Follicular Lymphoma Clinical Trial
Official title:
Phase II Clinical Trial of Immunotherapy With Rituximab and Autologous Effector Lymphocytes in Patients With Non-Hodgkin Follicular Lymphoma in Response to First Line Chemotherapy
Nowadays, therapy with monoclonal antibodies is considered to be a standard treatment that
increases the rate of remissions and the overall survival in patients with follicular
lymphoma. Nevertheless there are an important number of patients who do not benefit from this
therapy. A way to improve the efficiency of monoclonal antibodies therapy could be to improve
the activity of the effector arm of the immune system. A strategy that has been proposed to
obtain this improvement is the utilization of lymphocyte activated killer (LAK) cells. In
addition, the combination of LAK cells with monoclonal antibodies might obtain an additive
effect across the stimulation of the antibody dependent cellular cytotoxicity (ADCC)activity.
The present clinical assay proposes to study the feasibility, safety and effectiveness of
treatment with autologous effector cells expanded ex vivo associated with a standard
maintenance treatment with rituximab in patients with follicular lymphoma in remission after
first-line treatment. In addition, we plan to analyse various biological parameters that can
predict the susceptibility of patients to treatment with rituximab. Specifically, we propose
to study the polymorphisms of Fc receptor, polymorphisms related to the ability of complement
activation, to study both the complement activity and peripheral blood cell subpopulations
that can mediate directly or indirectly dependent antibody cytotoxic effect. We will also try
to correlate any of these biological parameters with the response to treatment.
There are many mechanisms involved in the antitumor effect of the antibodies including the
induction of apoptosis, blocking angiogenesis, blockade of intracellular signaling pathways,
and activation of complement leading to lysis of tumor cells. However it appears that the
antibody-dependent cellular cytotoxicity (ADCC) is one of the predominant mechanisms of
action. It is important to note that in order to obtain a powerful ADCC effect it is
necessary the action of the antibody but also the activity of the effector cell, and thus the
competence of the immune system of the guest. There are different cellular subpopulations
that mediate the ADCC effect. CTL and NK are two of these subpopulations that can be reduced
in patients with cancer.
A way to improve the efficiency of the monoclonal antibodies would be to improve the activity
of the effector arm of the immune system. A strategy that that has been planed is the
utilization of LAK cells. The culture of lymphocytes of peripheral blood with IL-2 activates
the subpopulations of killer cells. This population of killer cells activated with cytokines
(LAK: lymphokine activated killer) has a high number of NK and CTL cells, both with increased
cytotoxic capacity. It has been demonstrated that the immunotherapy with LAK cells might be
an effective and sure treatment for patients with follicular lymphoma.
In a murine model it has been demonstrated that LAK cells associated with monoclonal
antibodies increase the antitumoral activity when compared to the administration of
antibodies alone. In addition, in this model the combination was also superior to the
administration of monoclonal antibodies + IL-2 (Schultz et al., 1990). Other investigators
have demonstrated similar results. This information supports the idea of the combined therapy
consisting in LAK with anti-CD20 antibodies. This therapy can induce a destruction of CD20
positive cells greater than that with the monoclonal antibodies alone. In addition, it has
been reported that the administration of systemic IL-2 and LAK cells improves the ADCC in
lymphoma patients treated with rituximab. It is a small pilot study, with 10 patients. Seven
of them received LAK cells following a programmed way. The safety of the treatment and the
promising results demonstrated in this study encourage to investigate in this line.
Since one of the mechanisms of action of the monoclonal antibodies is to promote ADCC , our
hypothesis is that the treatment with a suspension of autologous effector lymphocytes
expanded ex-vivo with culture should modify the biological effect of the treatment with
rituximab in follicular lymphoma patients, with an acceptable safety profile, and probably
increasing the efficiency of the monoclonal antibodies. In order to evaluate this hypotesis
we propose an open, prospective, historically controlled, phase II clinical study in patients
with follicular lymphoma who have achieved a remission after first-line therapy including the
anti-CD20 monoclonal antibody rituximab and chemotherapy.
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