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Reduced chromosome cohesion measured by interkinetochore distance is associated with aneuploidy even in oocytes from young mice

Reduced chromosome cohesion measured by interkinetochore distance is associated with aneuploidy even in oocytes from young mice
Reduced chromosome cohesion measured by interkinetochore distance is associated with aneuploidy even in oocytes from young mice
It is becoming clear that reduced chromosome cohesion is an important factor in the rise of maternal age-related aneuploidy. This reduction in cohesion has been observed both in human and mouse oocytes, and it can be measured directly by an increase with respect to maternal age in interkinetochore (iKT) distance between a sister chromatid pair. We have observed variations in iKT distance even in oocytes from young mice and wondered if such differences may predispose those oocytes displaying the greatest iKT distances to be becoming aneuploid. Therefore, we used two methods, one pharmacological (Aurora kinase inhibitor) and one genetic (Fzr1 knockout), to raise aneuploidy rates in oocytes from young mice (age, 1-3 mo) and to examine if those oocytes that were aneuploid had greater iKT distances. We observed that for both Aurora kinase inhibition and Fzr1 knockout, iKT distances were significantly greater in those oocytes that became aneuploid compared to those that remained euploid. Based on these results, we propose that individual oocytes undergo loss in chromosomal cohesion at different rates and that the greater this loss, the greater the risk for becoming aneuploid.
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Merriman, JA
252e23f3-b63f-46ed-9904-7986642b4afa
Lane, SIR
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Holt, JE
c2b8b241-75af-4c44-972b-af9508fcfc2a
Jennings, PC
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García-Higuera, I
a624ede1-2ccb-4256-a4cc-f068a51a1d0f
Moreno, S
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McLaughlin, EA
fcbf5f45-aa3b-4883-a84e-fc28781874b6
Jones, KT
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Merriman, JA
252e23f3-b63f-46ed-9904-7986642b4afa
Lane, SIR
8e80111f-5012-4950-a228-dfb8fb9df52d
Holt, JE
c2b8b241-75af-4c44-972b-af9508fcfc2a
Jennings, PC
fba9ff1d-c590-4715-b2d9-174bcb4c1678
García-Higuera, I
a624ede1-2ccb-4256-a4cc-f068a51a1d0f
Moreno, S
3b8cac11-c963-4222-befd-162ee0587ac2
McLaughlin, EA
fcbf5f45-aa3b-4883-a84e-fc28781874b6
Jones, KT
73e8e2b5-cd67-4691-b1a9-4e7bc9066af4

Merriman, JA, Lane, SIR, Holt, JE, Jennings, PC, García-Higuera, I, Moreno, S, McLaughlin, EA and Jones, KT (2013) Reduced chromosome cohesion measured by interkinetochore distance is associated with aneuploidy even in oocytes from young mice. Biology of Reproduction, 88 (2), 31. (doi:10.1095/?biolreprod.112.104786). (PMID:23255336)

Record type: Article

Abstract

It is becoming clear that reduced chromosome cohesion is an important factor in the rise of maternal age-related aneuploidy. This reduction in cohesion has been observed both in human and mouse oocytes, and it can be measured directly by an increase with respect to maternal age in interkinetochore (iKT) distance between a sister chromatid pair. We have observed variations in iKT distance even in oocytes from young mice and wondered if such differences may predispose those oocytes displaying the greatest iKT distances to be becoming aneuploid. Therefore, we used two methods, one pharmacological (Aurora kinase inhibitor) and one genetic (Fzr1 knockout), to raise aneuploidy rates in oocytes from young mice (age, 1-3 mo) and to examine if those oocytes that were aneuploid had greater iKT distances. We observed that for both Aurora kinase inhibition and Fzr1 knockout, iKT distances were significantly greater in those oocytes that became aneuploid compared to those that remained euploid. Based on these results, we propose that individual oocytes undergo loss in chromosomal cohesion at different rates and that the greater this loss, the greater the risk for becoming aneuploid.

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e-pub ahead of print date: 19 December 2012
Published date: 1 February 2013
Organisations: Centre for Biological Sciences
Learn more about Biological Sciences research

Identifiers

Local EPrints ID: 349638
URI: http://eprints.soton.ac.uk/id/eprint/349638
DOI: doi:10.1095/?biolreprod.112.104786
PURE UUID: 41657368-77ac-44dd-bcca-76a923afa073
ORCID for SIR Lane: ORCID iD orcid.org/0000-0002-8155-0981
ORCID for KT Jones: ORCID iD orcid.org/0000-0002-0294-0851

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Date deposited: 07 Mar 2013 16:31
Last modified: 15 Mar 2024 03:47

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Contributors

Author: JA Merriman
Author: SIR Lane ORCID iD
Author: JE Holt
Author: PC Jennings
Author: I García-Higuera
Author: S Moreno
Author: EA McLaughlin
Author: KT Jones ORCID iD

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