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Biological constraint, evolutionary spandrels and antagonistic pleiotropy

David Gems, Carina Kern

2024Ageing Research Reviews23 citationsDOIOpen Access PDF

Abstract

Maximum lifespan differs greatly between species, indicating that the process of senescence is largely genetically determined. Senescence evolves in part due to antagonistic pleiotropy (AP), where selection favors gene variants that increase fitness earlier in life but promote pathology later. Identifying the biological mechanisms by which AP causes senescence is key to understanding the endogenous causes of aging and its attendant diseases. Here we argue that the frequent occurrence of AP as a property of genes reflects the presence of constraint in the biological systems that they specify. This arises particularly because the functionally interconnected nature of biological systems constrains the simultaneous optimization of coupled traits (interconnection constraints), or because individual traits cannot evolve (impossibility constraints). We present an account of aging that integrates AP and biological constraint with recent programmatic aging concepts, including costly programs, quasi-programs, hyperfunction and hypofunction. We argue that AP mechanisms of costly programs and triggered quasi-programs are consequences of constraint, in which costs resulting from hyperfunction or hypofunction cause senescent pathology. Impossibility constraint can also cause hypofunction independently of AP. We also describe how AP corresponds to Stephen Jay Gould’s constraint-based concept of evolutionary spandrels, and argue that pathologies arising from AP are bad spandrels . Biological constraint is a conceptual missing link between ultimate and proximate causes of senescence, including diseases of aging. • Genes exhibiting antagonistic pleiotropy (AP) are a major, evolved cause of aging. • The integrated nature of biological systems constrains evolution and causes AP. • Examples of disease-related AP are explicable in terms of biological constraint . • Interconnection constraint leads to AP, hyperfunction and hypofunction. • Pathogenic consequences of AP can be understood as evolutionary bad spandrels .

Topics & Concepts

PleiotropyConstraint (computer-aided design)Evolutionary biologyBiologyMathematicsGeneticsPhenotypeGeneGeometrySpaceflight effects on biologyGenetics, Aging, and Longevity in Model OrganismsCircadian rhythm and melatonin