Growth hormone actions during development influence adult phenotype and longevity

Bartke, Andrzej; Sun, Liou Y.; Fang, Yimin; Hill, Cristal M.

doi:10.1016/j.exger.2015.12.011

Cited by 12 publications

(8 citation statements)

References 62 publications

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“…In addition to dramatic hormonal differences after puberty, male fetuses exhibit a surge of testosterone during sexual differentiation in utero (Winter et al, 1977) and both sexes experience activation of the hypothalamic-pituitary-gonadal axis in the first few months of postnatal life (Andersson et al, 1998). The increasing realization that early life events can have manifold later life health impacts make the examination of early life hormonal profiles of particular interest (Bartke et al, 2016; Brakefield et al, 2005; Sonntag et al, 2005). Assuming that the survival advantage is fairly general to female mammals (something that is still unknown), then the anti-oxidant (Mann et al, 2007; Stice et al, 2009) and anti-inflammatory (Benedusi et al, 2012; Villa et al, 2015) properties of estrogen seem like one obvious place to look for an explanation.…”

Section: Mechanisms Of Sex Differences In Longevitymentioning

confidence: 99%

Sex Differences in Lifespan

2016

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SUMMARY Sex differences in longevity can provide insights into novel mechanisms of aging, yet they have been little studied. Surprisingly, sex-specific longevity patterns are better known in wild animals. Evolutionary hypotheses accounting for longevity patterns in natural populations include differential vulnerability to environmental hazards, differential intensity of sexual selection and distinct patterns of parental care. Mechanistic hypotheses focus on asymmetric inheritance of sex chromosomes and mitochondria. Virtually all intensively studied species show conditional sex differences in longevity. Humans are the only species in which one sex is known to have a ubiquitous survival advantage. Paradoxically, although women live longer, they suffer greater morbidity particularly late in life. This mortality-morbidity paradox may be a consequence of greater connective tissue responsiveness to sex hormones in women. Human females’ longevity advantage may result from hormonal influences on inflammatory and immunological responses, or greater resistance to oxidative damage; current support for these mechanisms is weak.

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Section: Mechanisms Of Sex Differences In Longevitymentioning

confidence: 99%

Sex Differences in Lifespan

2016

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“…Ames dwarf mice, that harbor a mutation in the Prop1 gene, are the mutant mice with the longest longevity. When these mice were treated with GH starting at 1 or 2 weeks of age for 6 weeks, their growth trajectory tended towards normal values, and they sustained a reduction in their longevity [39].…”

Section: Endocrine Level Gh/igf-1 and Thyroid Hormone Signalingmentioning

confidence: 99%

Development and Longevity: Cellular and Molecular Determinants – A Mini-Review

2020

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Across species, development and longevity are tightly linked. We discuss the relevant literature and suggest that the root for this stringent relationship is the rate of development. The basis for the relationship between rate of development and longevity lies in adaptations that have occurred through evolution at multiple levels of biological complexity: organism, organ, cellular, and molecular. Thus, the analysis of the relationship is of interest for multiple fields of biology.

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“…Примечание (здесь и в таблице 2): * -надстрочными индексами рядом с медианными значениями исследуемых показателей отмечены номера соответствующих групп наблюдения; ** -надстрочными индексами рядом с р-уровнями статистической значимости отмечены номера соответствующих сравниваемых групп. 0.0006 [3][4] 0.0004 [5][6] 0.00006 [1][2][3] 0.00002 По сравнению с контрольной группой у препубертатных самок крыс Вистар после введения ЛПС относительное и абсолютное число Т-лимфоцитов, в том числе Т-хелперов, Т-цитотоксических и регуляторных Т-лимфоцитов, снижалось. Помимо снижения количества Т-хелперов и Т-цитотоксических лимфоцитов у самцов этого же возраста было обнаружено уменьшение числа В-клеток (рис.…”

Section: результаты исследования и их обсуждениеunclassified

“…Основными регуляторными системами организма, которые могут определять выраженность половых различий устойчивости к заболеваниям у особей мужского и женского пола, являются эндокринная и иммунная системы [2], так как известно, что половые гормоны модулируют развитие иммунного ответа [7]. На протяжении как антенатального, так и раннего постнатального периода развития организм особей мужского и женского пола подвергается резким колебаниям содержания тестостерона и эстрадиола, изменениям функционирования оси гипоталамус-гипофиз-гонады, что может определять функциональную активность иммунной системы [3]. Антиоксидантное и противовоспалительное действие эстрогенов, высокая концентрация которых характерна для особей женского пола, очевидно, является одним из основ-ных механизмов половых различий восприимчивости к заболеваниям и продолжительности жизни.…”

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Sex differences in morphofunctional changes in the immune system in Wistar rats of different age groups with experimental endotoxinemia

Михайловна¹,

Васильевна²

2020

Kursk Scientific and Practical Bulletin “Man and His Health”

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Objective. The aim was revealing gender differences in morphological and functional changes of lymphoid organs (thymus and spleen), changes of cytokine production and subpopulation composition of peripheral blood lymphocytes in Wistar rats of three age groups with endotoxemia. Materials and methods. We used male and female Wistar rats of three age groups: newborns, prepubertal and sexually mature adult rats. A day after the injection of 15 mg/kg of O26:B6 E. coli lipopolysaccharide (LPS), the volume fraction of the functional zones of the thymus and spleen, the number of AnnexinV + apoptotically dying cells in the thymus, the relative and absolute number of lymphocyte subpopulations (CD3+CD4+, CD3+CD8a+, CD4+CD25+Foxp3+, CD3-CD45R+) in peripheral blood and ex vivo production of IL-2, IL-4, IFN-γ and TNF-α were estimated. Results. Sex differences in the response of the immune system after the LPS injection in different age periods are expressed differently: in the neonatal period, there is immunosuppression in females (decrease in the ex vivo production of IL-2, TNF-α and IFN-γ), and there is activation of pro-inflammatory reactions in males (increase in ex vivo production of IL-2 and TNF-α). As compared with other age periods at prepubertal age, LPS-induced immunological disorders are more pronounced, and gender differences are minimal and related only to the number of T-regulatory and B-lymphocytes. In the adults, the LPS-induced immunosuppression is most pronounced in males - they have a decrease in the production of all the cytokines studied and a decrease in the number of cytotoxic and regulatory T-lymphocytes and B-cells. Conclusion. Thus, in each of the studied age periods - newborn, prepubertal and adult, the sexual differences in the immune system reactions are expressed differently and, apparently, these differences are determined by the content of sex steroid hormones, the concentration of which varies with age.

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Growth hormone actions during development influence adult phenotype and longevity

Cited by 12 publications

References 62 publications

Sex Differences in Lifespan

Sex Differences in Lifespan

Development and Longevity: Cellular and Molecular Determinants – A Mini-Review

Sex differences in morphofunctional changes in the immune system in Wistar rats of different age groups with experimental endotoxinemia

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