购买进口仪器、试剂和耗材——就在始于2001年的毕特博生物 www.bitebo.com |
一项8月15日发表的美国研究表明,咖啡通过杀死可能转化为肿瘤的受损细胞,有助降低罹患皮肤癌风险。 这项研究显示,适量饮用咖啡甚至只将咖啡应用于皮肤,可能对避免患上非黑素瘤有助。 研究人员利用一种受到遗传性转变、抑制ATP蛋白的老鼠做实验,他们发现,这种老鼠即使曝露于紫外线,也能抵御患癌症。 先前研究提出,每天饮用一杯含咖啡因咖啡,可以启动抑制ATP蛋白的效果,继而触发受紫外线照射而受损的细胞死亡。 接受实验的老鼠最终都患上癌症,但比普通老鼠晚3个星期。经过19个星期照射紫外线后,受转变老鼠产生肿瘤比例比对比组低69%,患侵入性肿瘤比例低4倍。 不过,这种抵御性效果有限。经过34个星期照射紫外线,所有老鼠都产生肿瘤。研究报告作者之一阿伦·科菲告诉法新社记者:“最终,如果你处理(照射)他们足够时间,老鼠都会患癌症,所以这不是100%的防御。实际上,使用任何致癌物质处理,所有动物最终都会患癌症。” 科菲和他的研究小组已经证实最初的假设,饮用或在皮肤上应用咖啡,可以起到抑制ATP蛋白作用。他们说,需要更多研究,看看是否对人类有效。 皮肤癌是美国最常见的一种癌症,根据美国国家癌症研究所数据,美国每年新增100万个皮肤癌病例。非黑素瘤是最常诊断出的皮肤癌,如果发现及时,通常可以治愈。 Protection from UV-induced skin carcinogenesis by genetic inhibition of the ataxia telangiectasia and Rad3-related (ATR) kinase Kawasumi, Masaoki; Lemos, Bianca; Bradner, James E.; Thibodeau, Renee; Kim, Yong-son; Schmidt, Miranda; Higgins, Erin; Koo, Sang-wahn; Angle-Zahn, Aimee; Chen, Adam; Levine, Douglas; Nguyen, Lynh; Heffernan, Timothy P.; Longo, Isabel; Mandinova, Anna; Lu, Yao-Ping; Conney, Allan H.; Nghiem, Paul Multiple human epidemiologic studies link caffeinated (but not decaffeinated) beverage intake with significant decreases inseveral types of cancer, including highly prevalent UV-associated skin carcinomas. The mechanism by which caffeine protectsagainst skin cancer is unknown. Ataxia telangiectasia and Rad3-related (ATR) is a replication checkpoint kinase activatedby DNA stresses and is one of several targets of caffeine. Suppression of ATR, or its downstream target checkpoint kinase1 (Chk1), selectively sensitizes DNA-damaged and malignant cells to apoptosis. Agents that target this pathway are currentlyin clinical trials. Conversely, inhibition of other DNA damage response pathways, such as ataxia telangiectasia mutated (ATM)and BRCA1, promotes cancer. To determine the effect of replication checkpoint inhibition on carcinogenesis, we generated transgenicmice with diminished ATR function in skin and crossed them into a UV-sensitive background, Xpc?/?. Unlike caffeine, this genetic approach was selective and had no effect on ATM activation. These transgenic mice were viableand showed no histological abnormalities in skin. Primary keratinocytes from these mice had diminished UV-induced Chk1 phosphorylationand twofold augmentation of apoptosis after UV exposure (P = 0.006). With chronic UV treatment, transgenic mice remained tumor-free for significantly longer (P = 0.003) and had 69% fewer tumors at the end of observation of the full cohort (P = 0.019), compared with littermate controls with the same genetic background. This study suggests that inhibition of replicationcheckpoint function can suppress skin carcinogenesis and supports ATR inhibition as the relevant mechanism for the protectiveeffect of caffeinated beverage intake in human epidemiologic studies. |
购买进口仪器、试剂和耗材——就在始于2001年的毕特博生物
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