DNA immunization site determines the level of gene expression and the magnitude, but not the type of the induced immune response

Peer reviewe

Viral and Cellular factors leading to the Loss of CD4 Homeostasis in HIV-1 Viremic Nonprogressors

Human immunodeficiency virus type 1 (HIV-1) viremic nonprogressors (VNPs) represent a very rare HIV-1 extreme phenotype. VNPs are characterized by persistent high plasma viremia and maintenance of CD41 T-cell counts in the absence of treatment. However, the causes of nonpathogenic HIV-1 infection in VNPs remain elusive. Here, we identified for the first time two VNPs who experienced the loss of CD41 homeostasis (LoH) after more than 13 years. We characterized in deep detail viral and host factors associated with the LoH and compared with standard VNPs and healthy controls. The viral factors determined included HIV-1 coreceptor usage and replicative capacity. Changes in CD41 and CD81 T-cell activation, maturational phenotype, and expression of CCR5 and CXCR6 in CD41 T-cells were also evaluated as host-related factors. Consistently, we determined a switch in HIV-1 coreceptor use to CXCR4 concomitant with an increase in replicative capacity at the LoH for the two VNPs. Moreover, we delineated an increase in the frequency of HLA-DR1CD381 CD41 and CD81 T cells and traced the augment of naive T-cells upon polyclonal activation with LoH. Remarkably, very low and stable levels of CCR5 and CXCR6 expression in CD41 T-cells were measured over time. Overall, our results demonstrated HIV-1 evolution toward highly pathogenic CXCR4 strains in the context of very limited and stable expression of CCR5 and CXCR6 in CD41 T cells as potential drivers of LoH in VNPs. These data bring novel insights into the correlates of nonpathogenic HIV1 infection. Importance: The mechanism behind nonpathogenic human immunodeficiency virus type 1 (HIV-1) infection remains poorly understood, mainly because of the very low frequency of viremic nonprogressors (VNPs). Here, we report two cases of VNPs who experienced the loss of CD41 T-cell homeostasis (LoH) after more than 13 years of HIV-1 infection. The deep characterization of viral and host factors supports the contribution of viral and host factors to the LoH in VNPs. Thus, HIV-1 evolution toward highly replicative CXCR4 strains together with changes in T-cell activation and maturational phenotypes were found. Moreover, we measured very low and stable levels of CCR5 and CXCR6 in CD41 T-cells over time. These findings support viral evolution toward X4 strains limited by coreceptor expression to control HIV-1 pathogenesis and demonstrate the potential of host-dependent factors, yet to be fully elucidated in VNPs, to control HIV-1 pathogenesis.This research was supported by a Gilead Fellowship (grant GLD15/0298) and La Caixa Foundation (grant LCF/PR/PR16/11110026). M.C.-L. is a Beatriu de Pinós postdoctoral fellow (grant BP 00075) supported by the Government of Catalonia’s Secretariat for Universities and Research of the Ministry of Economy and Knowledge. J.G.P. was supported by the ISCIII (grant CP15/00014). E.J.-M. was funded by Redes Temáticas de Investigación en SIDA (ISCIII RETIC RD16/0025/0041); Acción Estratégica en Salud; Plan Nacional de Investigación Científica, Desarrollo e Innovación Tecnológica 2008–2011; and Instituto de Salud Carlos III. E.J.-M. was cofunded by European Regional Development Fund/European Social Fund (FEDER) “Investing in your future.” J.M.-P. is supported by the Spanish Ministry of Science and Innovation (grant PID2019-109870RB-I00). J.G.P. and M.C.-L. designed the study, supervised experiments and data. J.G.P., M.C.-L., and A.K. contributed to data interpretation. M.C.-L., R.P., E.J.-M., M.P., and C.C. performed experiments, analyzed, and interpreted the data. J.D. carried out the clinical follow-up and patient identification. M.C.-L., D.O., M.P., and C.C. performed data analysis. M.C.-L., A.K., M.P., C.L.-G., B.C., J.M.-P., and J.G.P. performed manuscript writing, critical revision, and discussion. We declare no conflict of interest.S

Cellular immune response induced by dna immunization of mice with drug resistant integrases of hiv-1 clade a offers partial protection against growth and metastatic activity of integrase-expressing adenocarcinoma cells

Funding Information: Funding: Experiments were supported by the grants of the Russian Science Fund 15-15-30039, Russian Fund for Basic Research 20-04-01034, Latvian Science Fund LZP 2018-2-03-08, and EU-ROPARTNER project “Strengthening and spreading international partnership activities of the Faculty of Biology and Environmental Protection of University of Lodz, Poland, for interdisciplinary research and innovation”. Mobility and method acquisition were supported by Swedish institute PI project 19806/2016TP, and Horizon 2020 project VACTRAIN#692293. MI and BW were supported by Horizon 2020 grant EAVI contract N68113. Funding Information: Experiments were supported by the grants of the Russian Science Fund 15-15-30039, Russian Fund for Basic Research 20-04-01034, Latvian Science Fund LZP 2018-2-03-08, and EU-ROPARTNER project ?Strengthening and spreading international partnership activities of the Faculty of Biology and Environmental Protection of University of Lodz, Poland, for interdisciplinary research and innovation?. Mobility and method acquisition were supported by Swedish institute PI project 19806/2016TP, and Horizon 2020 project VACTRAIN#692293. MI and BW were supported by Horizon 2020 grant EAVI contract N68113. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.Therapeutic DNA-vaccination against drug-resistant HIV-1 may hinder emergence and spread of drug-resistant HIV-1, allowing for longer successful antiretroviral treatment (ART) up-to relief of ART. We designed DNA-vaccines against drug-resistant HIV-1 based on consensus clade A integrase (IN) resistant to raltegravir: IN_in_r1 (L74M/E92Q/V151I/N155H/G163R) or IN_in_r2 (E138K/G140S/Q148K) carrying D64V abrogating IN activity. INs, overexpressed in mammalian cells from synthetic genes, were assessed for stability, route of proteolytic degradation, and ability to induce oxidative stress. Both were found safe in immunotoxicity tests in mice, with no inherent carcinogenicity: their expression did not enhance tumorigenic or metastatic potential of adenocarcinoma 4T1 cells. DNA-immunization of mice with INs induced potent multicytokine T-cell response mainly against aa 209–239, and moderate IgG response cross-recognizing diverse IN variants. DNA-immunization with IN_in_r1 protected 60% of mice from challenge with 4Tlluc2 cells expressing non-mutated IN, while DNA-immunization with IN_in_r2 protected only 20% of mice, although tumor cells expressed IN matching the immunogen. Tumor size inversely correlated with IN-specific IFN-γ/IL-2 T-cell response. IN-expressing tumors displayed compromised metastatic activity restricted to lungs with reduced metastases size. Protective potential of IN immunogens relied on their immunogenicity for CD8+ T-cells, dependent on proteasomal processing and low level of oxidative stress.publishersversionPeer reviewe

Fusion to Flaviviral Leader Peptide Targets HIV-1 Reverse Transcriptase for Secretion and Reduces Its Enzymatic Activity and Ability to Induce Oxidative Stress but Has No Major Effects on Its Immunogenic Performance in DNA-Immunized Mice

Reverse transcriptase (RT) is a key enzyme in viral replication and susceptibility to ART and a crucial target of immunotherapy against drug-resistant HIV-1. RT induces oxidative stress which undermines the attempts to make it immunogenic. We hypothesized that artificial secretion may reduce the stress and make RT more immunogenic. Inactivated multidrug-resistant RT (RT1.14opt-in) was N-terminally fused to the signal providing secretion of NS1 protein of TBEV (Ld) generating optimized inactivated Ld-carrying enzyme RT1.14oil. Promotion of secretion prohibited proteasomal degradation increasing the half-life and content of RT1.14oil in cells and cell culture medium, drastically reduced the residual polymerase activity, and downmodulated oxidative stress. BALB/c mice were DNA-immunized with RT1.14opt-in or parental RT1.14oil by intradermal injections with electroporation. Fluorospot and ELISA tests revealed that RT1.14opt-in and RT1.14oil induced IFN-gamma/IL-2, RT1.14opt-in induced granzyme B, and RT1.14oil induced perforin production. Perforin secretion correlated with coproduction of IFN-gamma and IL-2 (R = 0,97). Both DNA immunogens induced strong anti-RT antibody response. Ld peptide was not immunogenic. Thus, Ld-driven secretion inferred little change to RT performance in DNA immunization. Positive outcome was the abrogation of polymerase activity increasing safety of RT-based DNA vaccines. Identification of the molecular determinants of low cellular immunogenicity of RT requires further studies.Funding Agencies|Russian Foundation of Basic Research [14-04-01817]; Russian Science Foundation [15-15-30039]; EU Twinning Project VACTRAIN [692293]; Swedish Institute PI [19806_2016]</p