Clonal exhaustion as a result of immune deviation
Publication date
2003
Authors
Kesmir, C.
Boer, R.J. de
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Document Type
Article
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Abstract
An overwhelming virus infection that spreads within a few days throughout the
host can cause deletion of the specific cytotoxic T lymphocytes (CTL). This phenomenon
is known as ‘clonal exhaustion’. Current explanations for this phenomenon
are ‘clonal’, and consider either the terminal differentiation of the virusspecific
CTL to an effector phenotype, or the lack of help and antigen presentation
for a specific CTL clone. The virus remains controlled by some other form of
immunity in the exhausted state. Candidates are innate immunity (especially NK
cells andmacrophages) and a T helper type 2 based immune response. Surprisingly,
the role of this other form of immunity in causing exhaustion has been ignored so
far. Developing a mathematical model, we here investigate the possibility that this
inter-clonal immunity is responsible for exhaustion by down regulating the CTL
response. The model is based on previously published exhaustion data for Lymphocytic
choriomeningitis virus as an in vivo model. We demonstrate that several
complicated experiments on clonal exhaustion are consistentwith inter-clonal regulation.
By interpreting the available data with a mathematical model, we compare
this novel mechanism with the mechanisms suggested previously.