cyclin B1, and cyclin-dependent kinase-1 and an increased expression of the cell cycle inhibitory proteins p21Waf1 and p27Kip1. In addition, celecoxib, but not SC560, induced apoptosis, which was also independent of the COX-2 expression of the cells. In vivo, celecoxib as well as SC560 reduced the proliferation of HCT-15 (COX-2 deficient) colon cancer xenografts in nude mice, but both substances had no significant effect on HT-29 tumors, which express COX-2 constitutively. Thus, our in vitro and in vivo data indicate that the antitumor effects of celecoxib probably are mediated through COX-2 independent mechanisms and are not restricted to COX-2 over-expressing tumors.
Celecoxib, a selective cyclooxygenase‐2 (COX‐2) inhibitor, has recently been approved for the symptomatic treatment of arthritis. In some clinical studies, doses of 400 and 800 mg/day provided somewhat less efficacy compared with 200 mg/day, which suggests an early ceiling effect. Using the zymosan‐induced inflammation model in rats, we show that celecoxib significantly reduces paw swelling at 50 mg/kg but completely loses its anti‐inflammatory efficacy at doses ≥100 mg/kg. To evaluate the underlying mechanisms, we used rat renal mesangial cells as a cell culture model. In these cells, celecoxib (50 μM) increased the interleukin Iβ stimulated nuclear translocation and DNA binding of NF‐κB and facilitated the degradation of I‐κB. Consequently, COX‐2 and tumor necrosis factor α (TNF‐α) expression were increased. The up‐regulation of COX‐2 and TNF‐α also occurred in the spinal cord of rats treated with celecoxib (≥100 mg/kg), indicating that in vitro mechanisms were relevant in vivo. Clinically, the overexpression of COX‐2 might be less important because celecoxib inhibits COX‐2 enzymatically. However, the up‐regulation of TNF‐α and possibly other NF‐κB regulated proinflammatory genes might worsen the pathophysiological processes underlying chronic arthritis.
Loss of plasticity‐related gene 1 (PRG‐1), which regulates synaptic phospholipid signaling, leads to hyperexcitability via increased glutamate release altering excitation/inhibition (E/I) balance in cortical networks. A recently reported SNP in prg‐1 (R345T/mutPRG‐1) affects ~5 million European and US citizens in a monoallelic variant. Our studies show that this mutation leads to a loss‐of‐PRG‐1 function at the synapse due to its inability to control lysophosphatidic acid (LPA) levels via a cellular uptake mechanism which appears to depend on proper glycosylation altered by this SNP. PRG‐1+/− mice, which are animal correlates of human PRG‐1+/mut carriers, showed an altered cortical network function and stress‐related behavioral changes indicating altered resilience against psychiatric disorders. These could be reversed by modulation of phospholipid signaling via pharmacological inhibition of the LPA‐synthesizing molecule autotaxin. In line, EEG recordings in a human population‐based cohort revealed an E/I balance shift in monoallelic mutPRG‐1 carriers and an impaired sensory gating, which is regarded as an endophenotype of stress‐related mental disorders. Intervention into bioactive lipid signaling is thus a promising strategy to interfere with glutamate‐dependent symptoms in psychiatric diseases.
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