HIV Clinical Trial
Official title:
A Phase I/II, Open-label, Single Center Study to Evaluate the Tolerability, Trafficking and Therapeutic Effects of Repeated Doses of Autologous T Cells Transduced With VRX496 in HIV Infected Subjects
The study is intended for individuals who are doing well on HAART therapy. In Step 1 of the
trial, individuals will be given up to 6 infusions of the study drug VRX496 to see the effect
on viral load and CD4 counts. If individuals have no serious adverse effects from the
infusions of VRX496 and the viral load and CD4 counts remain stable, they may go on to Step 2
of the study. In Step 2, individuals will stop taking their HAART medication and their viral
load, CD4 counts and the number of VRX496 in T cells will be monitored.
All subjects who receive VRX496 T cells will enroll in a Long-Term Follow-up study to monitor
subjects. Subjects will be followed every 6 months for five years following the 1st infusion
of the T cells. If the VRX496 T cells are no longer found in the blood after five years, then
subjects will be contacted yearly for the next 10 years. If the VRX496 T cells are found in
the blood at five years after the 1st infusion of T cells, then the subjects will continue to
be seen once a year until the VRX496 T cells are no longer found in the blood for a maximum
of 15 years.
HIV-based antisense vectors may provide several important advantages over current HIV
combination therapies. VIRxSYS Corporation (VIRxSYS) is developing the candidate clinical
vector VRX496. VRX496 is an HIV-based lentiviral vector containing an anti-HIV antisense
sequence targeted to the HIV envelope (env) coding sequence. First, HIV-1 vectors are likely
to be less toxic than current combination drug therapies because the genetic antisense
antiviral is expressed only in cells that become infected with wt-HIV. The payload is located
upstream of a major splice acceptor site and is thus dependent on the expression of Tat and
Rev proteins that are provided by wt-HIV. Second, the length of the antisense region is over
900 nucleotides long, making it difficult for wt-HIV to create resistant strains that are
sufficiently fit to cause disease. Third, HIV vectors are predicted to be safe because no
novel genetic sequences are introduced into the patient (i.e., no novel functional genes are
contained in the HIV-1 vector). All the sequences present in the vector are derived from
highly conserved regions of wt-HIV that would almost certainly be present in any
HIV-1-infected individual. The HIV sequences that are used to create VRX496 are solely
derived from pNL4-3, a prototypic HIV-1 molecular clone that is derived from two North
American strains of HIV-1.
In the present trial, T cells will be harvested from infected individuals, transduced ex vivo
with the vector at the University of Pennsylvania, and then reintroduced by autologous
transfusions. VIRxSYS recently completed a Phase 1 clinical study at the University of
Pennsylvania of the vector VRX496 in 5 HIV-positive subjects who had failed at least two
HAART regimens. Data available to date for the primary endpoints, viral load and CD4 counts,
are promising. Specifically, 4 of 5 subjects had stable or increased CD4 counts, and viral
loads were stable in 4 of 5 patients, and decreased by 1.7 log in 1 of 5 subjects following a
single infusion of VRX496 T cells. In the present trial, subjects will receive up to 6
infusions of VRX496 modified CD4 T cells, and then undergo a series of tests, including
rectal mucosal biopsies, to determine the longevity and trafficking of the VRX496 T cells. In
addition, subjects will have the opportunity to have a supervised drug holiday (structured
treatment interruption) to determine if the VRX496 have an antiviral effect.
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