Evaluation of Aav Capsids and Delivery Approaches for Hereditary Hemorrhagic Telangiectasia Gene Therapy.

Alka Yadav, Rich Liang, Kelly Press, Annika Schmidt, Zahra Shabani, Kun Leng, Calvin Wang, Abinav Sekhar, Joshua Shi, Garth W Devlin, Trevor J Gonzalez, Aravind Asokan, Hua Su
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Abstract

Nosebleeds and intracranial hemorrhage from brain arteriovenous malformations (bAVMs) are among the most devastating symptoms of patients with hereditary hemorrhagic telangiectasis (HHT). All available managements have limitations. We showed that intravenous delivery of soluble FMS-related tyrosine kinase 1 using an adeno-associated viral vector (AAV9-sFLT1) reduced bAVM severity of endoglin deficient mice. However, minor liver inflammation and growth arrest in young mice were observed. To identify AAV variants and delivery methods that can best transduce brain and nasal tissue with an optimal transduction profile, we compared 3 engineered AAV capsids (AAV.cc47, AAV.cc84 and AAV1RX) with AAV9. A single-stranded CBA promoter driven tdTomato transgene was packaged in these capsids and delivered intravenously (i.v.) or intranasally (i.n.) to wild-type mice. A CMV promoter driven Alk1 transgene was packaged into AAV.cc84 and delivered to PdgfbiCre;Alk1 f/f mice through i.v. injection followed by brain AVM induction. Transduced cells in different organs, vessel density and abnormal vessels in the bAVMs, and liver inflammation were analyzed histologically. Liver and kidney function were measured enzymatically. Compared to other viral vectors, AAV.cc84, after i.v. delivery, transduced a high percentage of brain ECs and few hepatocytes; whereas after i.n. delivery, AAV.cc84 transduced ECs and perivascular cells in the brain, and ECs, epithelial cells, and skeletal muscles in the nose with minimum hepatocyte transduction. No changes to liver or kidney function were detected. Delivery of AAV.cc84-Alk1 through i.v. to PdgfbiCre;Alk1 f/f mice reduced bAVM severity. In summary, we propose that AAV.cc84-Alk1 is a promising candidate for developing gene therapy in HHT patients.

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评估用于遗传性出血性远端血管扩张症基因治疗的 Aav 胶囊和输送方法。
脑动静脉畸形(bAVM)引起的鼻出血和颅内出血是遗传性出血性毛细血管扩张症(HHT)患者最严重的症状之一。所有现有的治疗方法都存在局限性。我们的研究表明,使用腺相关病毒载体(AAV9-sFLT1)静脉注射可溶性FMS相关酪氨酸激酶1可降低内胚叶蛋白缺乏小鼠的bAVM严重程度。然而,在幼鼠中观察到轻微的肝脏炎症和生长停滞。为了确定能以最佳转导特征转导脑和鼻腔组织的 AAV 变体和递送方法,我们比较了 3 种工程 AAV 外壳(AAV.cc47、AAV.cc84 和 AAV1RX)和 AAV9。我们将单链 CBA 启动子驱动的tdTomato 转基因包装在这些载体中,并通过静脉注射(i.v.)或鼻内注射(i.n.)给野生型小鼠。将 CMV 启动子驱动的 Alk1 转基因包装到 AAV.cc84 中,通过静脉注射输送给 PdgfbiCre; Alk1 f/f 小鼠,然后诱导脑动静脉畸形。对不同器官中的转导细胞、血管瘤中的血管密度和异常血管以及肝脏炎症进行组织学分析。对肝脏和肾脏功能进行了酶学测定。与其他病毒载体相比,AAV.cc84在静脉注射后转导了高比例的脑EC和少量肝细胞;而在静注后,AAV.cc84在脑中转导了EC和血管周围细胞,在鼻中转导了EC、上皮细胞和骨骼肌,转导的肝细胞最少。未发现肝脏或肾脏功能发生变化。通过静脉注射 AAV.cc84-Alk1 给 PdgfbiCre; Alk1 f/f 小鼠可减轻 bAVM 的严重程度。总之,我们认为 AAV.cc84-Alk1 是开发 HHT 患者基因疗法的理想候选药物。
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