将蝾螈再生作为开发新型再生疗法和抗癌疗法的模型。
Salamander regeneration as a model for developing novel regenerative and anticancer therapies.
作者信息
Fior Jonathan
机构信息
Innovative Bioresearch, Milan, Italy.
出版信息
J Cancer. 2014 Sep 20;5(8):715-9. doi: 10.7150/jca.9971. eCollection 2014.
Abstract
Among vertebrates, urodele amphibians are the only tetrapods with the ability to regenerate complex structures such as limbs, tail, and spinal cord throughout their lives. Furthermore, the salamander regeneration process has been shown to reverse tumorigenicity. Fibroblasts are essential for salamander regeneration, but the mechanisms underlying their role in the formation of a regeneration blastema remain unclear. Here, I review the role of fibroblasts in salamander limb regeneration and how their activity compares with that of human fibroblasts. In addition, the question of whether salamander blastema tissue could induce regeneration and tumor regression in animals with a limited regeneration ability is discussed. A deeper understanding of these processes may lead to the development of novel regenerative and anticancer therapies.
摘要
在脊椎动物中,有尾两栖动物是唯一能够终生再生四肢、尾巴和脊髓等复杂结构的四足动物。此外,蝾螈的再生过程已被证明可逆转肿瘤发生。成纤维细胞对蝾螈再生至关重要,但其在再生芽基形成中所起作用的潜在机制仍不清楚。在此,我综述了成纤维细胞在蝾螈肢体再生中的作用,以及它们的活性与人类成纤维细胞的活性相比情况如何。此外,还讨论了蝾螈芽基组织是否能在再生能力有限的动物中诱导再生和肿瘤消退的问题。对这些过程的更深入理解可能会促成新型再生疗法和抗癌疗法的开发。
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