AI Article Synopsis
- C. elegans, a genetic model organism, shows that males have a greater resistance to environmental stressors like heat and oxidants compared to hermaphrodites.
- Resistance patterns are consistent across multiple strains, indicating a species-wide trait rather than a domestication effect.
- Findings suggest that differences in stress resistance relate to the sex differentiation factor TRA-1 and may inform our understanding of sex-specific factors in survival, aging, and disease dynamics.
Article Abstract
Physiological responses to the environment, disease, and aging vary by sex in many animals, but mechanisms of dimorphism have only recently begun to receive careful attention. The genetic model nematode Caenorhabditis elegans has well-defined mechanisms of stress response, aging, and sexual differentiation. C. elegans has males, but the vast majority of research only uses hermaphrodites. We found that males of the standard N2 laboratory strain were more resistant to hyperosmolarity, heat, and a natural pro-oxidant than hermaphrodites when in mixed-sex groups. Resistance to heat and pro-oxidant were also male-biased in three genetically and geographically diverse C. elegans strains consistent with a species-wide dimorphism that is not specific to domestication. N2 males were also more resistant to heat and pro-oxidant when keep individually indicating that differences in resistance do not require interactions between worms. We found that males induce canonical stress response genes by similar degrees and in similar tissues as hermaphrodites suggesting the importance of other mechanisms. We find that resistance to heat and pro-oxidant are influenced by the sex differentiation transcription factor TRA-1 suggesting that downstream organ differentiation pathways establish differences in stress resistance. Environmental stress influences survival in natural environments, degenerative disease, and aging. Understanding mechanisms of stress response dimorphism can therefore provide insights into sex-specific population dynamics, disease, and longevity.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9371273 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0272452 | PLOS |
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