Basal metabolic rate and the evolution of the adaptive immune system
- 22 April 2002
- journal article
- Published by The Royal Society in Proceedings Of The Royal Society B-Biological Sciences
- Vol. 269 (1493) , 817-821
- https://doi.org/10.1098/rspb.2001.1953
Abstract
Vertebrates have evolved an adaptive immune system in addition to the ancestral innate immune system. It is often assumed that a trade-off between costs and benefits of defence governs the evolution of immunological defence, but the costs and benefits specific to the adaptive immune system are poorly known. We used genetically engineered mice lacking lymphocytes (i.e. mice without adaptive, but with innate, immunity) as a model of the ancestral state in the evolution of the vertebrate immune system. To investigate if the magnitude of adaptive defence is constrained by the energetic costs of producing lymphocytes etc., we compared the basal metabolic rate of normal and lymphocyte-deficient mice. We found that lymphocyte-deficient mice had a higher basal metabolic rate than normal mice with both innate and adaptive immune defence. This suggests that the evolution of the adaptive immune system has not been constrained by energetic costs. Rather, it should have been favoured by the energy savings associated with a combination of innate and adaptive immune defence.Keywords
This publication has 29 references indexed in Scilit:
- Inducible Defense against Pathogens and Parasites: Optimal Choice among Multiple OptionsJournal of Theoretical Biology, 2001
- Survival for Immunity: The Price of Immune System Activation for Bumblebee WorkersScience, 2000
- Cost of resistance: relationship between reduced fertility and increased resistance in a snail—schistosome host—parasite systemProceedings Of The Royal Society B-Biological Sciences, 1999
- Immunity to viruses in B cell‐deficient mice: Influence of antibodies on virus persistence and on T cell memoryEuropean Journal of Immunology, 1996
- The Instructive Role of Innate Immunity in the Acquired Immune ResponseScience, 1996
- New insights into V(D)J recombination and its role in the evolution of the immune systemImmunity, 1995
- Coevolutionary genetics of hosts and parasites with quantitative inheritanceEvolutionary Ecology, 1994
- Mutations in T-cell antigen receptor genes α and β block thymocyte development at different stagesNature, 1992
- A B cell-deficient mouse by targeted disruption of the membrane exon of the immunoglobulin μ chain geneNature, 1991
- Evolution of the Immune Process in VertebratesNature, 1968