Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) induces apoptosis in many cancer cells but not in normal ones. Recombinant TRAIL and agonistic antibodies to its cognate receptors are currently being studied as promising anticancer drugs. However, preclinical and clinical studies have shown that many types of human cancers are resistant to TRAIL agonists. We previously reported that a deficiency of fucosylation, which is one of the most common oligosaccharide modifications, leads to resistance to TRAIL-induced apoptosis. In contrast, DNA methylation is associated with silencing of various tumor suppressor genes and resistance of cancer cells to anticancer drugs. The aim of this study is to clarify the involvement of DNA methylation in the regulation of cellular fucosylation and the susceptibility to TRAIL-induced apoptosis. When nineteen cancer cell lines with relatively low fucosylation levels were treated with a novel methyltransferase inhibitor, zebularine, an increase in the fucosylation level was observed in many cancer cell lines. The expression of fucosylation-related genes, such as the FX, GDP-fucose transporter, and Fut4 genes, was significantly increased after the treatment with zebularine. Moreover, a synergistic effect of zebularine on TRAIL-induced apoptosis was observed in several cancer cell lines, in which fucosylation was increased by treatment with zebularine. This synergistic effect was independent of the expression of TRAIL receptors and caspase-8. These results indicate that cellular fucosylation is regulated through DNA methylation in many cancer cells. Moreover, zebularine might be useful as a combination drug with TRAIL-based therapies in patients with TRAIL-resistant cancer.
Background:
Both contact force monitoring (CFM) and unipolar signal modification (USM) are guides for ablation, which improve the efficacy of pulmonary vein isolation of atrial fibrillation. We sought to compare the outcomes of atrial fibrillation ablation guided by CFM or USM.
Methods:
A total of 136 patients with paroxysmal atrial fibrillation underwent a circumferential pulmonary vein isolation using CF sensing ablation catheters and were randomly assigned to undergo catheter ablation guided by either CFM (CFM-guided group: n=70) or USM (USM-guided group: n=66). In the USM-guided group, each radiofrequency application lasted until the development of completely positive unipolar electrograms. In the CFM-guided group, a CF of 20 g (range, 10–30 g) and minimum force-time integral of 400 g were the targets for each radiofrequency application. The primary end point was freedom from any atrial tachyarrhythmia recurrence without antiarrhythmic drugs at 12-months of follow-up.
Results:
The cumulative freedom from recurrences at 12-months was 85% in the USM-guided group and 70% in the CFM-guided group (
P
=0.031). The incidence of time-dependent and ATP-provoked early electrical reconnections between the left atrium and PVs, procedural time, fluoroscopic time, and average force-time integral, did not significantly differ between the 2 groups. The radiofrequency time for the pulmonary vein isolation was shorter in the USM-guided group than CFM-guided group but was not statistically significant (
P
=0.077).
Conclusions:
USM was superior to CFM as an end point for radiofrequency energy deliveries during the pulmonary vein isolation in patients with paroxysmal atrial fibrillation in terms of the 12-month recurrence-free rate.
Clinical Trial Registration:
URL:
https://www.umin.ac.jp/ctr/index.htm
. Unique identifier: UMIN000021127.
Fucosylation is a crucial oligosaccharide modification in cancer. The known function of fucosylation in cancer is to mediate metastasis through selectin ligand-dependent processes. Previously, we found complete loss of fucosylation in the colon cancer cell line HCT116 due to a mutation in the GDP-fucose synthetic enzyme, GDP-mannose-4,6-dehydratase (GMDS). Loss of fucosylation led to escape of cancer cells from tumor immune surveillance followed by tumor progression and metastasis, suggesting a novel function of fucosylation in tumor progression pathway. In the present study, we investigated the frequency of GMDS mutation in a number of clinical colorectal cancer tissue samples: 81 samples of primary colorectal cancer tissue and 39 samples of metastatic lesion including liver and lymph node. Four types of deletion mutation in GMDS were identified in original cancer tissues as well as metastatic lesions. The frequency of GMDS mutation was slightly higher in metastatic lesions (12.8%, 5/39 samples) than in original cancer tissues (8.6%, 7/81 samples). No mutation of the GMDS gene was observed in normal colon tissues surrounding cancer tissues, suggesting that the mutation is somatic rather than in the germline. Immunohistochemical analysis revealed complete loss of fucosylation in three cases of cancer tissue. All three cases had GMDS mutation. In one of three cases, loss of fucosylation was observed in only metastatic lesion, but not its original colon cancer tissue. These data demonstrate involvement of GMDS mutation in the progression of colorectal cancer.
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