Your search keyword '"Chebloune, Yahia"' showing total 9 results

1. Cowpox Helped Against Smallpox; Will the Goat Lentivirus (Caprine Arthritis Encephalitis Virus) Help Against HIV-1?

Author

Chebloune Y, Moussa M, Arrode-Brusés G, and Gagnon J

Subjects

AIDS Vaccines genetics, Animals, Arthritis-Encephalitis Virus, Caprine genetics, CD4-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes immunology, Cattle, Goats, HIV Antibodies blood, HIV-1 genetics, Humans, Macaca, Mice, SCID, Simian Immunodeficiency Virus genetics, Terminal Repeat Sequences, Vaccines, DNA genetics, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Vaccines, Synthetic isolation & purification, AIDS Vaccines immunology, AIDS Vaccines isolation & purification, Arthritis-Encephalitis Virus, Caprine immunology, HIV-1 immunology, Simian Immunodeficiency Virus immunology, Vaccines, DNA immunology, Vaccines, DNA isolation & purification

Published

2015

2. A novel non-integrative single-cycle chimeric HIV lentivector DNA vaccine.

Author

Moussa M, Arrode-Brusés G, Manoylov I, Malogolovkin A, Mompelat D, Ishimwe H, Smaoune A, Ouzrout B, Gagnon J, and Chebloune Y

Subjects

AIDS Vaccines administration & dosage, AIDS Vaccines genetics, AIDS Vaccines isolation & purification, Animals, Enzyme-Linked Immunospot Assay, Gene Deletion, HIV Integrase genetics, HIV-1 genetics, Interferon-gamma metabolism, Leukocytes, Mononuclear immunology, Mice, Inbred BALB C, Mice, SCID, Spleen immunology, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated genetics, Vaccines, Attenuated immunology, Vaccines, Attenuated isolation & purification, Vaccines, DNA administration & dosage, Vaccines, DNA genetics, Vaccines, DNA isolation & purification, AIDS Vaccines immunology, HIV-1 immunology, HIV-1 physiology, Vaccines, DNA immunology, Virus Replication

Abstract

Novel HIV vaccine vectors and strategies are needed to control HIV/AIDS epidemic in humans and eradicate the infection. DNA vaccines alone failed to induce immune responses robust enough to control HIV-1. Development of lentivirus-based DNA vaccines deficient for integration and with a limited replication capacity is an innovative and promising approach. This type of vaccine mimics the early stages of virus infection/replication like the live-attenuated viruses but lacks the inconvenient integration and persistence associated with disease. We developed a novel lentivector DNA vaccine "CAL-SHIV-IN(-)" that undergoes a single round of replication in the absence of integration resulting in augmented expression of vaccine antigens in vivo. Vaccine gene expression is under control of the LTRs of a naturally attenuated lentivirus, Caprine arthritis encephalitis virus (CAEV) the natural goat lentivirus. The safety of this vaccine prototype was increased by the removal of the integrase coding sequences from the pol gene. We examined the functional properties of this lentivector DNA in cell culture and the immunogenicity in mouse models. Viral proteins were expressed in transfected cells, assembled into viral particles that were able to transduce once target permissive cells. Unlike the parental replication-competent SHIV-KU2 that was detected in DNA samples from any of the serial passage infected cells, CAL-SHIV-IN(-) DNA was detected only in target cells of the first round of infection, hence demonstrating the single cycle replication of the vaccine. A single dose DNA immunization of humanized NOD/SCID/β2 mice showed a substantial increase of IFN-γ-ELISPOT in splenocytes compared to the former replication and integration defective Δ4SHIV-KU2 DNA vaccine., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

3. Immunogenicity of a lentiviral-based DNA vaccine driven by the 5'LTR of the naturally attenuated caprine arthritis encephalitis virus (CAEV) in mice and macaques.

Author

Arrode-Brusés G, Hegde R, Jin Y, Liu Z, Narayan O, and Chebloune Y

Subjects

AIDS Vaccines administration & dosage, AIDS Vaccines genetics, Animals, Cell Line, Enzyme-Linked Immunospot Assay, Female, Gene Expression Profiling, HIV genetics, HIV Core Protein p24 biosynthesis, Humans, Interferon-gamma metabolism, Leukocytes, Mononuclear immunology, Macaca mulatta, Mice, Mice, Inbred BALB C, Vaccines, DNA administration & dosage, AIDS Vaccines immunology, Arthritis-Encephalitis Virus, Caprine genetics, HIV immunology, Terminal Repeat Sequences, Vaccines, DNA immunology

Abstract

Increasing the safety and the efficacy of existing HIV vaccines is one of the strategies that could help to promote the development of a vaccine for human use. We developed a HIV DNA vaccine (Δ4-SHIVKU2) that has been shown to induce potent polyfunctional HIV-specific T cell responses following a single dose immunization of mice and macaques. Δ4-SHIVKU2 also induced protection when immunized macaques were challenged with homologous pathogenic viruses. In the present study, our aim was to examine whether a chimeric HIV DNA vaccine (CAL-Δ4-SHIVKU2) whose genome is driven by the LTR of the goat lentivirus, caprine arthritis encephalitis (CAEV) expresses efficiently the vaccine antigens and induces potent immune responses in animal models for HIV vaccine. Data of radioimmunoprecipitation assays clearly show that this chimeric genome drives efficient expression of all HIV antigens in the construct. In addition, evaluation of the p24 Gag protein in the supernatant of HEK-293-T cells transfected in parallel with Δ4-SHIVKU2 and CAL-Δ4-SHIVKU2 showed no difference suggesting that these two LTRs are inducing equally the expression of the viral genes. Immunization of mice and macaques using our single dose immunization regimen resulted in induction of similar IFN-γ ELISPOT responses in Δ4-SHIVKU2- and CAL-Δ4-SHIVKU2-treated mice. Similar profiles of T cell responses were also detected both in mice and macaques when multiparametric flow cytometry analyses were performed. Since CAEV LTR is not dependent of Tat to drive viral gene expression and is not functional for integration with HIV integrase, this new vector increases the safety and efficacy of our vaccine vectors and vaccination strategy., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

4. Characterization of T-cell responses in macaques immunized with a single dose of HIV DNA vaccine.

Author

Arrode-Brusés G, Sheffer D, Hegde R, Dhillon S, Liu Z, Villinger F, Narayan O, and Chebloune Y

Subjects

AIDS Vaccines immunology, Animals, B-Lymphocytes immunology, Enzyme-Linked Immunosorbent Assay, Flow Cytometry, Interferon-gamma biosynthesis, Macaca mulatta, Mice, Plasmids, Vaccines, DNA immunology, AIDS Vaccines administration & dosage, CD4-Positive T-Lymphocytes immunology, Vaccines, DNA administration & dosage

Abstract

The optimization of immune responses (IR) induced by HIV DNA vaccines in humans is one of the great challenges in the development of an effective vaccine against AIDS. Ideally, this vaccine should be delivered in a single dose to immunize humans. We recently demonstrated that the immunization of mice with a single dose of a DNA vaccine derived from pathogenic SHIV(KU2) (Delta4SHIV(KU2)) induced long-lasting, potent, and polyfunctional HIV-specific CD8(+) T-cell responses (G. Arrode, R. Hegde, A. Mani, Y. Jin, Y. Chebloune, and O. Narayan, J. Immunol. 178:2318-2327, 2007). In the present work, we expanded the characterization of the IR induced by this DNA immunization protocol to rhesus macaques. Animals immunized with a single high dose of Delta4SHIV(KU2) DNA vaccine were monitored longitudinally for vaccine-induced IR using multiparametric flow cytometry-based assays. Interestingly, all five immunized macaques developed broad and polyfunctional HIV-specific T-cell IR that persisted for months, with an unusual reemergence in the blood following an initial decline but in the absence of antibody responses. The majority of vaccine-specific CD4(+) and CD8(+) T cells lacked gamma interferon production but showed high antigen-specific proliferation capacities. Proliferative CD8(+) T cells expressed the lytic molecule granzyme B. No integrated viral vector could be detected in mononuclear cells from immunized animals, and this high dose of DNA did not induce any detectable autoimmune responses against DNA. Taken together, our comprehensive analysis demonstrated for the first time the capacity of a single high dose of HIV DNA vaccine alone to induce long-lasting and polyfunctional T-cell responses in the nonhuman primate model, bringing new insights for the design of future HIV vaccines.

Published

2010

5. Nef modulates the immunogenicity of Gag encoded in a non-infectious HIV DNA vaccine.

Author

Arrode G, Hegde R, Jin Y, Singh DK, Narayan O, and Chebloune Y

Subjects

Animals, CD8-Positive T-Lymphocytes immunology, Cell Death, Cell Line, Humans, Mice, Mice, Inbred BALB C, Virosomes biosynthesis, env Gene Products, Human Immunodeficiency Virus immunology, AIDS Vaccines immunology, Vaccines, DNA immunology, gag Gene Products, Human Immunodeficiency Virus immunology, nef Gene Products, Human Immunodeficiency Virus immunology

Abstract

Gag-CD8+ T cell responses are associated with immune control of HIV infection. Since during HIV infection Nef impairs T cell responses, we evaluated whether deletion of nef from a non-infectious HIV DNA vaccine (Delta4 Nef+), creating Delta5 Nef(-), would affect its immunogenicity. When compared with Delta4, mice injected with Delta5 developed significantly lower CD8+ T cell responses to Gag, but no significant change in the responses to Env was observed. In vitro, deletion of Nef abrogated the induced cell death, production of virus-like particles and release of Gag from transfected cells. Thus, the effect of Nef in causing extrusion of Gag might adjuvant the CD8+ T cell responses to Gag in DNA vaccine.

Published

2008

6. Phenotypic and functional analysis of immune CD8+ T cell responses induced by a single injection of a HIV DNA vaccine in mice.

Author

Arrode G, Hegde R, Mani A, Jin Y, Chebloune Y, and Narayan O

Subjects

AIDS Vaccines pharmacology, Animals, CD3 Complex immunology, Granzymes immunology, HIV Infections prevention & control, Haplorhini, Humans, Immunization, Immunologic Memory immunology, Interferon-gamma immunology, Mice, Mice, Inbred BALB C, Species Specificity, Vaccines, DNA pharmacology, AIDS Vaccines immunology, CD8-Positive T-Lymphocytes immunology, HIV Antigens immunology, HIV Infections immunology, Vaccines, DNA immunology

Abstract

HIV DNA vaccines are potent inducers of cell-mediated immune (CMI) response in mice but elicit poor HIV-specific IFN-gamma-producing T cells in monkeys and humans. In this study, we performed kinetic analyses on splenocytes of BALB/c mice that were immunized by a single injection with a unique DNA vaccine. Using IFN-gamma-ELISPOT and multiparametric FACS analysis, we characterized the induced CMI response. We found that the response was detectable for at least 63 wk. ELISPOT detection of IFN-gamma-producing T cells showed a profile with two waves separated by a long period of minimal response. Multiparametric FACS analysis showed two populations of CD3(+)CD8(+) T cells that were specific for all HIV Ags. These cells had similar robust proliferation abilities and contained granzyme B. However, only a few produced IFN-gamma. Both IFN-gamma-producing and non-IFN-gamma-producing HIV-specific CD8(+) T cells were detected in the early stage (week (W)1 and W2 postimmunization (PI)), in the prolonged intermediate period of minimal response (W4-W26 PI), and in the final late phase of increased response (W30-W63 PI). Our longitudinal characterization showed that both subsets of cells underwent expansion, contraction, and memory generation/maintenance phases throughout the lifespan of the animal. Altogether, these findings bring insight to the heterogeneity of the immune T cell response induced by a single immunization with this DNA and strengthen the concept that used of the IFN-gamma-ELISPOT assay alone may be insufficient to detect critical T cell responses to candidate HIV vaccines.

Published

2007

7. Immunoprophylaxis against AIDS in macaques with a lentiviral DNA vaccine.

Author

Liu Z, Singh DK, Sheffer D, Smith MS, Dhillon S, Chebloune Y, Hegde R, Buch S, and Narayan O

Subjects

Animals, CD4 Lymphocyte Count, Cell Line, Humans, Macaca fascicularis, SAIDS Vaccines genetics, Simian Immunodeficiency Virus, Time Factors, Vaccines, DNA genetics, Lentivirus genetics, SAIDS Vaccines immunology, Simian Acquired Immunodeficiency Syndrome immunology, Simian Acquired Immunodeficiency Syndrome prevention & control, Vaccines, DNA immunology

Abstract

We earlier reported that immunization of macaques with a reverse transcriptase-deleted SHIV(KU2) (DeltartSHIV(KU2)) plasmid that contained HIV-1(HXB2) env and SIV gag-nef induced protection against AIDS caused by challenge virus SHIV89.6P with a heterologous env. We further deleted vif and integrase from DeltartSHIV(KU2) and substituted the 3'LTR with SV40 poly A sequences, creating Delta4SHIV(KU2) (M) and a parallel construct containing gag-nef of HIV-1(SF2), Delta4SHIV(KU2) (H). Six macaques received two intramuscular injections of the (M) DNA, and another six received three injections of the (H) DNA. Three of the latter group received two post-challenge boosts with (M) DNA vaccine. Seven virus control macaques were inoculated with SHIV89.6P. All twelve immunized macaques were challenged with SHIV89.6P virus, and CMI responses were measured by ELISPOT assays. Virus control animals all developed progressive infection, whereas vaccinated macaques from both groups controlled virus replication, with plasma viral loads dropping to undetectable levels between weeks 6 and 126 p.i. This DNA vaccine was efficacious even though it encoded Env, Gag, and Nef that were genetically distinct from the proteins in the challenge virus. The DNA vaccine induced broad-based protection without using viral proteins to boost the immunity.

Published

2006

8. Antigen expression kinetics and immune responses of mice immunized with noninfectious simian-human immunodeficiency virus DNA.

Author

Hegde R, Liu Z, Mackay G, Smith M, Chebloune Y, Narayan O, and Singh DK

Subjects

Animals, Antibodies, Viral blood, Capsid Proteins metabolism, Gene Products, gag metabolism, Gene Products, nef metabolism, Humans, Kinetics, Mice, Mice, Inbred BALB C, Vaccines, DNA administration & dosage, Vaccines, DNA genetics, Viral Proteins biosynthesis, nef Gene Products, Human Immunodeficiency Virus, Acquired Immunodeficiency Syndrome prevention & control, Simian Acquired Immunodeficiency Syndrome prevention & control, Simian Immunodeficiency Virus immunology, Vaccines, DNA immunology

Abstract

In a previous report we demonstrated that three injections of an rt-deleted noninfectious genome of the simian-human immunodeficiency virus SHIV(KU2) induced protection against AIDS in macaques (D. K. Singh, Z. Liu, D. Sheffer, G. A. Mackay, M. Smith, S. Dhillon, R. Hegde, F. Jia, I. Adany, and O. Narayan, J. Virol 79:3419-3428, 2005). To make this DNA safer, we deleted two more genes, the integrase gene and vif, along with the 3' long terminal repeat. We also replaced the gag, pro, and nef genes (SIVmac239 origin) with those of human immunodeficiency virus (HIV) type 1 strain SF2. The resultant construct, designated delta4SHIV(KU2) DNA, was used in this study to evaluate gene expression and immunogenicity in BALB/c mice. DNA-transfected human embryonic kidney epithelial cells (HEK 293) produced all of the major viral proteins and released p24 in the supernatant for 12 days. Inoculation of the vaccine DNA into the gastrocnemius muscles resulted in intense mononuclear cell infiltration at the inoculated sites and the production of viral p24 in myocytes, in infiltrating mononuclear cells, and in cells in the spleen and draining lymph nodes between 3 and 10 days postinoculation. Expression of p24 in the muscle cells peaked at day 7 and became undetectable after day 12. The same 12-day period of expression of p24 was observed in mice that were given a second injection 4 weeks after the first. Evaluation of immune responses in BALB/c mice revealed that the DNA induced enzyme-linked immunospot and antigen-specific proliferative cell-mediated immunity responses. The responses were stronger in mice that were coinjected with a second plasmid expressing granulocyte-macrophage colony-stimulating factor. Since new waves of viral antigen production could be induced with each boosting injection of the vaccine DNA, this DNA could be a safe and efficient agent to induce long-term protection against HIV.

Published

2005

9. Mucosal immunization of sheep with a Maedi-Visna virus (MVV) env DNA vaccine protects against early MVV productive infection.

Author

González B, Reina R, García I, Andrés S, Glaria I, Alzueta M, Mora MI, Jugo BM, Arrieta-Aguirre I, de la Lastra JM, Rodríguez D, Rodríguez JR, Esteban M, Grilló MJ, Blacklaws BA, Harkiss GD, Chebloune Y, Luján L, de Andrés D, and Amorena B

Subjects

Animals, Biolistics, Female, Gene Products, env immunology, Genes, MHC Class II, HLA-DR Antigens genetics, Immunity, Mucosal, Immunization, Interferon-gamma genetics, Sheep, Vaccines, DNA administration & dosage, Viral Load, Viral Vaccines administration & dosage, Gene Products, env genetics, Pneumonia, Progressive Interstitial, of Sheep prevention & control, Vaccines, DNA immunology, Viral Vaccines immunology, Visna prevention & control, Visna-maedi virus immunology

Abstract

Gene gun mucosal DNA immunization of sheep with a plasmid expressing the env gene of Maedi-Visna virus (MVV) was used to examine the protection against MVV infection in sheep from a naturally infected flock. For immunization, sheep were primed with a pcDNA plasmid (pcDNA-env) encoding the Env glycoproteins of MVV and boosted with combined pcDNA-env and pCR3.1-IFN-gamma plasmid inoculations. The pcDNA plasmid used in the control group contained the lacZ coding sequences instead of the env gene. Within a month post-challenge, the viral load in the vaccinated group was lower (p < or = 0.05) and virus was only detected transiently compared with the control group. Furthermore, 2 months later, neutralizing antibodies (NtAb) were detected in all the control animals and none of the vaccinated animals (p < or = 0.01). These results demonstrated a significant early protective effect of this immunization strategy against MVV infection that restricts the virus replication following challenge in the absence of NtAb production. This vaccine protective effect against MVV infection disappeared after two years post-challenge, when active replication of MVV challenge strain was observed. Protection conferred by the vaccine could not be explained by OLA DRB1 allele or genotype differences. Most of the individuals were DRB1 heterozygous and none was totally resistant to infection.

Published

2005