The evolution of genomic imprinting: Epigenetic control of mammary gland development and postnatal resource control

Hanin, Geula; Ferguson‐Smith, Anne C.

doi:10.1002/wsbm.1476

Cited by 12 publications

(10 citation statements)

References 105 publications

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“…While Grb10 suppresses growth in offspring, it increases milk production in mother ( Cowley et al, 2014 ). Hanin and Ferguson-Smith (2020) support the idea suggested by Stringer et al (2014) according to which mammary gland represents the functional equivalent of the placenta in the postnatal stage of eutherian mammals, contributing then to the development and growth of offspring. Indeed, mammary gland, by providing milk to the newborn, contributes further to maternal effects on offspring phenotypes, in addition to those that occur during fetal life.…”

Section: Harnessing Livestock Resources For a Fuller Picture Of The I...supporting

confidence: 82%

“…Milk provides the neonate with essential nutritional components and non-nutritional bio-active components, such as growth factors including IGF2 that has been shown to be an important biological regulator of milk production in dairy cattle ( Berkowicz et al, 2011 ). Many studies, mainly in mice, showed that the maternal-offspring interface through lactation is a critical period, suggesting that genetic variation and maternal diets may affect milk composition, leading to lasting effects with alteration of lifelong health ( Hanin and Ferguson-Smith, 2020 ; Rodríguez-González et al, 2020 ; Lean et al, 2022 ).…”

Section: Harnessing Livestock Resources For a Fuller Picture Of The I...mentioning

confidence: 99%

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Livestock species as emerging models for genomic imprinting

Hubert,

Perret,

Riquet

et al. 2024

Front. Cell Dev. Biol.

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Genomic imprinting is an epigenetically-regulated process of central importance in mammalian development and evolution. It involves multiple levels of regulation, with spatio-temporal heterogeneity, leading to the context-dependent and parent-of-origin specific expression of a small fraction of the genome. Genomic imprinting studies have therefore been essential to increase basic knowledge in functional genomics, evolution biology and developmental biology, as well as with regard to potential clinical and agrigenomic perspectives. Here we offer an overview on the contribution of livestock research, which features attractive resources in several respects, for better understanding genomic imprinting and its functional impacts. Given the related broad implications and complexity, we promote the use of such resources for studying genomic imprinting in a holistic and integrative view. We hope this mini-review will draw attention to the relevance of livestock genomic imprinting studies and stimulate research in this area.

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Section: Harnessing Livestock Resources For a Fuller Picture Of The I...supporting

confidence: 82%

Section: Harnessing Livestock Resources For a Fuller Picture Of The I...mentioning

confidence: 99%

Livestock species as emerging models for genomic imprinting

Hubert,

Perret,

Riquet

et al. 2024

Front. Cell Dev. Biol.

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“…These include a better understanding of the early evolutionary history and diversification of GI. A closer look at GI in certain taxa and tissues through integrative omics approaches could for example help clarify the constraints applied to imprinted clusters, the mechanisms that enabled the acquisition of DMRs and the role of transposable elements in the evolution of mammalian development ( Bogutz et al, 2019 ; Hanin and Ferguson-Smith, 2020 ; Hanna and Kelsey, 2021 ; Senft and Macfarlan, 2021 ). Comprehensive genome scans for imprinted genes in species with little or no previous evidence for GI bring important information, since it promotes the understanding of both GI evolution and related phenomena such as methylation reprogramming and allele-specific expression, which regulate key biological processes in vertebrates ( Frésard et al, 2014 ; Zhuo et al, 2017 ; Skvortsova et al, 2019 ).…”

Section: Discussionmentioning

confidence: 99%

Genomic Imprinting in the New Omics Era: A Model for Systems-Level Approaches

Hubert

Demars

2022

Front. Genet.

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Genomic imprinting represents a noteworthy inheritance mechanism leading to allele-specific regulations dependent of the parental origin. Imprinted loci are especially involved in essential mammalian functions related to growth, development and behavior. In this mini-review, we first offer a summary of current representations associated with genomic imprinting through key results of the three last decades. We then outline new perspectives allowed by the spread of new omics technologies tackling various interacting levels of imprinting regulations, including genomics, transcriptomics and epigenomics. We finally discuss the expected contribution of new omics data to unresolved big questions in the field.

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“…Those pups become obese and grow faster than control pups, due to upregulated milk protein synthesis in mice that lack the imprinting regulation. Finally, Hanin hypothesised, that the mammary gland, the source of postnatal nutrition, is similar to the placenta, the prenatal nutrition source, where both have a high rate of parentally imprinted genes [ 20 ].…”

Section: Meeting Reportmentioning

confidence: 99%

Thirteenth Annual ENBDC Workshop: Methods in Mammary Gland Biology and Breast Cancer

Twigger

Sumbal

Bentires‐Alj

et al. 2022

J Mammary Gland Biol Neoplasia

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The thirteenth annual workshop of the European Network for Breast Development and Cancer (ENBDC) Laboratories Annual Workshop took place on the 28–30 April 2022 in Weggis, Switzerland and focused on methods in mammary gland biology and breast cancer. Sixty scientists participated in the ENBDC annual workshop which had not been held in person since 2019 due to the global COVID-19 pandemic. Topics spanned the mammary gland biology field, ranging from lactation biology and embryonic development, single cell sequencing of the human breast, and stunning cutting-edge imaging of the mouse mammary gland and human breast as well as breast cancer research topics including invasive progression of the pre-invasive DCIS stage, metabolic determinants of endocrine therapy resistance, models for lobular breast cancer, and how mutational landscapes of normal breast during age and pregnancy determine cancer risk. The latest findings from participating researchers were presented through oral presentations and poster sessions and included plenty of unpublished work.

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The evolution of genomic imprinting: Epigenetic control of mammary gland development and postnatal resource control

Cited by 12 publications

References 105 publications

Livestock species as emerging models for genomic imprinting

Livestock species as emerging models for genomic imprinting

Genomic Imprinting in the New Omics Era: A Model for Systems-Level Approaches

Thirteenth Annual ENBDC Workshop: Methods in Mammary Gland Biology and Breast Cancer

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