Lymphoma Clinical Trial
Background:
The ability of the immune system to function declines with aging. This is reflected by a
marked decrease in the responsiveness to vaccinations and to infectious agents.
Consequentially, there is a profound reduction in the quality of live and an increased
dependency on the health systems. Studies have shown that the production of B lymphocytes in
the bone marrow declines with aging and long-lived B cells accumulate in the periphery.
Thus, instead of a juvenile repertoire of B cells that is capable to recognize any new
pathogen, the repertoire of the elderly becomes more restricted and fails to respond to new
antigens.
Working hypothesis and aims: We hypothesize that the dramatic change in the cellular
composition in aging reflects homeostasis pressures that are set by long-lived peripheral B
cells. Here, the investigators hypothesize that altering the homeostasis, by active
depletion of the peripheral B cells, will revive B lymphopoiesis in the BM and rejuvenate
the peripheral repertoire of B cells in aging. Consequentially, this will significantly
improve immune responsiveness of aged individuals to new antigenic challenges.
Methods:
The investigators propose a parallel study in human and mouse. For our clinical study we
will use old lymphoma patients that were treated with the B cell depleting therapy,
RITUXIMAB, for transient B cell depletion and established full B cell reconstitution. We
will test the responsiveness of these patients to hepatitis B vaccine and compare it to
aged-matched control group. The investigators will also use old human CD20 transgenic mice
where B cell depletion is imposed by anti human CD20 antibodies. In these experiments we
will study physiological and immunological changes to understand aging mechanisms in the B
lineage.
Expected results: We expect that old patients treated for B cell depletion will have an
increased responsiveness to the hepatitis B vaccine relative to the control group.
Importance:
The investigators propose an efficient approach to improve immune response in the elderly
population. This will increase efficacy of vaccination, reduce morbidity and improve quality
of life. It will also reduce the cost of medical treatment. In addition, this study will
show that senescence in the B lineage can be reversed, which is in contrast to the general
concepts of aging.
Probable implications to the welfare and health of the aged population Medicine:
Improving the immune competence will increase efficacy of vaccination, reduce morbidity, and
reduce dependency on health systems. This will significantly improve the quality of life.
n/a
Allocation: Non-Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label
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