Disturbed genomic imprinting and its relevance for human reproduction: causes and clinical consequences
Disturbed genomic imprinting and its relevance for human reproduction: causes and clinical consequences
Background: Human reproductive issues affecting fetal and maternal health are caused by numerous exogenous and endogenous factors, of which the latter undoubtedly include genetic changes. Pathogenic variants in either maternal or offspring DNA are associated with effects on the offspring including clinical disorders and nonviable outcomes. Conversely, both fetal and maternal factors can affect maternal health during pregnancy. Recently, it has become evident that mammalian reproduction is influenced by genomic imprinting, an epigenetic phenomenon that regulates the expression of genes according to their parent from whom they are inherited. About 1% of human genes are normally expressed from only the maternally or paternally inherited gene copy. Since numerous imprinted genes are involved in (embryonic) growth and development, disturbance of their balanced expression can adversely affect these processes. Objective and Rationale: This review summarises current our understanding of genomic imprinting in relation to human ontogenesis and pregnancy and its relevance for reproductive medicine. Search Methods: Literature databases (Pubmed, Medline) were thoroughly searched for the role of imprinting in human reproductive failure. In particular, the terms 'multilocus imprinting disturbances, SCMC, NLRP/NALP, imprinting and reproduction' were used in various combinations. Outcomes: A range of molecular changes to specific groups of imprinted genes are associated with imprinting disorders, i.e. syndromes with recognisable clinical features including distinctive prenatal features. Whereas the majority of affected individuals exhibit alterations at single imprinted loci, some have multi-locus imprinting disturbances (MLID) with less predictable clinical features. Imprinting disturbances are also seen in some nonviable pregnancy outcomes, such as (recurrent) hydatidiform moles, which can therefore be regarded as a severe form of imprinting disorders. There is growing evidence that MLID can be caused by variants in the maternal genome altering the imprinting status of the oocyte and the embryo, i.e. maternal effect mutations. Pregnancies of women carrying maternal affect mutations can have different courses, ranging from miscarriages to birth of children with clinical features of various imprinting disorders. Wider Implications: Increasing understanding of imprinting disturbances and their clinical consequences have significant impacts on diagnostics, counselling and management in the context of human reproduction. Defining criteria for identifying pregnancies complicated by imprinting disorders facilitates early diagnosis and personalised management of both the mother and offspring. Identifying the molecular lesions underlying imprinting disturbances (e.g. maternal effect mutations) allows targeted counselling of the family and focused medical care in further pregnancies.
(multi-locus) imprinting disturbances, genomic imprinting, human reproduction, hydatidiform moles, maternal effect mutations, miscarriages, perinatal management, subcortical maternal complex
197-213
Elbracht, Miriam
5339fd62-c2b3-41d4-9d35-9578c309c58e
Mackay, Deborah
588a653e-9785-4a00-be71-4e547850ee4a
Begemann, Matthias
e6e9fa94-7d5c-4a79-86b4-6e17e685f433
Kagan, Karl Oliver
a234b4b4-2923-467a-ad72-3868fe207213
Eggermann, Thomas
f65876e2-0250-48e9-be6c-40abd9b43a6f
18 February 2020
Elbracht, Miriam
5339fd62-c2b3-41d4-9d35-9578c309c58e
Mackay, Deborah
588a653e-9785-4a00-be71-4e547850ee4a
Begemann, Matthias
e6e9fa94-7d5c-4a79-86b4-6e17e685f433
Kagan, Karl Oliver
a234b4b4-2923-467a-ad72-3868fe207213
Eggermann, Thomas
f65876e2-0250-48e9-be6c-40abd9b43a6f
Elbracht, Miriam, Mackay, Deborah, Begemann, Matthias, Kagan, Karl Oliver and Eggermann, Thomas
(2020)
Disturbed genomic imprinting and its relevance for human reproduction: causes and clinical consequences.
Human Reproduction Update, 26 (2), .
(doi:10.1093/humupd/dmz045).
Abstract
Background: Human reproductive issues affecting fetal and maternal health are caused by numerous exogenous and endogenous factors, of which the latter undoubtedly include genetic changes. Pathogenic variants in either maternal or offspring DNA are associated with effects on the offspring including clinical disorders and nonviable outcomes. Conversely, both fetal and maternal factors can affect maternal health during pregnancy. Recently, it has become evident that mammalian reproduction is influenced by genomic imprinting, an epigenetic phenomenon that regulates the expression of genes according to their parent from whom they are inherited. About 1% of human genes are normally expressed from only the maternally or paternally inherited gene copy. Since numerous imprinted genes are involved in (embryonic) growth and development, disturbance of their balanced expression can adversely affect these processes. Objective and Rationale: This review summarises current our understanding of genomic imprinting in relation to human ontogenesis and pregnancy and its relevance for reproductive medicine. Search Methods: Literature databases (Pubmed, Medline) were thoroughly searched for the role of imprinting in human reproductive failure. In particular, the terms 'multilocus imprinting disturbances, SCMC, NLRP/NALP, imprinting and reproduction' were used in various combinations. Outcomes: A range of molecular changes to specific groups of imprinted genes are associated with imprinting disorders, i.e. syndromes with recognisable clinical features including distinctive prenatal features. Whereas the majority of affected individuals exhibit alterations at single imprinted loci, some have multi-locus imprinting disturbances (MLID) with less predictable clinical features. Imprinting disturbances are also seen in some nonviable pregnancy outcomes, such as (recurrent) hydatidiform moles, which can therefore be regarded as a severe form of imprinting disorders. There is growing evidence that MLID can be caused by variants in the maternal genome altering the imprinting status of the oocyte and the embryo, i.e. maternal effect mutations. Pregnancies of women carrying maternal affect mutations can have different courses, ranging from miscarriages to birth of children with clinical features of various imprinting disorders. Wider Implications: Increasing understanding of imprinting disturbances and their clinical consequences have significant impacts on diagnostics, counselling and management in the context of human reproduction. Defining criteria for identifying pregnancies complicated by imprinting disorders facilitates early diagnosis and personalised management of both the mother and offspring. Identifying the molecular lesions underlying imprinting disturbances (e.g. maternal effect mutations) allows targeted counselling of the family and focused medical care in further pregnancies.
Text
elbracht2020
- Accepted Manuscript
More information
Accepted/In Press date: 15 November 2019
Published date: 18 February 2020
Additional Information:
Funding Information:
The group is funded by the Deutsche Forschungsgemeinschaft (DFG, EG110/15-1; 948/32-1 FUGG).
Publisher Copyright:
© 2020 The Author(s). All rights reserved.
Keywords:
(multi-locus) imprinting disturbances, genomic imprinting, human reproduction, hydatidiform moles, maternal effect mutations, miscarriages, perinatal management, subcortical maternal complex
Identifiers
Local EPrints ID: 441827
URI: http://eprints.soton.ac.uk/id/eprint/441827
ISSN: 1355-4786
PURE UUID: e34f9735-69b1-43f1-965d-14c779708e23
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Date deposited: 29 Jun 2020 16:33
Last modified: 17 Mar 2024 05:40
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Contributors
Author:
Miriam Elbracht
Author:
Matthias Begemann
Author:
Karl Oliver Kagan
Author:
Thomas Eggermann
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