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Imaging the dynamics of murine uterine contractions in early pregnancy†.

Authors :
Dawson M
Flores D
Zou L
Anandasenthil S
Mahesh R
Zavala-Romero O
Arora R
Source :
Biology of reproduction [Biol Reprod] 2024 Jun 12; Vol. 110 (6), pp. 1175-1190.
Publication Year :
2024

Abstract

Uterine muscle contractility is essential for reproductive processes including sperm and embryo transport, and during the uterine cycle to remove menstrual effluent. Even still, uterine contractions have primarily been studied in the context of preterm labor. This is partly due to a lack of methods for studying the uterine muscle contractility in the intact organ. Here, we describe an imaging-based method to evaluate mouse uterine contractility of both the longitudinal and circular muscles in the cycling stages and in early pregnancy. By transforming the image-based data into three-dimensional spatiotemporal contractility maps, we calculate waveform characteristics of muscle contractions, including amplitude, frequency, wavelength, and velocity. We report that the native organ is highly contractile during the progesterone-dominant diestrus stage of the cycle when compared to the estrogen-dominant proestrus and estrus stages. We also observed that during the first phase of uterine embryo movement when clustered embryos move toward the middle of the uterine horn, contractions are dynamic and non-uniform between different segments of the uterine horn. In the second phase of embryo movement, contractions are more uniform and rhythmic throughout the uterine horn. Finally, in Lpar3-/- uteri, which display faster embryo movement, we observe global and regional increases in contractility. Our method provides a means to understand the wave characteristics of uterine smooth muscle in response to modulators and in genetic mutants. Better understanding uterine contractility in the early pregnancy stages is critical for the advancement of artificial reproductive technologies and a possibility of modulating embryo movement during clinical embryo transfers.<br /> (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for the Study of Reproduction.)

Details

Language :
English
ISSN :
1529-7268
Volume :
110
Issue :
6
Database :
MEDLINE
Journal :
Biology of reproduction
Publication Type :
Academic Journal
Accession number :
38713674
Full Text :
https://doi.org/10.1093/biolre/ioae071