Circumventing cellular immunity by miR142-mediated regulation sufficiently supports rAAV-delivered OVA expression without activating humoral immunity
Yuanyuan Xiao, Manish Muhuri, Shaoyong Li, Wanru Qin, Guangchao Xu, Li Luo, Jia Li, Alexander J. Letizia, Sean K. Wang, Ying Kai Chan, Chunmei Wang, Sebastian P. Fuchs, Dan Wang, Qin Su, M. Abu Nahid, George M. Church, Michael Farzan, Li Yang, Yuquan Wei, Ronald C. Desrosiers, Christian Mueller, Phillip W.L. Tai, Guangping Gao
Yuanyuan Xiao, Manish Muhuri, Shaoyong Li, Wanru Qin, Guangchao Xu, Li Luo, Jia Li, Alexander J. Letizia, Sean K. Wang, Ying Kai Chan, Chunmei Wang, Sebastian P. Fuchs, Dan Wang, Qin Su, M. Abu Nahid, George M. Church, Michael Farzan, Li Yang, Yuquan Wei, Ronald C. Desrosiers, Christian Mueller, Phillip W.L. Tai, Guangping Gao
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Research Article Immunology Therapeutics

Circumventing cellular immunity by miR142-mediated regulation sufficiently supports rAAV-delivered OVA expression without activating humoral immunity

Abstract

Recombinant adeno-associated virus–mediated (rAAV-mediated) gene delivery can efficiently target muscle tissues to serve as “biofactories” for secreted proteins in prophylactic and therapeutic scenarios. Nevertheless, efficient rAAV-mediated gene delivery is often limited by host immune responses against the transgene product. The development of strategies to prevent antitransgene immunity is therefore crucial. The use of endogenous microRNA-mediated (miRNA-mediated) regulation to detarget transgene expression from antigen-presenting cells (APCs) has shown promise for reducing immunogenicity. However, the mechanisms underlying miRNA-mediated modulation of antitransgene immunity by APC detargeting are not fully understood. Using the highly immunogenic ovalbumin (OVA) protein as a proxy for foreign antigens, we show that rAAV vectors containing miR142-binding sites efficiently repress costimulatory signals in DCs, significantly blunt the cytotoxic T cell response, allow for sustained transgene expression in skeletal myoblasts, and attenuate clearance of transduced muscle cells in mice. Furthermore, the blunting of humoral immunity against circulating OVA correlates with detargeting of OVA expression from APCs. This demonstrates that incorporating APC-specific miRNA-binding sites into rAAV vectors provides an effective strategy for reducing transgene-specific immune response. This approach holds promise for clinical applications where the safe and efficient delivery of a prophylactic or therapeutic protein is desired.

Authors

Yuanyuan Xiao, Manish Muhuri, Shaoyong Li, Wanru Qin, Guangchao Xu, Li Luo, Jia Li, Alexander J. Letizia, Sean K. Wang, Ying Kai Chan, Chunmei Wang, Sebastian P. Fuchs, Dan Wang, Qin Su, M. Abu Nahid, George M. Church, Michael Farzan, Li Yang, Yuquan Wei, Ronald C. Desrosiers, Christian Mueller, Phillip W.L. Tai, Guangping Gao

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Figure 4

miR142BS-mediated detargeting permits redosing and boosts transgene levels.

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miR142BS-mediated detargeting permits redosing and boosts transgene leve...
Timeline for the AAV-redosing experiment (A) and the description of the rAAV serotype and OVA transgene specific for each injection (B). C57BL/6 male mice, 6 weeks old, were injected i.m. with either rAAV1.OVA or rAAV1.OVA.142BS (1 × 1011 GCs/mouse). The same mice were then redosed with either rAAV8.OVA or rAAV8.OVA.142BS (1 × 1011 GCs/mouse) i.m. 4 weeks after the first injection (n = 5). (C and D) ELISA quantification of circulating OVA expression (C) and anti-OVA IgG (D) in vector-injected mice. Sera were collected throughout a 12-week period. Box plots with whiskers correspond to mean ± SD and maximum and minimum values. P values were determined by ANOVA with Tukey’s post hoc test for pairwise comparison. Asterisks (*) denote test of significance between injection groups 1 and 3, and hashes (#) denote test of significance between injection groups 2 and 4. P values for longitudinal comparisons were determined by repeated measures with 2-way ANOVA. Daggers () denote test of significance. *,#P < 0.05, **,##P < 0.01, ***,###,†††P < 0.001.