Your search keyword '"McNamara, Gráinne"' showing total 10 results

1. Epigenetic changes induced by in utero dietary challenge result in phenotypic variability in successive generations of mice

Author

Van de Pette, Mathew, Dimond, Andrew, Galvão, António M., Millership, Steven J., To, Wilson, Prodani, Chiara, McNamara, Gráinne, Bruno, Ludovica, Sardini, Alessandro, Webster, Zoe, McGinty, James, French, Paul M. W., Uren, Anthony G., Castillo-Fernandez, Juan, Watkinson, William, Ferguson-Smith, Anne C., Merkenschlager, Matthias, John, Rosalind M., Kelsey, Gavin, and Fisher, Amanda G.

Published

2022

2. In utero adversity and later life behavioural disorders : the role of Cdkn1c

Author

McNamara, Gráinne

Subjects

616.8, RG Gynecology and obstetrics

Abstract

Genes that are imprinted are subject to a developmentally determined epigenetic marking, which restricts expression to a single allele, dependant on the parent of origin. Selection of imprinted genes for monoallelic expression indicates their function is highly dosage sensitive. Altered dosage of imprinted genes has been linked to a number of neurological conditions, including psychosis. Cdkn1c is an example of an imprinted gene whose expression is sensitive to the in utero environment. Considerable development of the nervous system takes place in utero and suboptimal pregnancies have been linked to the occurrence of psychiatric and other behavioural disorders in adults. One mechanism through which the maternal environment may impact foetal development is by altering the epigenetic regulation of vulnerable genes. A prenatal low protein or high fat diet resulted in alterations in a subset of imprinted gene in the brains of the offspring at E18.5. This was accompanied by sexually dimorphic changes in the dopaminergic system. Previously published findings reporting sensitivity of Cdkn1c to a prenatal low protein diet were replicated with a 1.8 fold increase in neural Cdkn1c expression observed. This was shown to be due to a change in the parental contribution to expression levels of this gene. Modelling the specific alteration of an increase in Cdkn1c genetically (Cdkn1cBACx1 line) revealed anhedonia, but with an increased motivational drive, towards a palatable solution, with corresponding changes in the reward system responsivity and chemistry in the adult brain. Additionally presence of a Cdkn1cBACx1 animal in a group destabilised the social hierarchy, negatively effecting fitness of all group members. An adverse inutero environment increases Cdkn1c levels to those reminiscent of the genetic ‘loss of imprinting’ model. Such alteration in expression of Cdkn1c has significant consequences for adult neurochemistry, reward processing and the social environment and fitness of the group. This work suggests a potentially crucial role, of at least Cdkn1c, and perhaps imprinted genes more generally, in mediating the negative consequences of an adverse in utero environment.

Published

2014

3. Visualizing Changes in Cdkn1c Expression Links Early-Life Adversity to Imprint Mis-regulation in Adults

Author

Van de Pette, Mathew, Abbas, Allifia, Feytout, Amelie, McNamara, Gráinne, Bruno, Ludovica, To, Wilson K, Dimond, Andrew, Sardini, Alessandro, Webster, Zoe, McGinty, James, Paul, Eleanor J, Ungless, Mark A, French, Paul MW, Withers, Dominic J, Uren, Anthony, Ferguson-Smith, Anne C, Merkenschlager, Matthias, John, Rosalind M, Fisher, Amanda G, Commission of the European Communities, Wellcome Trust, Imperial College Trust, Van De Pette, Mathew [0000-0002-1423-5957], Ferguson-Smith, Anne [0000-0003-4996-9990], and Apollo - University of Cambridge Repository

Subjects

Epigenesis, Genetic, Genomic Imprinting, Mice, DOMAIN, Animals, Cyclin-Dependent Kinase Inhibitor p57, DNA METHYLATION, lcsh:QH301-705.5, Alleles, Cdkn1c, Science & Technology, Cell Biology, BECKWITH-WIEDEMANN-SYNDROME, MOUSE DISTAL CHROMOSOME-7, GENE, bioluminescence, Chromatin, environmental stress, MODEL, DEPENDENT KINASE INHIBITOR, MAINTENANCE, lcsh:Biology (General), P57(KIP2), luciferase reporter mice, imprinting, Life Sciences & Biomedicine, STEM-CELLS

Abstract

Imprinted genes are regulated accordin g to parental origin and can influence embryonic growth and metabolism and confer disease susceptibility. Here we designed sensitive allele - specific reporters to non - invasively monitor imprinted Cdkn1c expression in mice and showed that expression was modulated by environmental factors encountered in utero . Acute exposure to chromatin modifying drugs resulted in de - repression of paternally inherited (silent) Cdkn1c alleles in embryos that was temporary and resolved after birth. In contrast, deprivation of maternal dietary protein in utero provoked permanent de - repression of imprinted Cdkn1c expression that was sustained into adulthood and occurred through a folate - dependent mechanism of DNA methylation l oss . Given the function of imprinted genes in regulating behavior and metabolic processes in adults, these results establish imprinting deregulation as a credible mechanism linking early life adversity to later - life outcomes. Furthermore, Cdkn1c - luciferase mice offer non - invasive tools to identify factors that disrupt epigenetic processes and strategies to limit their long - term impact.

Published

2017

4. Genomic Imprinting and Physiological Processes in Mammals

Author

Tucci, Valter, primary, Isles, Anthony R., additional, Kelsey, Gavin, additional, Ferguson-Smith, Anne C., additional, Tucci, Valter, additional, Bartolomei, Marisa S., additional, Benvenisty, Nissim, additional, Bourc’his, Déborah, additional, Charalambous, Marika, additional, Dulac, Catherine, additional, Feil, Robert, additional, Glaser, Juliane, additional, Huelsmann, Lisa, additional, John, Rosalind M., additional, McNamara, Gráinne I., additional, Moorwood, Kim, additional, Muscatelli, Francoise, additional, Sasaki, Hiroyuki, additional, Strassmann, Beverly I., additional, Vincenz, Claudius, additional, and Wilkins, Jon, additional

Published

2019

5. Peg3 Deficiency Results in Sexually Dimorphic Losses and Gains in the Normal Repertoire of Placental Hormones

Author

Tunster, Simon J., primary, Boqué-Sastre, Raquel, additional, McNamara, Gráinne I., additional, Hunter, Susan M., additional, Creeth, Hugo D. J., additional, and John, Rosalind M., additional

Published

2018

6. Territorial Behavior and Social Stability in the Mouse Require Correct Expression of Imprinted Cdkn1c

Author

McNamara, Gráinne I., primary, John, Rosalind M., additional, and Isles, Anthony R., additional

Published

2018

7. Visualizing Changes in Cdkn1cExpression Links Early-Life Adversity to Imprint Mis-regulation in Adults

Author

Van de Pette, Mathew, Abbas, Allifia, Feytout, Amelie, McNamara, Gráinne, Bruno, Ludovica, To, Wilson K., Dimond, Andrew, Sardini, Alessandro, Webster, Zoe, McGinty, James, Paul, Eleanor J., Ungless, Mark A., French, Paul M.W., Withers, Dominic J., Uren, Anthony, Ferguson-Smith, Anne C., Merkenschlager, Matthias, John, Rosalind M., and Fisher, Amanda G.

Abstract

Imprinted genes are regulated according to parental origin and can influence embryonic growth and metabolism and confer disease susceptibility. Here, we designed sensitive allele-specific reporters to non-invasively monitor imprinted Cdkn1cexpression in mice and showed that expression was modulated by environmental factors encountered in utero. Acute exposure to chromatin-modifying drugs resulted in de-repression of paternally inherited (silent) Cdkn1calleles in embryos that was temporary and resolved after birth. In contrast, deprivation of maternal dietary protein in utero provoked permanent de-repression of imprinted Cdkn1cexpression that was sustained into adulthood and occurred through a folate-dependent mechanism of DNA methylation loss. Given the function of imprinted genes in regulating behavior and metabolic processes in adults, these results establish imprinting deregulation as a credible mechanism linking early-life adversity to later-life outcomes. Furthermore, Cdkn1c-luciferasemice offer non-invasive tools to identify factors that disrupt epigenetic processes and strategies to limit their long-term impact.

Published

2017

8. In utero adversity and later life behavioural disorders: the role of Cdkn1c

Author

McNamara, Gráinne

Subjects

RG

Abstract

Genes that are imprinted are subject to a developmentally determined epigenetic marking, which restricts expression to a single allele, dependant on the parent of origin. Selection of imprinted genes for monoallelic expression indicates their function is highly dosage sensitive. Altered dosage of imprinted genes has been linked to a number of neurological conditions, including psychosis. Cdkn1c is an example of an imprinted gene whose expression is sensitive to the in utero environment. Considerable development of the nervous system takes place in utero and suboptimal pregnancies have been linked to the occurrence of psychiatric and other behavioural disorders in adults. One mechanism through which the maternal environment may impact foetal development is by altering the epigenetic regulation of vulnerable genes. A prenatal low protein or high fat diet resulted in alterations in a subset of imprinted gene in the brains of the offspring at E18.5. This was accompanied by sexually dimorphic changes in the dopaminergic system. Previously published findings reporting sensitivity of Cdkn1c to a prenatal low protein diet were replicated with a 1.8 fold increase in neural Cdkn1c expression observed. This was shown to be due to a change in the parental contribution to expression levels of this gene. Modelling the specific alteration of an increase in Cdkn1c genetically (Cdkn1cBACx1 line) revealed anhedonia, but with an increased motivational drive, towards a palatable solution, with corresponding changes in the reward system responsivity and chemistry in the adult brain. Additionally presence of a Cdkn1cBACx1 animal in a group destabilised the social hierarchy, negatively effecting fitness of all group members. An adverse inutero environment increases Cdkn1c levels to those reminiscent of the genetic ‘loss of imprinting’ model. Such alteration in expression of Cdkn1c has significant consequences for adult neurochemistry, reward processing and the social environment and fitness of the group. This work suggests a potentially crucial role, of at least Cdkn1c, and perhaps imprinted genes more generally, in mediating the negative consequences of an adverse in utero environment.

9. In utero adversity and later life behavioural disorders: the role of Cdkn1c

Author

McNamara, Gráinne and McNamara, Gráinne

Abstract

Genes that are imprinted are subject to a developmentally determined epigenetic marking, which restricts expression to a single allele, dependant on the parent of origin. Selection of imprinted genes for monoallelic expression indicates their function is highly dosage sensitive. Altered dosage of imprinted genes has been linked to a number of neurological conditions, including psychosis. Cdkn1c is an example of an imprinted gene whose expression is sensitive to the in utero environment. Considerable development of the nervous system takes place in utero and suboptimal pregnancies have been linked to the occurrence of psychiatric and other behavioural disorders in adults. One mechanism through which the maternal environment may impact foetal development is by altering the epigenetic regulation of vulnerable genes. A prenatal low protein or high fat diet resulted in alterations in a subset of imprinted gene in the brains of the offspring at E18.5. This was accompanied by sexually dimorphic changes in the dopaminergic system. Previously published findings reporting sensitivity of Cdkn1c to a prenatal low protein diet were replicated with a 1.8 fold increase in neural Cdkn1c expression observed. This was shown to be due to a change in the parental contribution to expression levels of this gene. Modelling the specific alteration of an increase in Cdkn1c genetically (Cdkn1cBACx1 line) revealed anhedonia, but with an increased motivational drive, towards a palatable solution, with corresponding changes in the reward system responsivity and chemistry in the adult brain. Additionally presence of a Cdkn1cBACx1 animal in a group destabilised the social hierarchy, negatively effecting fitness of all group members. An adverse inutero environment increases Cdkn1c levels to those reminiscent of the genetic ‘loss of imprinting’ model. Such alteration in expression of Cdkn1c has significant consequences for adult neurochemistry, reward processing and the social environment and fitne

10. In utero adversity and later life behavioural disorders: the role of Cdkn1c

Author

McNamara, Gráinne and McNamara, Gráinne

Abstract

Genes that are imprinted are subject to a developmentally determined epigenetic marking, which restricts expression to a single allele, dependant on the parent of origin. Selection of imprinted genes for monoallelic expression indicates their function is highly dosage sensitive. Altered dosage of imprinted genes has been linked to a number of neurological conditions, including psychosis. Cdkn1c is an example of an imprinted gene whose expression is sensitive to the in utero environment. Considerable development of the nervous system takes place in utero and suboptimal pregnancies have been linked to the occurrence of psychiatric and other behavioural disorders in adults. One mechanism through which the maternal environment may impact foetal development is by altering the epigenetic regulation of vulnerable genes. A prenatal low protein or high fat diet resulted in alterations in a subset of imprinted gene in the brains of the offspring at E18.5. This was accompanied by sexually dimorphic changes in the dopaminergic system. Previously published findings reporting sensitivity of Cdkn1c to a prenatal low protein diet were replicated with a 1.8 fold increase in neural Cdkn1c expression observed. This was shown to be due to a change in the parental contribution to expression levels of this gene. Modelling the specific alteration of an increase in Cdkn1c genetically (Cdkn1cBACx1 line) revealed anhedonia, but with an increased motivational drive, towards a palatable solution, with corresponding changes in the reward system responsivity and chemistry in the adult brain. Additionally presence of a Cdkn1cBACx1 animal in a group destabilised the social hierarchy, negatively effecting fitness of all group members. An adverse inutero environment increases Cdkn1c levels to those reminiscent of the genetic ‘loss of imprinting’ model. Such alteration in expression of Cdkn1c has significant consequences for adult neurochemistry, reward processing and the social environment and fitne