Inverse Lansing Effect: Maternal Age and Provisioning Affecting Daughters’ Longevity and Male Offspring Production

Anderson, Cora E.; Malek, Morad; Jonas-Closs, Rachael A; Cho, Yong-Min; Peshkin, Leonid; Kirschner, Marc W.; Yampolsky, Lev Y.

doi:10.1086/721148

Cited by 7 publications

(14 citation statements)

References 82 publications

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“…Thus, the authors concluded that increased early life reproduction traded-off with lifespan and that maternal age effects were a result of better offspring provisioning by older mothers. Similarly, Anderson and colleagues [20] studied multiple strains of Daphnia magna and found an “inverse Lansing Effect” in some strains, in which offspring of older mothers lived longer than offspring of younger mothers. They hypothesized that this inverse effect could be a result of decreased lipid offspring provisioning by older mothers, which could result in embryonic caloric restriction.…”

Section: Discussionmentioning

confidence: 99%

“…In Daphnia pulex , advanced maternal age decreased offspring lifespan in two of three clones studied, but advanced maternal age led to higher growth rates in offspring in all three clones [19]. In Daphnia magna , five clones showed positive, negative, and neutral maternal age effects on lifespan [20]. Such high intraspecific variability in maternal age effects within these model arthropods and rotifers demonstrates the importance of including multiple strains or populations in future studies of maternal age effects in other clades.…”

Section: Discussionmentioning

confidence: 99%

“…Analyses among species are limited by multiple confounding variables, but within species we can compare populations or strains with relatively similar genetics, morphology, life history strategies, and environments, but distinct vital rates. Studies of Daphnia [19,20], Drosophila [4,11,21,22], and other insects [23] provide examples of high variability in the magnitude and direction of parental age effects on lifespan, development, fecundity, or embryonic diapause among strains and populations. To understand whether intraspecific variability in maternal age effects is typical, additional experimental studies of other clades are needed.…”

Section: Introductionmentioning

confidence: 99%

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Maternal age effects on offspring lifespan and reproduction vary within a species

Liguori

Korm

Profetto

et al. 2023

Preprint

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Across diverse taxa, offspring from older mothers have decreased lifespan and fitness. Little is known about whether such maternal age effects vary among genotypes for a given species, however. We compared maternal age effects among four strains of rotifers in theBrachionus plicatilisspecies complex. For each strain, we measured lifespan, reproductive schedule, and lifetime reproductive output of offspring produced by young, middle-aged, and old mothers. We found unexpected variability among strains in the magnitude and direction of maternal age effects on offspring life history traits. In one strain, offspring of young mothers lived 20% longer than offspring of old mothers, whereas there were no significant effects of maternal age on lifespan for the other strains. Across strains, advanced maternal age had positive effects, negative effects, or no effect on lifetime reproductive output. For all but one strain, older mothers produced offspring that had higher maximum daily reproduction early in life. Maternal age effects appear to be genetically determined traits, not features of life history strategy or due to accumulation of age-related damage in the germline. Investigating intraspecific variability is critical for understanding the ubiquity of maternal age effects and their role in the evolution of life history and aging.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Maternal age effects on offspring lifespan and reproduction vary within a species

Liguori

Korm

Profetto

et al. 2023

Preprint

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“…In this study we focus on the regularly occurring cases of late-life restoration of reproductive function in Daphnia - a freshwater planktonic crustacean that is a classic model organism in aging and longevity research (Ingle 1933), which is enjoying a revival due to contemporary genomic tools (Miner et al 2012), generating a significant new data on aging (Schumpert et al 2015; Constantinou et al 2019; Cai et al 2020; Hearn et a; 2021; Nguyen et al 2021; Anderson et al 2022; Cho et al 2022). Daphnia are particularly suitable for cohort longevity and reproductive senescence studies because their reproduction mode, the cyclic parthenogenesis, allows to create cohorts of genetically identical and yet fully outbred individuals, thus providing an advantage over the use of inbred lined customary in Drosophila or C. elegans longevity studies.…”

Section: Introductionmentioning

confidence: 99%

“…Our previous studies on aging hallmarks in Daphnia indicate that mitochondrial dysfunction is an unlikely cause of aging (and therefore its reversal an unlikely cause of reproductive rejuvenation), as little if any reduction of respiratory activity of mitochondrial membrane potential occurs at old age (Anderson et al 2022). On the other hand, accumulation of oxidized lipids and misfolded proteins in the forms of lipofucsins and amyloids has been shown to increase with age (Lowman & Yampolsky 2023).…”

Section: Introductionmentioning

confidence: 99%

Post-senescence reproductive rebound inDaphniaassociated with reversal of age-related transcriptional changes

Dua,

Pearson,

Lowman

et al. 2024

Preprint

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A long-lived species of zooplankton microcrustaceans,Daphnia magna,sometimes exhibits late-life rebound of reproduction, briefly reversing reproductive senescence. Such events are often interpreted as terminal investment in anticipation of imminent mortality. We demonstrate that such post-senescence reproductive events (PSREs) neither cause not anticipate increased mortality. We analyze an RNAseq experiment comparing young, old reproductively senescent, and old PSREDaphniafemales. We first show that overall age-related transcriptional changes are dominated by the increase transcription of guanidine monophosphate synthases and guanylate cyclases, as well as two groups of presumed transposon-encoded proteins and by a drop in transcription of protein synthesis-related genes. We then focus on gene families and functional groups in which full or partial reversal of age-related transcriptional changes occur. This analysis reveals reversal, in the PSRE individuals, of age-related up-regulation of apolipoproteins D, lysosomal lipases, and peptidases and of age-related down-regulation of E3 ubiquitin kinases, V-type proton ATPases, and numerous proteins related to mitochondrial and muscle functions. While it is certain which of these changes enable reproductive rejuvenation, and which are by-products of processes that lead to it, we present some evidence that post-senescence reproductive events are associated with the reversal of age-related protein and lipid aggregates removal, apoptosis, and with restoration of mitochondrial integrity.

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Maternal age effects on offspring lifespan and reproduction vary within a species

Liguori,

Korm,

Profetto

et al. 2024

Ecology and Evolution

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Across diverse taxa, offspring from older mothers have decreased lifespan and fitness. Little is known about the extent to which maternal age effects vary among genotypes for a given species, however, except for studies of a few arthropod species. To investigate the presence and degree of intraspecific variability in maternal age effects, we compared lifespan, reproductive schedule, and lifetime reproductive output of offspring produced by young, middle‐aged, and old mothers in four strains of rotifers in the Brachionus plicatilis species complex. We found significant variability among strains in the magnitude and direction of maternal age effects on offspring life history traits. In one strain, offspring of young mothers lived 20% longer than offspring of old mothers, whereas there were no significant effects of maternal age on lifespan for other strains. Depending on strain, advanced maternal age had positive effects, negative effects, or no effect on lifetime reproductive output. Across strains, older mothers produced offspring that had higher maximum daily reproduction early in life. The effects of maternal age on offspring vital rates could not be explained by changes in trade‐offs between lifespan and reproduction. This study documents intraspecific variability in maternal age effects in an additional clade. Investigating intraspecific variability is critical for understanding the ubiquity of maternal age effects and their role in the evolution of life history and aging.

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Inverse Lansing Effect: Maternal Age and Provisioning Affecting Daughters’ Longevity and Male Offspring Production

Cited by 7 publications

References 82 publications

Maternal age effects on offspring lifespan and reproduction vary within a species

Maternal age effects on offspring lifespan and reproduction vary within a species

Post-senescence reproductive rebound inDaphniaassociated with reversal of age-related transcriptional changes

Maternal age effects on offspring lifespan and reproduction vary within a species

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