2014
DOI: 10.1093/gerona/glu114
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Genetic Regulation of Female Sexual Maturation and Longevity Through Circulating IGF1

Abstract: We previously reported that insulin-like growth factor 1 (IGF1) was involved in coregulating female sexual maturation and longevity. To understand the underlying genetic mechanisms, based on the strain survey assays of development and aging traits, we crossed two mouse strains, KK/HIJ and PL/J, and produced 307 female F2 mice. We observed the age of vaginal patency (AVP) and the life span of these females. We also measured circulating IGF1 level at 7, 16, 24, 52, and 76 weeks. IGF1 level at 7 weeks significant… Show more

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Cited by 10 publications
(8 citation statements)
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“…Additionally, it has been shown before that lower GH/IGF levels correlate with increased lifespan and delayed sexual maturation in different strains of mice, which also indicates the existence of a tradeoff between growth rate, sexual maturation and longevity (Yuan et al, 2012; Yuan et al, 2015). The FoxO transcription factor can be a central player in this regulation, since its increased activation is linked to accelerated aging in several model organisms (Kenyon, 2010).…”
Section: Discussionmentioning
confidence: 91%
“…Additionally, it has been shown before that lower GH/IGF levels correlate with increased lifespan and delayed sexual maturation in different strains of mice, which also indicates the existence of a tradeoff between growth rate, sexual maturation and longevity (Yuan et al, 2012; Yuan et al, 2015). The FoxO transcription factor can be a central player in this regulation, since its increased activation is linked to accelerated aging in several model organisms (Kenyon, 2010).…”
Section: Discussionmentioning
confidence: 91%
“…Importantly, this relationship was also shown in individual mice from a genetically heterogeneous population produced by crossing inbred animals [107]. Furthermore, in a study of multiple mouse strains, longevity was negatively related to circulating IGF-1 levels [108]. The same study provided evidence that female sexual maturation is occurring later in mice from longer living strains, thus resembling the findings in long-lived GH-related mutants [109, 110].…”
Section: What Is the Relevance Of Findings In Mutant Mice To Our Undementioning
confidence: 83%
“…This is in spite of the fact that the bulk of information gathered from studies in various animal species (including humans) is in general agreement. To reiterate some of the key findings discussed earlier in this article: In laboratory mice, GH-deficiency or resistance is associated with extension of healthspan, delayed onset and reduced incidence of age-related disease and a remarkable extension of longevity [20, 21, 43, 44];In humans, the same endocrine syndromes are associated with protection from some of the age-related diseases [44, 145], and from insulin resistance [146];In endocrinologically normal humans, genetic polymorphisms in genes related to the somatotropic axis and its downstream target FOXO3, and variation in the level of IGF-1 are associated with differences in the “risk” of achieving exceptional longevity [119, 121123];Adult body size, a GH/IGF-1 dependent trait, is associated with extended longevity in laboratory rodents (including both normal and genetically altered animals) [44, 105108], in various domestic animals (carnivores and ungulates) [114117], and also, albeit less consistently, in the human [118, 119]. …”
Section: Emerging Conclusion: How Can the Seemingly Contradictory Fimentioning
confidence: 99%
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“…This prediction is supported by the fact that the onset of senescence often correlates with the sexual and reproductive maturation of the animal [18, 115, 119, 120]. ROS signaling [121] can promote mammalian cell differentiation [122, 123], sexual differentiation in yeasts [124, 125] and reproduction in humans [126, 127].…”
Section: Genes With Sexual Antagonistic Pleiotropy (Sap)mentioning
confidence: 99%