%0 Journal Article
%T Transgene IL-21-Engineered T Cell-Based Vaccine Potently Converts CTL Exhaustion via the Activation of the mTORC1 Pathway in Chronic Infection
%A Aizhang Xu
%A Xueying Zhang
%A Rajni Chibbar
%A Andrew Freywald
%A Suresh Tikoo
%A Changyu Zheng
%A Jim Xiang
%J World Journal of Vaccines
%P 1-21
%@ 2160-5823
%D 2019
%I Scientific Research Publishing
%R 10.4236/wjv.2019.91001
%X CD8<sup>+</sup> cytotoxic T lymphocyte (CTL) exhaustion is one of the major obstacles for the effectiveness of virus control in chronic infectious diseases. We previously generated novel ovalbumin (OVA)-specific 41BBL-expressing OVA-T<sub>EXO</sub> and human immunodeficiency virus (HIV-1) Gag-specific Gag-T<sub>EXO</sub> vaccines, inducing therapeutic immunity in wild-type C57BL/6 (B6) mice, and converting CTL exhaustion in recombinant OVA-specific adenovirus AdV<sub>OVA</sub>-infected B6 (AdV<sub>OVA</sub>-B6) mice with chronic infection. IL-21 cytokine plays an important role in controlling chronic infections. Therefore, in this study, we constructed recombinant transgene IL-21-expressing AdV<sub>IL-21</sub>, and generated IL-21-expressing OVA-T<sub>EXO/IL-21</sub> and Gag-T<sub>EXO/IL21</sub> vaccines, or control vaccines (OVA-T<sub>EXO/Null</sub> and Gag-T<sub>EXO/Null</sub>) by infecting OVA-T<sub>EXO </sub>and Gag-T<sub>EXO</sub> cells with AdV<sub>IL-21</sub> or the control AdV<sub>Null</sub>, lacking transgene, and assessed their effects in B6 or AdV<sub>OVA</sub>-B6 mice. We demonstrate that both OVA-T<sub>EXO/IL-21</sub> and control OVA-T<sub>EXO/Null </sub>vaccines are capable of converting CTL exhaustion in chronic infection. However, the OVA-T<sub>EXO/IL-21</sub> vaccine more efficiently rescues exhausted CTLs by increasing stronger CTL proliferation and effector cytokine IFN-<em>¦Ã</em> expression than the control OVA-T<sub>EXO/Null </sub>vaccine in AdV<sub>OVA</sub>-B6 mice with chronic infection, though both vaccines stimulated comparable OVA-specific CTL responses and protective immunity against OVA-expressing BL6-10<sub>OVA</sub> melanoma lung metastasis in wild-type B6 mice. <em>In vivo</em>, the OVA-T<sub>EXO/IL-21</sub>-stimulated CTLs more efficiently up-regulate phosphorylation of mTORC1-controlled EIF4E and expression of mTORC1- regulated T-bet molecule than the control OVA-T<sub>EXO/Null</sub>-stimulated ones. Importantly, the Gag-T<sub>EXO/IL21</sub> vaccine induces stronger Gag-specific therapeutic immunity against established Gag-expressing BL6-10<sub>Gag</sub> melanoma lung metastases than the control Gag-T<sub>EXO/Null </sub>vaccine in chronic infection. Therefore, this study should have a strong impact on developing new therapeutic vaccines for patients with chronic infections.
%K IL-21
%K Chronic Infection
%K CTL Exhaustion
%K Exosome
%K T Cell Vaccine
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=89405