Partial Reprogramming as a Method for Regenerating Neural Tissues in Aged Organisms.

IF 1.2 4区 医学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Ali Saber Sichani, Somayeh Khoddam, Shayan Shakeri, Zahra Tavakkoli, Arad Ranji Jafroodi, Reza Dabbaghipour, Mohsen Sisakht, Jafar Fallahi
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Abstract

Aging causes numerous age-related diseases, leading the human species to death. Nevertheless, rejuvenating strategies based on cell epigenetic modifications are a possible approach to counteract disease progression while getting old. Cell reprogramming of adult somatic cells toward pluripotency ought to be a promising tool for age-related diseases. However, researchers do not have control over this process as cells lose their fate, and cause potential cancerous cells or unexpected cell phenotypes. Direct and partial reprogramming were introduced in recent years with distinctive applications. Although direct reprogramming makes cells lose their identity, it has various applications in regeneration medicine. Temporary and regulated in vivo overexpression of Yamanaka factors has been shown in several experimental contexts to be achievable and is used to rejuvenate mice models. This regeneration can be accomplished by altering the epigenetic adult cell signature to the signature of a younger cell. The greatest advantage of partial reprogramming is that this method does not allow cells to lose their identity when they are resetting their epigenetic clock. It is a regimen of short-term Oct3/4, Sox2, Klf4, and c-Myc expression in vivo that prevents full reprogramming to the pluripotent state and avoids both tumorigenesis and the presence of unwanted undifferentiated cells. We know that many neurological age-related diseases, such as Alzheimer's disease, stroke, dementia, and Parkinson's disease, are the main cause of death in the last decades of life. Therefore, scientists have a special tendency regarding neuroregeneration methods to increase human life expectancy.

部分重编程作为老化生物体神经组织再生的一种方法
衰老会引发许多与年龄有关的疾病,导致人类死亡。然而,基于细胞表观遗传修饰的返老还童策略是对抗衰老过程中疾病进展的一种可行方法。对成年体细胞进行细胞重编程,使其具有多能性,这应该是治疗老年相关疾病的一种很有前景的工具。然而,研究人员无法控制这一过程,因为细胞会失去其命运,导致潜在的癌细胞或意想不到的细胞表型。近年来,直接重编程和部分重编程相继问世,并得到了不同的应用。虽然直接重编程会使细胞失去其特性,但它在再生医学中却有多种应用。在一些实验环境中,山中因子的临时和调节性体内过表达已被证明是可以实现的,并被用于小鼠模型的再生。这种再生可通过改变成体细胞的表观遗传学特征,使之成为年轻细胞的特征来实现。部分重编程的最大优势在于,这种方法不会让细胞在重置表观遗传时钟时失去自己的身份。这是一种在体内短期表达 Oct3/4、Sox2、Klf4 和 c-Myc 的方案,可防止完全重编程为多能状态,避免肿瘤发生和出现不需要的未分化细胞。我们知道,许多与神经系统有关的老年疾病,如阿尔茨海默病、中风、痴呆症和帕金森病,是人在生命最后几十年死亡的主要原因。因此,科学家们特别倾向于采用神经再生方法来延长人类的寿命。
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来源期刊
Cellular reprogramming
Cellular reprogramming CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
CiteScore
2.50
自引率
6.20%
发文量
37
审稿时长
3 months
期刊介绍: Cellular Reprogramming is the premier journal dedicated to providing new insights on the etiology, development, and potential treatment of various diseases through reprogramming cellular mechanisms. The Journal delivers information on cutting-edge techniques and the latest high-quality research and discoveries that are transforming biomedical research. Cellular Reprogramming coverage includes: Somatic cell nuclear transfer and reprogramming in early embryos Embryonic stem cells Nuclear transfer stem cells (stem cells derived from nuclear transfer embryos) Generation of induced pluripotent stem (iPS) cells and/or potential for cell-based therapies Epigenetics Adult stem cells and pluripotency.
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