Xiong Weidong, Candolfi Marianela, Kroeger Kurt M, Puntel Mariana, Mondkar Sonali, Larocque Daniel, Liu Chunyan, Curtin James F, Palmer Donna, Ng Philip, Lowenstein Pedro R, Castro Maria G
Board of Governors Gene Therapeutics Research Institute, Cedars-Sinai Medical Center, Los Angeles, California 90048, USA.
Mol Ther. 2008 Feb;16(2):343-51. doi: 10.1038/sj.mt.6300375. Epub 2008 Jan 8.
Immune responses against vectors or encoded transgenes can impose limitations on gene therapy. We demonstrated that tetracycline-regulated high-capacity adenoviral vectors (HC-Ads) sustain regulated transgene expression in the brain even in the presence of systemic pre-existing immune responses against adenoviruses. In this study we assessed whether systemic pre-existing immune responses against the transgene products, i.e., beta-Gal or the tetracycline-dependent (TetON) regulatory transcription factors (rtTA2(S)M2 and the tTS(Kid)), affect transgene expression levels and the safety profile of HC-Ads in the brain. We pre-immunized mice with plasmids encoding the TetON switch expressing rtTA2(S)M2 and the tTS(Kid) or beta-Gal. HC-Ads expressing beta-Gal under the control of the TetON switch were then injected into the striatum. We assessed levels and distribution of beta-Gal expression, and evaluated local inflammation and neuropathological changes. We found that systemic immunity against beta-Gal, but not against the TetON switch, led to inflammation and reduction of transgene expression in the striatum. Therefore, the regulatory TetON switch appears to be safe to use, and capable of sustaining transgene expression in the brain even in the presence of an immune response against its components. Systemic immunity against the transgene had the effect of curtailing its expression, thereby affecting the efficacy and safety of gene delivery to the brain. This factor should be considered when developing gene therapies for neurological use.
针对载体或编码转基因的免疫反应可能会给基因治疗带来限制。我们证明,即使存在针对腺病毒的全身性预先存在的免疫反应,四环素调控的高容量腺病毒载体(HC-Ads)仍能在大脑中维持转基因的调控表达。在本研究中,我们评估了针对转基因产物(即β-半乳糖苷酶或四环素依赖性(TetON)调控转录因子(rtTA2(S)M2和tTS(Kid)))的全身性预先存在的免疫反应是否会影响转基因表达水平以及HC-Ads在大脑中的安全性。我们用编码表达rtTA2(S)M2和tTS(Kid)或β-半乳糖苷酶的TetON开关的质粒对小鼠进行预免疫。然后将在TetON开关控制下表达β-半乳糖苷酶的HC-Ads注射到纹状体中。我们评估了β-半乳糖苷酶表达的水平和分布,并评估了局部炎症和神经病理变化。我们发现,针对β-半乳糖苷酶而非针对TetON开关的全身性免疫会导致纹状体中的炎症和转基因表达降低。因此,调控性TetON开关似乎使用安全,并且即使在存在针对其成分的免疫反应的情况下也能够在大脑中维持转基因表达。针对转基因的全身性免疫具有抑制其表达的作用,从而影响向大脑进行基因递送的疗效和安全性。在开发用于神经学用途的基因疗法时应考虑这一因素。