Organ distribution of transgene expression following intranasal mucosal delivery of recombinant replication-defective adenovirus gene transfer vector.

Daniela Damjanovic, Xizhong Zhang, Jingyu Mu, Maria Fe Medina, Zhou Xing
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引用次数: 40

Abstract

It is believed that respiratory mucosal immunization triggers more effective immune protection than parenteral immunization against respiratory infection caused by viruses and intracellular bacteria. Such understanding has led to the successful implementation of intranasal immunization in humans with a live cold-adapted flu virus vaccine. Furthermore there has been an interest in developing effective mucosal-deliverable genetic vaccines against other infectious diseases. However, there is a concern that intranasally delivered recombinant viral-based vaccines may disseminate to the CNS via the olfactory tissue. Initial experimental evidence suggests that intranasally delivered recombinant adenoviral gene transfer vector may transport to the olfactory bulb. However, there is a lack of quantitative studies to compare the relative amounts of transgene products in the respiratory tract, lung, olfactory bulb and brain after intranasal mucosal delivery of viral gene transfer vector. To address this issue, we have used fluorescence macroscopic imaging, luciferase quantification and PCR approaches to compare the relative distribution of transgene products or adenoviral gene sequences in the respiratory tract, lung, draining lymph nodes, olfactory bulb, brain and spleen. Intranasal mucosal delivery of replication-defective recombinant adenoviral vector results in gene transfer predominantly in the respiratory system including the lung while it does lead to a moderate level of gene transfer in the olfactory bulb. However, intranasal inoculation of adenoviral vector leads to little or no viral dissemination to the major region of the CNS, the brain. These experimental findings support the efficaciousness of intranasal adenoviral-mediated gene transfer for the purpose of mucosal immunization and suggest that it may not be of significant safety concern.

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重组复制缺陷腺病毒基因转移载体经鼻黏膜传递后基因表达的器官分布。
呼吸道黏膜免疫被认为比肠外免疫更能有效地预防由病毒和细胞内细菌引起的呼吸道感染。这种认识已导致成功实施人鼻内免疫接种活的感冒适应流感病毒疫苗。此外,人们对开发可经黏膜递送的有效的预防其他传染病的遗传疫苗也很感兴趣。然而,有一种担忧是,经鼻给药的重组病毒疫苗可能通过嗅觉组织传播到中枢神经系统。初步的实验证据表明,鼻内传递的重组腺病毒基因转移载体可能运输到嗅球。然而,目前还缺乏定量研究来比较经鼻黏膜传递病毒基因转移载体后,在呼吸道、肺、嗅球和大脑中转基因产物的相对数量。为了解决这一问题,我们利用荧光宏观成像、荧光素酶定量和PCR方法比较了转基因产物或腺病毒基因序列在呼吸道、肺、引流淋巴结、嗅球、脑和脾脏中的相对分布。鼻黏膜内递送复制缺陷重组腺病毒载体导致主要在呼吸系统(包括肺)的基因转移,而在嗅球中也会导致中等水平的基因转移。然而,鼻内接种腺病毒载体导致很少或没有病毒传播到中枢神经系统的主要区域,即大脑。这些实验结果支持鼻内腺病毒介导的粘膜免疫基因转移的有效性,并提示其可能不存在重大的安全性问题。
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