The Suppression of Immune System Disorders by Passive Attrition

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2010 Mar 20

PMID 20300517

Citations 2

Authors

Sean P Stromberg

Jean M Carlson

Affiliations

Soon will be listed here.

Abstract

Exposure to infectious diseases has an unexpected benefit of inhibiting autoimmune diseases and allergies. This is one of many fundamental fitness tradeoffs associated with immune system architecture. The immune system attacks pathogens, but also may (inappropriately) attack the host. Exposure to pathogens can suppress the deleterious response, at the price of illness and the decay of immunity to previous diseases. This "hygiene hypothesis" has been associated with several possible underlying biological mechanisms. This study focuses on physiological constraints that lead to competition for survival between immune system cell types. Competition maintains a relatively constant total number of cells within each niche. The constraint implies that adding cells conferring new immunity requires loss (passive attrition) of some cells conferring previous immunities. We consider passive attrition as a mechanism to prevent the initial proliferation of autoreactive cells, thus preventing autoimmune disease. We see that this protection is a general property of homeostatic regulation and we look specifically at both the IL-15 and IL-7 regulated niches to make quantitative predictions using a mathematical model. This mathematical model yields insight into the dynamics of the "Hygiene Hypothesis," and makes quantitative predictions for experiments testing the ability of passive attrition to suppress immune system disorders. The model also makes a prediction of an anti-correlation between prevalence of immune system disorders and passive attrition rates.

Citing Articles

Analysis of phenolic compounds and immunomodulatory activity of areca nut extract from Aceh, Indonesia, against infection in Sprague-Dawley rats.

Sari L, Hakim R, Mubarak Z, Andriyanto A Vet World. 2020; 13(1):134-140.

PMID: 32158163 PMC: 7020107. DOI: 10.14202/vetworld.2020.134-140.

Coevolutionary immune system dynamics driving pathogen speciation.

Schlesinger K, Stromberg S, Carlson J PLoS One. 2014; 9(7):e102821.

PMID: 25054623 PMC: 4108359. DOI: 10.1371/journal.pone.0102821.

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