Preliminary results from a phase I clinical
trial have demonstrated the safety and tolerability of a cell therapy
involving the ex vivo expansion of T cells and their subsequent infusion
into HIV-infected individuals previously treated with antiretroviral
therapy (ART). The study appears September 21st in the journal Molecular Therapy.
"This study is focused on finding a way to re-educate the body's
immune system to better fight HIV infection," says co-senior study
author David Margolis of the University of North Carolina (UNC) at
Chapel Hill. "We found that this approach of re-educating the immune
cells and reinfusing them was safe, which was the primary goal of the
study. The data from this trial will continue to help us design improved
immunotherapies against HIV."
A game changer for patients living with HIV, ART has turned what was
once a death sentence into a chronically managed disease. But it is not a
cure, and the virus continues to persist within a latent reservoir that
remains hidden from the immune system. Approaches using pharmacological
HIV-latency-reversal agents to induce latent virus to express viral
protein could make this reservoir vulnerable to T cells. However, the
existing HIV-specific immune response in ART-treated individuals is
insufficient to clear persistent infection, even in the presence of
latency-reversal agents that induce HIV expression.
One safe avenue for harnessing T cell responses to fight HIV is
adoptive cellular therapy. This procedure involves collecting T cells
from a patient, growing them in the laboratory to increase their
numbers, and then giving them back to the patient to help the immune
system fight disease. Earlier adoptive-T-cell-therapy approaches for HIV
had limited efficacy as a result of multiple factors. Since these
earlier attempts, the adoptive-T-cell-therapy field has made significant
advances, largely in the oncology field, that could help to overcome
some of the pitfalls encountered with earlier T-cell-therapy approaches
for HIV. T cells generated by these sophisticated methods of expansion
have been safe and well tolerated, as well as highly effective.
"Before we can combine this approach with treatments meant to bring
HIV out from hiding so the improved immune response can clear it from
the body, we need to first establish that this immunotherapy approach is
safe on its own," says co-senior study author Catherine Bollard of the
Children's National Health System. "We have long-standing experience
treating patients with virus-specific T cells targeting latent viruses
such as Epstein-Barr virus and cytomegalovirus. Therefore, we were
extremely excited to work with the UNC team to adapt this virus-specific
T-cell-therapy approach to the HIV setting."
In the small proof-of-concept study, Margolis, Bollard, and their
collaborators produced ex vivo expanded HIV-specific T cells (HXTCs);
their long-term goal was to use HXTCs as part of a strategy to clear
persistent HIV infection. The researchers administered two infusions of
HXTCs over a 2 week period to six HIV-infected participants whose viral
load had been reduced to an undetectable level by ART.
This treatment was well tolerated and had few adverse events.
Moreover, two patients exhibited a detectable increase in
T-cell-mediated antiviral activity after the two infusions, although the
clinical significance of this mild-to-modest impact is unknown. When
evaluating participants in aggregate, the research team found no overall
enhancement of the magnitude of the HIV-specific immune response. This
could be due to the low dose of the two infusions and the lack of
strategies to promote the expansion of the T cells once they are in the
body.
There was also no decrease in the size of the latent reservoir, most
likely because of the absence of therapies such as latency-reversal
agents, which are designed to perturb the reservoir and induce
recognizable expression of HIV proteins that trigger immune responses.
In the future, a critical question will be whether HXTC therapy in
combination with latency-reversal agents can deplete the HIV reservoir
to an extent that is measurable by current gold-standard assays of HIV
latency. A study of HXTC in combination with the latency-reversal agent
vorinostat is currently undergoing evaluation in an ongoing clinical
trial.
"This is a promising advancement for the field," says first author
Julia Sung of UNC, although she also cautions people against
over-interpreting the results. "The study did not cure HIV and should
not be interpreted as doing so, but we also are very encouraged by the
safety data, so it should not be considered discouraging either. This
paves the way for the next step, which is to combine this immunotherapy
approach with latency-reversal therapy in order to wake up the HIV out
of its latent state, where it is invisible to the immune system, then
clear it out with the immunotherapy."
Journal Reference:
- Julia A. Sung, Shabnum Patel, Matthew L. Clohosey, Lauren Roesch, Tamara Tripic, JoAnn D. Kuruc, Nancie Archin, Patrick J. Hanley, C. Russell Cruz, Nilu Goonetilleke, Joseph J. Eron, Clio M. Rooney, Cynthia L. Gay, Catherine M. Bollard, David M. Margolis. HIV-Specific, Ex Vivo Expanded T Cell Therapy: Feasibility, Safety, and Efficacy in ART-Suppressed HIV-Infected Individuals. Molecular Therapy, 2018; DOI: 10.1016/j.ymthe.2018.08.015
Courtesy: ScienceDaily
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