(二)基因的转运
目前已有多种基因转运的方式,其基本原则是将外源基因运到细胞内。已使用的有病毒载体和非病毒载体两大类。
病毒载体:病毒具有一些独特的性质如多数病毒可感染特异的细胞,在细胞内不易降解;RNA病毒能整合到染色体以及基因水平较高等。因此病毒载体是良好的基因转运载体。目前已被用作载体的病毒有逆转录病毒、腺病毒、腺相关的病毒。疱疹病毒和肝炎病毒等。逆转录病毒用作载体时需进行几步改造:(1)将天然的野生型RNA前病毒转变成DNA载体,并插入欲转移的相关外源基因。其基本原则是用标记基因和外源基因替代病毒的编码基因,如图23-2所示。(2)制备辅助细胞为载体DNA提供其丧失的功能,如图23-3所示。(3)将载体DNA导入辅助以产生病毒载体。如图23-4。(4)病毒载体感染靶细胞,外源基因在细胞内得以表达,如图23-5所示。
STEP 1
INSERTING FOREIGN DNA INTO THE RETROVIRAL PROVIRUS
Wild-Type Provirus
图23-2 Scientists use recombinant DNA techniques to replace the gag,pol,and env genes with one or more foreign genes.The foreign genes can be inserted in several different patterns.in this example,a selectable marker gene(neo)replaces the viral gag and pol genes and a human gene replaces the env gene.
STEP 2
MAKING THE HELPER CELL
Desiging the Helper Vius
图 23-3 The helper cell should meet two basic requirements:(1)it should provide functions missing from the the vector virus,and(2)it should not be capable of producing viable virus particles. The crucial element in the development of a successful helper cell is the design of the helper virus.Researchers use recombinant DNA techniques to disable the helper virus in the test tube-one of the most common measures is removal of the Psi fragment.The Psi-deficient helper virus produces all of the normal viral proteins, but cannot package its own RNA because it lacks the appropriate packaging signal. Helper virus DNA is inserted into the genome of the helper cell using chemical techniques.
STEP 3
PRODUCING THE VECTOR
图23-4 Scientists use chemical measures or an infection technique to insert recombinant vector DNA (including a human gene) into helper cells.Because the vector provirus contains the Psi sequence, the vector RNA genome is automatically encapsulated by viral proteins produced by helper virus DNA in the helper cell. The resulting viral particles are released by budding from the helper cell membrane. The vector virus is capable of only one infection because it lacks the information needed to make viral proteins.
STEP 4
INFECTING THE TARGET ELL
图23-5 Researchers infect target cells (such as human bone marrow cells)with the vector virus in two different ways: they mix them with helper cells producing the virus, or they bathe them in fluid harvested from the helper cell culture.When the vector provirus is integrated into the target cell DNA ,enzymes from the target cell treat it as an integral part of the genome. Cellular enzymes do the work necessary to make proteins from the foreign genes located between the two viral L TRs.
非病毒载体:这类载体的发展较快,目前主要是脂质体,一些具有受体功能的载体也呈现出诱人的前景,关于常见载体的优缺点列于表2。
表23-2 常见基因转运载体的优缺点
| 载体 | 优点 | 缺点 |
| 逆转录病素毒 | 基因组小并且简单
可稳定整合于宿主基因组 生物学特性清楚 可高效转入复制中的细胞 对宿主细胞无害 |
仅感染分裂细胞
随机整合(可能导致突变) 常常只有短暂表达 病毒滴度低(107pfu/ml) 可能会与有复制能务的病毒重组插入容量有限(10kb) |
| 腺相关病毒 | 基因组小(5kb)
可特异整合于人19号染色体 以人细胞作为宿主 无毒、无致病性 |
尚未研究清楚
需腺病毒辅助复制 携带外源基因能力有限(4kb) 难得到高滴度病毒 |
| 腺病毒 | 适于原位使用,尤其是肺
(在不分裂细胞中可进行高效率的体内感染) 病毒滴度高(1010pfu/ml) 生物学特性清楚 |
不与宿主基因组整合(只有短暂表达)
载本基因组复杂 病毒蛋白可能引起免疫反应及炎症反应 插入外源基因能力有限(7-8kb) |
| 脂质体 | 无感染能力
理论上无DNA大小限制 毒性低 |
无特异性靶细胞
转染效率低 仅有短暂表达 体内应用困难 |
| 受体介导的转运 | 无感染能力
特异性转染靶细胞 理论上无DNA大小限制 构建灵活 |
转染效率低
体内应用困难 可能有免疫原性 只有短暂表达 |
