癌症端粒长度维持机制

Ekta Khattar
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引用次数: 0

摘要

由TTAGGG六核苷酸重复序列组成。在体细胞中,端粒在每次细胞分裂时缩短,最终导致DNA损伤反应的激活,随后导致衰老或细胞死亡。然而,癌细胞激活端粒长度维持机制(TMM)来克服端粒损耗并实现复制不朽,因此这是癌症的主要标志之一。癌细胞通过两种主要途径来维持端粒。第一种是端粒延长酶(端粒酶)的激活,第二种是端粒的选择性延长(ALT)。此外,端粒由一种称为庇护蛋白的末端保护复合体结合,它在调节端粒长度维持方面起着重要作用。因此,TMM和端粒结构和功能调控途径代表了抗癌治疗发展的一个有吸引力的目标。
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Telomere length maintenance mechanisms in cancer
chromosomes and are composed of TTAGGG hexanucleotide repeats. In somatic cells, telomeres shorten upon each cell division ultimately resulting in activation of DNA damage response followed by senescence or cell death. However, cancer cells activate telomere length maintenance mechanisms (TMM) to overcome telomere attrition and attain replicative immortality which therefore represents one of the principle hallmarks of cancer. Two major pathways are employed by cancer cells to maintain telomeres. First is activation of telomere elongating enzyme called telomerase and second is alternative lengthening of telomeres (ALT). In addition, telomeres are bound by an end protection complex called as shelterin which has an essential role in regulating telomere length maintenance. Thus, TMM and telomere structure and function regulatory pathways represent an attractive target for development of anticancer therapeutics.
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