Abstract
We study processes by which T-lymphocytes 'learn' to discriminate 'self' from 'non-self'. We show that intrinsic features of the T cell activation and proliferation process are sufficient to tolerize (self) reactive T-lymphocyte clones. Self vs non-self discrimination therefore develops without any down-regulatory (e.g. suppressive) interactions. T-lymphocyte clones will expand by proliferation only if the IL2 concentratin is high enough to induce a proliferation rate larger than the rate of cell decay. This concentration is the proliferation threshold. Because effector T cells are short-lived the proliferation threshold must be quite high. Such high numbers of cells producing IL2 are achieved only when sufficient (memory) precursors are activated. Self and non-self antigens differ with respect the number of (memory) precursor cells they accumulate, as a result of two processes, i.e. precursor depletion and memory accumulation, and can thus be discriminated. Precursor depletion: the dynamics of long-lived precursors can cause tolerization. In neonatal circumstances precursors influx is still low, newborn cells reacting with self antigens are immediately activated, generating (few), i.e. fewer than the proliferation threshold, effectors that decay rapidly. Thus total lymphocyte numbers remain low, yielding self tolerance. Conversely, large doses of similar antigens introduced in mature systems push 'their' lymphocyte clone over the proliferation threshold because a large (accumulated) precursor population is rapidly activated. Small doses are however low zone tolerized. Memory accumulation: peripheral T-lymphocyte populations in fact consist of a mixture of virgin precursors and memory cells. If the formation process of (long-lived) memory cells is taken into account and virgin precursors are made short-lived, the proliferation threshold again accounts for self non-self discrimination. Memory cells accumulate when antigenic restimulation is low; it is low when the antigen concentration and/or the antigen affinity is low. Therefore self antigens, which are present in relatively high concentrations, fail to accumulate high affinity memory cells, and are hence tolerated. Memory cells crossreacting to self antigens with low affinity, however accumulate neonatally, pushing those clones over the proliferation threshold whenever 'their' high affinity antigen enters the immune sytem. Thus the model generates differences in the antigenicity (i.e. memory precursor frequency) of self and non-self. We conclude that the neonatal T cell repertoire is strongly influenced by the self environment: clones with high affinity to self remain small and unresponsive whereas clones with low self-affinity are enriched. Such enlarged memory clones can be precursor depleted again by low doses of antigen, thus yielding low zone tolerance.
Original language | English |
---|---|
Pages (from-to) | 343-369 |
Number of pages | 27 |
Journal | Journal of Theoretical Biology |
Volume | 124 |
Issue number | 3 |
DOIs | |
Publication status | Published - 4 Nov 1987 |
Externally published | Yes |
Keywords
- interleukin 2
- biological model
- cell activity
- cell growth
- clone
- immunological memory
- immunological tolerance
- nonhuman
- T lymphocyte