用于镰状细胞贫血研究与治疗的诱导多能干细胞。

Induced Pluripotent Stem Cell for the Study and Treatment of Sickle Cell Anemia.

作者信息

Junqueira Reis Luiza Cunha, Picanço-Castro Virgínia, Paes Bárbara Cristina Martins Fernandes, Pereira Olívia Ambrozini, Gerdes Gyuricza Isabela, de Araújo Fabiano Tófoli, Morato-Marques Mariana, Moreira Lílian Figueiredo, Costa Everton de Brito Oliveira, Dos Santos Tálita Pollyanna Moreira, Covas Dimas Tadeu, Pereira Carramaschi Lygia da Veiga, Russo Elisa Maria de Sousa

机构信息

Pharmaceutical Sciences School of Ribeirão Preto, University of São Paulo, Ribeirão Preto, SP, Brazil.

Blood Center Foundation of Ribeirão Preto, University of São Paulo, Ribeirão Preto, SP, Brazil.

出版信息

Stem Cells Int. 2017;2017:7492914. doi: 10.1155/2017/7492914. Epub 2017 Jul 26.

DOI:10.1155/2017/7492914

PMID:28814957

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5549510/

Abstract

Sickle cell anemia (SCA) is a monogenic disease of high mortality, affecting millions of people worldwide. There is no broad, effective, and safe definitive treatment for SCA, so the palliative treatments are the most used. The establishment of an in vitro model allows better understanding of how the disease occurs, besides allowing the development of more effective tests and treatments. In this context, iPSC technology is a powerful tool for basic research and disease modeling, and a promise for finding and screening more effective and safe drugs, besides the possibility of use in regenerative medicine. This work obtained a model for study and treatment of SCA using iPSC. Then, episomal vectors were used for reprogramming peripheral blood mononuclear cells to obtain integration-free iPSC. Cells were collected from patients treated with hydroxyurea and without treatment. The iPSCP Bscd lines were characterized for pluripotent and differentiation potential. The iPSC lines were differentiated into HSC, so that we obtained a dynamic and efficient protocol of CD34+CD45+ cells production. We offer a valuable tool for a better understanding of how SCA occurs, in addition to making possible the development of more effective drugs and treatments and providing better understanding of widely used treatments, such as hydroxyurea.

摘要

镰状细胞贫血（SCA）是一种高致死率的单基因疾病，影响着全球数百万人。目前尚无针对SCA的广泛、有效且安全的确定性治疗方法，因此姑息治疗是最常用的。建立体外模型不仅有助于更好地理解疾病的发生机制，还能促进更有效测试和治疗方法的开发。在此背景下，诱导多能干细胞（iPSC）技术是基础研究和疾病建模的有力工具，有望发现和筛选更有效、安全的药物，此外还可用于再生医学。本研究利用iPSC获得了一个用于SCA研究和治疗的模型。然后，使用游离型载体将外周血单个核细胞重编程以获得无整合的iPSC。细胞取自接受羟基脲治疗和未接受治疗的患者。对iPSCP Bscd系的多能性和分化潜能进行了表征。将iPSC系分化为造血干细胞（HSC），从而获得了一个动态且高效的CD34+CD45+细胞生产方案。我们提供了一个有价值的工具，有助于更好地理解SCA的发病机制，此外还能推动更有效药物和治疗方法的开发，并增进对羟基脲等广泛使用的治疗方法的理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/55e1/5549510/d980f99c6939/SCI2017-7492914.001.jpg

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用于镰状细胞贫血研究与治疗的诱导多能干细胞。

Induced Pluripotent Stem Cell for the Study and Treatment of Sickle Cell Anemia.

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