[R01] Induction of strong and durable cellular and humoral immunity against HIV using DNA-LNPs
Ente: National Institute of Allergy and Infectious Diseases
Scadenza: 2031-04-30
Importo max: 909.998 EUR
Paese: US
Descrizione
The overall goal of this proposal is to develop a vaccination strategy that induces strong and durable humoral
and cellular immunity against HIV, providing long-term protection even with low neutralizing antibody (Ab)
responses using DNA-LNP technology. Developing an effective HIV-1 vaccine has been an elusive goal for over
four decades. An ideal HIV vaccine should generate a potent and broadly cross-reactive neutralizing antibody
response (bnAb) that remains at high titers for many years. Native-like trimeric HIV envelope (Env) gp140
immunogens, such as SOSIP, NFL, and UFO, have significantly advanced the field by eliciting autologous nAbs;
however, they do not induce an antibody response with neutralization breadth. We and others have shown that
a serum neutralization titer of around 300 or higher is necessary for nearly complete protection in non-human
primates (NHPs). These findings underscore the importance of developing vaccination methods that maintain
persistent nAb levels at or above this threshold. Besides nAbs, CD8 T cells—especially tissue-resident memory
T cells—are crucial for protection against HIV. Our recent studies indicate that adding a T cell-inducing vaccine
to an nAb-inducing vaccine can significantly lower the neutralization titer threshold needed for long-term
protection against intravaginal SHIV challenges, bringing it below detectable levels. Therefore, we hypothesize
that vaccine approaches that induce strong, lasting CD8 T cell responses, along with neutralizing antibodies, will
improve protection against HIV—even when serum neutralizing antibody levels are low. In ongoing studies, we
compared the immunogenicity of mRNA-LNPs with DNA-LNPs expressing SIV Gag in rhesus macaques (RMs).
We observed that DNA-LNPs elicit 25-fold higher levels of Gag-specific CD8 T cell responses compared to
mRNA-LNPs. Moreover, the CD8 T cells induced by the DNA-LNP vaccine were durable, showing only about 2-
fold contraction over four months post-boost. The DNA-LNP vaccines also produced strong Gag-specific
antibody responses that showed minimal contraction over several months. Notably, this high level of
immunogenicity was achieved with just 100 μg of DNA in RMs—significantly less than the 3 mg of naked DNA
typically used in NHPs and humans. These data demonstrate that DNA-LNP vaccines induce potent and lasting
CD8 T cell and antibody responses, supporting further testing of the immunogenicity and efficacy of this approach
in providing durable protection against HIV in NHPs. This proposal has two specific aims. Aim 1 will assess the
immunogenicity and durability of DNA-LNP vaccines and optimize envelope immunogens. We will compare three
DNA-LNP vaccines and select one based on immunogenicity and durability of humoral and cellular immunity.
Aim 2 will determine the efficacy of the optimized DNA-LNP vaccine for protection against intravaginal tier 2
SHIV challenges. By the end of these studies, we aim to develop a novel HIV vaccination strat
Istituzione: EMORY UNIVERSITY
PI: Rama Rao Amara
Progetto: 1R01AI200749-01
Settori: National Institute of Allergy and Infectious Diseases
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