HIV Infections Clinical Trial
Official title:
Immune Responses to Neo-Antigens in Patients Treated With Raltegravir: Insights on V(D)J Recombination and RAG-1/2 Recombinase Function
Hypothesis: Treatment with raltegravir does not alter V(D)J recombination or immune
responses to neoantigens.
A process known as V(D)J recombination is essential for developing lymphocytes and the
specific functioning of the immune system. Raltegravir is the first approved drug of the new
integrase inhibitor class of anti-HIV drugs. Integrase inhibitors have been shown in some
studies to interfere with DNA cleavage and the activities of RAG-1/2. These studies suggest
a potential to affect aspects of both B-cell and T-cell development, therefore, it is
important to evaluate the potential effects that integrase inhibitors may have in clinical
use. If immunoglobulin and T-cell receptor genes are altered by HIV integrase, then patient
lymphocytes will fail to display normal responses to vaccinations.
V(D)J recombination is essential for developing lymphocytes and the specific functioning of
the immune system. Germline gene coding segments become rearranged to create functional
immunoglobulin and T-cell receptor genes by this recombination. The process depends on
site-specific cleavage of chromosomal DNA by RAG-1 and RAG-2 recombinase. Two
recombination-activating gene proteins (RAG-1/2) in conjunction make up a complex of enzymes
that join gene segments of B-cell and T-cell receptor genes. RAG-1 contains most of the
V(D)J recombinase active site and RAG-2 is essential in joining DNA segments during V(D)J
recombination. RAG-1/2 have similarity in action to other DNA transposases and HIV-1
integrase. These similarities suggest that HIV-1 integrase inhibitors may have the potential
to affect aspects of both B-cell and T-cell development.
Induction of primary immune responses to neoantigens involves the generation of specific
T-cells and immunoglobulin M (IgM) antibody secreting B-cells. As part of this process, T
and B memory cells are also generated, which have specific cell surface receptors to the
antigen. On repeat exposure to the antigen, these memory T- and B-cells are triggered to
generate rapid and intense secondary responses. During this secondary response, B-cells
secrete abundant specific IgG antibodies with greater affinity to the antigen than for the
IgM isotope. This memory response is mediated by T-cells with CD45+ RO+ phenotype. These
T-cells provide B-cells the help required to generate the specific IgG. Sub-optimal antibody
responses are seen in both acquired and hereditary immunodeficiency, which are due to
impaired T-cell function including poor T-helper responses to B-cells and defective
neo-antigen responses.
An established method to evaluate T-cell function involves testing antibody production to
vaccination with phiX174, a stable bacteriophage of E. Coli that is critical in
demonstrating T-cell competence. Antibody titers after primary and secondary immunization
correlate with abnormal CD4 cell help. Patients with functional B-cells that lack T-cell
help show a characteristic failure to switch from IgM to IgG, making this assay essential in
the evaluation of V(D)J recombination.
Currently, raltegravir is the only approved integrase inhibitor that targets the integration
stage of the HIV-1 lifecycle. The clinical manifestations of raltegravir-related potential
adverse effects on V(D)J recombination may be so rare that they may only be observed after
large numbers of patients are exposed to this drug. Evaluating the direct in vivo
interaction of HIV integrase inhibitors on RAG-1/2 is difficult, therefore the best approach
may be to evaluate the potential negative effects on recombinase activity downstream by
studying immune function. If gene rearrangements of immunoglobulin and T-cell receptor genes
are altered by HIV integrase, then patient lymphocytes will fail to display normal responses
to neo-antigen exposure. Since untreated HIV-infected individuals have an impaired ability
to respond to new antigens, it is difficult to evaluate the responses to neo-antigens in
these individuals. Therefore, to test this hypothesis, it would be best to choose patients
with long-term control of HIV that have recovered immune function.
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Allocation: Randomized, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Basic Science
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