Chimpanzee-origin adenovirus vectors as vaccine carriers

Tatsis, Nia; Tesema, Lello; Robinson, Elena; Giles-Davis, Wynetta; McCoy, Kimberly; Gao, Guangping; Wilson, James M.; Ertl, Hildegund C. J.

doi:10.1038/sj.gt.3302675

Cited by 88 publications

(75 citation statements)

References 34 publications

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“…Adenoviral vectors of human and, more recently, chimpanzee serotypes have been described as attractive vaccine vectors as they induce both innate and adaptive responses [30,31], and here we demonstrate that they can also induce responses in the lymphoid tissues of the intestinal mucosa. This implies that imprinting by mucosal dendritic cells is not an absolute requirement for primed T cells to migrate to the gut [32,33].…”

Section: Discussionsupporting

confidence: 61%

Intramuscular rather than oral administration of replication-defective adenoviral vaccine vector induces specific CD8+ T cell responses in the gut

Lin

Cun

Harris-McCoy

et al. 2007

Vaccine

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Gut-associated lymphoid tissue (GALT) is the primary replication site for HIV-1, resulting in a pronounced CD4 + T cell loss in this tissue during primary infection. A mucosal vaccine that generates HIV-specific CD8 + T cells in the gut could prevent the establishment of founder populations and broadcasting of virus. Here, we immunized mice orally and systemically with a chimpanzee derived adenoviral vector expressing HIV gag (AdC68gag) and measured frequencies of gag-specific interferon-gamma (IFN-γ) producing CD8 + T cells in the GALT. A single oral administration was inefficient at eliciting responses in the mesenteric lymph nodes and Peyer's Patches, while a single intramuscular administration elicited strong systemic and detectable mucosal responses. The gagspecific CD8 + T cell responses were present in both acute and memory phases following intramuscular administration.

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Section: Discussionsupporting

confidence: 61%

Intramuscular rather than oral administration of replication-defective adenoviral vaccine vector induces specific CD8+ T cell responses in the gut

Lin

Cun

Harris-McCoy

et al. 2007

Vaccine

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“…As such, the study was designed to determine the effect of the vaccine-induced cellular immune responses on SIV acquisition (and SIV viremia in the event of infection) in the absence of vaccine-induced Env-specific antibodies. The rationale for this approach resides in the strong cellular immunogenicity of the vectors used (14,27) and the demonstrations that cellular immune responses can prevent/abort SIV mac infection in the setting of a CMV-based vector platform (28). In this context, it is possible that the significant correlation between risk of infection and activated CD4 + T cells in the rectal mucosa may not be present if the animals are vaccinated with Env-containing immunogens.…”

Section: Discussionmentioning

confidence: 99%

Activated CD4 ⁺ CCR5 ⁺ T cells in the rectum predict increased SIV acquisition in SIVGag/Tat-vaccinated rhesus macaques

Carnathan

Wetzel

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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An effective T-cell–based AIDS vaccine should induce strong HIV-specific CD8+ T cells in mucosal tissues without increasing the availability of target cells for the virus. Here, we evaluated five immunization strategies that include Human adenovirus-5 (AdHu5), Chimpanzee adenovirus-6 (AdC6) or -7 (AdC7), Vaccinia virus (VV), and DNA given by electroporation (DNA/EP), all expressing Simian immunodeficiency virus group specific antigen/transactivator of transcription (SIVmac239Gag/Tat). Five groups of six rhesus macaques (RMs) each were vaccinated with DNA/EP-AdC6-AdC7, VV-AdC6-AdC7, DNA/-EP-VV-AdC6, DNA/EP-VV-AdC7, or AdHu5-AdHu5-AdHu5 and were challenged repeatedly with low-dose intrarectal SIVmac239. Upon challenge, there were no significant differences among study groups in terms of virus acquisition or viral load after infection. When taken together, the immunization regimens did not protect against SIV acquisition compared with controls but did result in an ∼1.6-log decline in set-point viremia. Although all immunized RMs had detectable SIV-specific CD8+ T cells in blood and rectal mucosa, we found no correlation between the number or function of these SIV-specific CD8+ T cells and protection against SIV acquisition. Interestingly, RMs experiencing breakthrough infection showed significantly higher prechallenge levels of CD4+C-C chemokine receptor type 5 (CCR5)+HLA-DR+ T cells in the rectal biopsies (RB) than animals that remained uninfected. In addition, among the infected RMs, the percentage of CD4+CCR5+Ki-67+ T cells in RBs prechallenge correlated with higher early viremia. Overall, these data suggest that the levels of activated CD4+CCR5+ target T cells in the rectal mucosa may predict the risk of SIV acquisition in RMs vaccinated with vectors that express SIVGag/Tat.

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“…One nonhuman serotype that has been proposed as an alternative vector for vaccination is the chimpanzee adenovirus 68 (AdC68) (42). AdC68 is not neutralized by most human adult sera and elicits a strong transgene productspecific immune response in animals already immune to Ad5 (7,33,42). However, because one immunization with an AdC68 vector will induce serotype-specific immunity, multipledose immunization regimens may require the availability of additional vectors.…”

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confidence: 99%

“…Most adenovirus vectors in use have been derived from the human serotype 5 (Ad5). As almost all human adults have been exposed to Ad5, they possess neutralizing antibodies to Ad5 that limit the efficiency of the virus as a delivery vector (7,33,42). Approaches to circumvent the problem of preexisting immunity include chemical modification of Ad5 surface proteins to mask the neutralizing epitopes (4,19,29) and replacement of the immunogenic capsid proteins with those of other serotypes (21,23,32,41,44).…”

mentioning

confidence: 99%

Structure-Based Identification of a Major Neutralizing Site in an Adenovirus Hexon

Pichla-Gollon

Drinker

Zhou

et al. 2007

J Virol

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Virus-specific neutralizing antibodies present an obstacle to the effective use of adenovirus vectors for gene therapy and vaccination. The specific sites recognized by neutralizing antibodies have not been identified for any adenovirus, but they have been proposed to reside within the hexon, in small regions of the molecule that are exposed on the capsid surface and possess sequences that vary among serotypes. We have mapped the epitopes recognized by a panel of seven hexon-specific monoclonal antibodies that neutralize the chimpanzee adenovirus 68 (AdC68). Surface plasmon resonance experiments revealed that the antibodies compete for a single hexon binding site, and experiments with synthetic peptides indicated that this site resides within just one small surface loop. Mutations within this loop (but not in other surface loops) permitted virus to escape neutralization by all seven monoclonal antibodies and to resist neutralization by polyclonal antisera obtained from animals immunized against AdC68. These results indicate that a single small surface loop defines a major neutralization site for AdC68 hexon.Modified adenoviruses have been widely used as vehicles for gene delivery and as vaccine vectors. Most adenovirus vectors in use have been derived from the human serotype 5 (Ad5). As almost all human adults have been exposed to Ad5, they possess neutralizing antibodies to Ad5 that limit the efficiency of the virus as a delivery vector (7,33,42). Approaches to circumvent the problem of preexisting immunity include chemical modification of Ad5 surface proteins to mask the neutralizing epitopes (4,19,29) and replacement of the immunogenic capsid proteins with those of other serotypes (21,23,32,41,44). Many investigators are also exploring the use of rare human serotypes (such as human Ad48) or nonhuman adenoviruses (including those derived from dogs, fowl, and nonhuman primates) to which humans are not usually immune (2, 6, 13, 16-18, 22, 30).An alternative approach is to identify the specific sites on adenovirus that are recognized by neutralizing antibodies and then modify those sites to generate mutants capable of escaping neutralization. One nonhuman serotype that has been proposed as an alternative vector for vaccination is the chimpanzee adenovirus 68 (AdC68) (42). AdC68 is not neutralized by most human adult sera and elicits a strong transgene productspecific immune response in animals already immune to Ad5 (7,33,42). However, because one immunization with an AdC68 vector will induce serotype-specific immunity, multipledose immunization regimens may require the availability of additional vectors. Production of antigenically modified vectors would be facilitated if the epitopes recognized by the neutralizing antibodies were well characterized.The adenovirus capsid is an icosahedron with long fibers projecting from the vertices. Twelve copies of the trimeric major capsid protein, hexon, form each of the 20 triangular facets of the icosahedron; trimeric fibers are inserted into the pentameric penton bases at...

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Chimpanzee-origin adenovirus vectors as vaccine carriers

Cited by 88 publications

References 34 publications

Intramuscular rather than oral administration of replication-defective adenoviral vaccine vector induces specific CD8+ T cell responses in the gut

Intramuscular rather than oral administration of replication-defective adenoviral vaccine vector induces specific CD8+ T cell responses in the gut

Activated CD4 ⁺ CCR5 ⁺ T cells in the rectum predict increased SIV acquisition in SIVGag/Tat-vaccinated rhesus macaques

Structure-Based Identification of a Major Neutralizing Site in an Adenovirus Hexon

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Chimpanzee-origin adenovirus vectors as vaccine carriers

Cited by 88 publications

References 34 publications

Intramuscular rather than oral administration of replication-defective adenoviral vaccine vector induces specific CD8+ T cell responses in the gut

Intramuscular rather than oral administration of replication-defective adenoviral vaccine vector induces specific CD8+ T cell responses in the gut

Activated CD4 + CCR5 + T cells in the rectum predict increased SIV acquisition in SIVGag/Tat-vaccinated rhesus macaques

Structure-Based Identification of a Major Neutralizing Site in an Adenovirus Hexon

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Activated CD4 ⁺ CCR5 ⁺ T cells in the rectum predict increased SIV acquisition in SIVGag/Tat-vaccinated rhesus macaques