Pires Ferreira Debora, Gruntman Alisha M, Flotte Terence R
Department of Pediatrics, University of Massachusetts Chan Medical School, Worcester, MA, United States.
Expert Opin Biol Ther. 2023 Mar;23(3):283-291. doi: 10.1080/14712598.2023.2183771. Epub 2023 Mar 2.
Altering the human genetic code has been explored since the early 1990s as a definitive answer for the treatment of monogenic and acquired diseases which do not respond to conventional therapies. In Alpha-1 antitrypsin deficiency (AATD) the proper synthesis and secretion of alpha-1 antitrypsin (AAT) protein is impaired, leading to its toxic hepatic accumulation along with its pulmonary insufficiency, which is associated with parenchymal proteolytic destruction. Because AATD is caused by mutations in a single gene whose correction alone would normalize the mutant phenotype, it has become a popular target for both augmentation gene therapy and gene editing. Although gene therapy products are already a reality for the treatment of some pathologies, such as inherited retinal dystrophy and spinal muscular atrophy, AATD-related pulmonary and, especially, liver diseases still lack effective therapeutic options.
Here, we review the course, challenges, and achievements of AATD gene therapy as well as update on new strategies being developed.
Reaching safe and clinically effective expression of the AAT is currently the greatest challenge for AATD gene therapy. The improvement and emergence of technologies that use gene introduction, silencing and correction hold promise for the treatment of AATD.
自20世纪90年代初以来,人们一直在探索改变人类遗传密码,将其作为治疗对传统疗法无反应的单基因疾病和后天性疾病的最终解决方案。在α-1抗胰蛋白酶缺乏症(AATD)中,α-1抗胰蛋白酶(AAT)蛋白的正常合成和分泌受到损害,导致其在肝脏中有毒性蓄积,并伴有肺功能不全,这与实质蛋白水解破坏有关。由于AATD是由单个基因突变引起的,仅纠正该突变就可使突变表型正常化,因此它已成为增强基因治疗和基因编辑的热门靶点。尽管基因治疗产品已成为治疗某些疾病(如遗传性视网膜营养不良和脊髓性肌萎缩症)的现实手段,但与AATD相关的肺部疾病,尤其是肝脏疾病仍缺乏有效的治疗选择。
在此,我们回顾了AATD基因治疗的历程、挑战和成就,以及正在开发的新策略的最新情况。
目前,实现AAT的安全且临床有效的表达是AATD基因治疗面临的最大挑战。使用基因导入、沉默和纠正技术的改进和出现为AATD的治疗带来了希望。
