https://phys.org/news/2024-10-imaging-ovulation-action-reveals-distinct.html

Phys.org
Topics

  * Week's top
  * Latest news
  * Unread news
  * Subscribe

[                    ] 
 

Science X Account

[                    ]
[                    ]
[*] Remember me
Sign In

Click here to sign in with or

Forget Password?

Not a member? Sign up

Learn more

  * Nanotechnology
  * Physics
  * Earth
  * Astronomy & Space
  * Chemistry
  * Biology
  * Other Sciences
  * Medical Xpress Medicine
  * Tech Xplore Technology

[INS::INS]

  * 
  * share this!

  *  

    76

  *  

    Twit

  *  

    Share

  *  

    Email

 1. Home
 2. Biology
 3. Cell & Microbiology

 1. Home
 2. Biology
 3. Molecular & Computational biology

  *  
  *  
  *  

---------------------------------------------------------------------
 

October 22, 2024 report

Editors' notes

This article has been reviewed according to Science X's editorial
process and policies. Editors have highlighted the following
attributes while ensuring the content's credibility:

fact-checked

peer-reviewed publication

trusted source

proofread

Live imaging of ovulation in action reveals three distinct phases

by Justin Jackson , Phys.org

Live imaging of ovulation in action reveals three distinct phases
Live imaging reveals follicle expansion and contraction before egg
release. Credit: Nature Cell Biology (2024). DOI: 10.1038/
s41556-024-01524-6

Researchers at the Max Planck Institute for Multidisciplinary
Sciences have developed a live imaging method that reveals the
process of ovulation in unprecedented detail. The team followed
initial observations by performing inhibition testing to confirm
causal effects.

Oocytes are immature eggs stored in ovarian follicles. Once per
ovarian cycle, an oocyte matures into a fertilizable egg and is
released from the follicle. This release process is what we call
ovulation.

Ovulation studies are usually done with fixed tissues, capturing set
time points of the process. While useful, these point-in-time
analyses are limited when trying to understand something as dynamic
as ovulation.

The technical report, "Ex vivo imaging reveals the spatiotemporal
control of ovulation," published in Nature Cell Biology, shows how
researchers used a new image capture method to identify three
distinct phases of ovulation: follicle expansion, contraction, and
rupture, culminating in the release of an egg.

Ovulation in an isolated ovarian follicle expressing a cell membrane
(Myr-TdTomato; green) and a chromosome (H2B-GFP; magenta) marker.
Confocal microscopy allows the detailed study of both cellular and
oocyte movements inside the follicle (inset). Credit: Nature Cell
Biology (2024). DOI: 10.1038/s41556-024-01524-6

Images were captured using a combination of confocal and two-photon
microscopy, live imaging isolated mouse ovarian follicles. Transgenic
mouse donors with expression markers for cell membranes and DNA
helped make intricate movements visible.

The technique captured the ovulation process by imaging at 10-minute
intervals over 24 hours, allowing detailed observation of ovulation
at both the cellular and whole follicle levels. The team followed
initial observations and data collection results by performing
inhibition testing to confirm causal effects.

The study identified follicle expansion as the first phase, driven by
hyaluronic acid secretion and fluid influx, which increased follicle
volume. Initial observations of increases led to an inhibition test
of hyaluronic acid synthesis, resulting in reduced expansion and
blocked ovulation, confirming the direct role.

Ovulation in an isolated ovarian follicle expressing a cell membrane
(Myr-TdTomato; green) and a chromosome (H2B-GFP; magenta) marker,
additionally injected with fluorescent dextran into the follicular
antrum to mark movement of the follicular fluid (red). This video
highlights the three steps of follicle rupture: fluid rupture (I),
cellular rupture (II) and egg release (III). Credit: Nature Cell
Biology (2024). DOI: 10.1038/s41556-024-01524-6

Next came contraction, controlled by smooth muscle cells in the outer
follicle layer, possibly regulated by progesterone and endothelin
signaling. Inhibition of these pathways reduced contraction and
ovulation rates, confirming the interplay.

[INS::INS]

Finally, follicle rupture began, followed by the release of
follicular fluid, cumulus cells, and the egg. Rupture and egg release
were seen to occur in three steps: fluid rupture, cellular rupture,
and egg release.

Molecular mechanisms of mitochondrial energy production and
actomyosin contractility were also found to drive the process.
Between 6 and 9 hours after triggering initial ovulation, gene
expression analysis revealed an upregulation of pathways related to
mitochondrial respiratory chain activity, indicating a high demand
for ATP in smooth muscle cells during contraction. Inhibition of
mitochondrial function impaired contraction and prevented ovulation,
demonstrating the reliance on mitochondrial ATP production.

Video of ovulation in an isolated ovarian follicle expressing the
oocyte marker Oct4-GFP. This allowed for 3D surface reconstructions
of the oocytes to be generated (green), to track their movement in 3D
during ovulation. Transmitted light is also shown. Credit: Nature
Cell Biology (2024). DOI: 10.1038/s41556-024-01524-6

Additionally, the researchers identified an increase in the
expression of genes related to actomyosin contractility between 9 and
12 hours post-hCG. Blocking actomyosin contractility further
confirmed the necessity of actomyosin-driven contraction for follicle
rupture and egg release.

This new approach not only uncovers detailed spatiotemporal patterns
of ovulation and opens new avenues for investigating how the cellular
and molecular mechanisms interdepend in reproduction, but provides
truly amazing video of nature at work.

More information: Christopher Thomas et al, Ex vivo imaging reveals
the spatiotemporal control of ovulation, Nature Cell Biology (2024).
DOI: 10.1038/s41556-024-01524-6

Journal information: Nature Cell Biology  

(c) 2024 Science X Network

Citation: Live imaging of ovulation in action reveals three distinct
phases (2024, October 22) retrieved 26 October 2024 from https://
phys.org/news/2024-10-imaging-ovulation-action-reveals-distinct.html
This document is subject to copyright. Apart from any fair dealing
for the purpose of private study or research, no part may be
reproduced without the written permission. The content is provided
for information purposes only.
---------------------------------------------------------------------

Explore further

Study provides new insights into development of ovarian follicles and
previously unknown variations
---------------------------------------------------------------------
79 shares

  *  

    Facebook

  *  

    Twitter

  *  

    Email

 

Feedback to editors

  * Featured
  * Last Comments
  * Popular

Graphene oxide and chitosan sponge found to be ten times more
efficient at removing gold from e-waste

5 hours ago

0

Where did kissing come from? Study introduces the 'groomer's final
kiss hypothesis'

8 hours ago

0

Saturday Citations: Reading comprehension; revisiting tardigrade
orthodoxy; restoring universal symmetry

10 hours ago

0

Chemists develop a metal-free way to selectively convert symmetrical
diols into one of two mirror-image isomers

Oct 25, 2024

0

Molecular study of newly discovered tardigrade species helps explain
ability to withstand high doses of radiation

Oct 25, 2024

0

---------------------------------------------------------------------
[gif]

Graphene oxide and chitosan sponge found to be ten times more
efficient at removing gold from e-waste

5 hours ago

[gif]

Where did kissing come from? Study introduces the 'groomer's final
kiss hypothesis'

8 hours ago

[gif]

Saturday Citations: Reading comprehension; revisiting tardigrade
orthodoxy; restoring universal symmetry

10 hours ago

[gif]

A cooling shift: Slowing ocean circulation may temper Arctic
temperature rise

12 hours ago

[gif]

New tool helps assess narcissism in job candidates

12 hours ago

[gif]

Cracking the code: Researchers unlock a 'new synthetic frontier' for
quantum dots

12 hours ago

[gif]

Researchers identify 'dancer' as a new curiosity style in Wikipedia
browsing

14 hours ago

[gif]

Study reveals the twists and turns of mammal evolution from a
sprawling to upright posture

Oct 25, 2024

[gif]

Pushing the boundaries of traditional ceramic techniques by merging
art and science

Oct 25, 2024

[gif]

Invisible anatomy in the fruit fly uterus: New discoveries could have
implications for fertility and pest control

Oct 25, 2024

---------------------------------------------------------------------

Relevant PhysicsForums posts

What do large moles on the body indicate?

2 hours ago

Are you concerned about toxic chemicals in plastic food packaging?

5 hours ago

Here comes COVID-19 version BA.2, BA.4, BA.5,...

Oct 18, 2024

Melioidosis, caused by bacterium Burkholderia pseudomallei

Oct 18, 2024

FDA antidepressant warnings of suicide risk among kids may have the
opposite effect

Oct 17, 2024

The Cass Report (UK)

Oct 16, 2024

More from Biology and Medical

---------------------------------------------------------------------
[INS::INS]

  * Related Stories

    [gif]

    Study provides new insights into development of ovarian follicles
    and previously unknown variations

    Sep 25, 2024

    [gif]

    Suppressed ovarian follicle development in women with obesity may
    explain reduced fertility

    Jun 11, 2022

    [gif]

    Gene expression atlas captures where ovulation can go awry

    Jan 23, 2024

    [gif]

    Implanting aged oocytes in young follicles can produce
    rejuvenated eggs, researchers find

    Sep 11, 2024

    [gif]

    Uncovering the role of ATP in ovulation suggests new treatment
    for infertility

    May 17, 2023

    [gif]

    A study reveals potential causes of female infertility

    May 6, 2020

  * Recommended for you

    [gif]

    Molecular study of newly discovered tardigrade species helps
    explain ability to withstand high doses of radiation

    Oct 25, 2024

    [gif]

    Hourglass model of complex multicellularity found in brown algae

    Oct 25, 2024

    [gif]

    Invisible anatomy in the fruit fly uterus: New discoveries could
    have implications for fertility and pest control

    Oct 25, 2024

    [gif]

    New method achieves functional protein delivery into living cells

    Oct 25, 2024

    [gif]

    Bacterial pathogen must balance between colonizing airways and
    developing antibiotic tolerance, study reveals

    Oct 25, 2024

    [gif]

    'True hybrid' mice might reveal how new species emerge

    Oct 24, 2024

Load comments (0)

Let us know if there is a problem with our content

Use this form if you have come across a typo, inaccuracy or would
like to send an edit request for the content on this page. For
general inquiries, please use our contact form. For general feedback,
use the public comments section below (please adhere to guidelines).

Please select the most appropriate category to facilitate processing
of your request

[-- please select one --      ]
                            [                    ]
                            [                    ]
                            [                    ]
                            [                    ]
                            [                    ]
Your message to the editors [                    ]
Your email (only if you want to be contacted back)
[                    ]
Send Feedback

Thank you for taking time to provide your feedback to the editors.

Your feedback is important to us. However, we do not guarantee
individual replies due to the high volume of messages.

E-mail the story

Live imaging of ovulation in action reveals three distinct phases

Your friend's email [                    ]
Your email [                    ]
[ ] I would like to subscribe to Science X Newsletter. Learn more
Your name [                    ]

Note

Your email address is used only to let the recipient know who sent
the email. Neither your address nor the recipient's address will be
used for any other purpose. The information you enter will appear in
your e-mail message and is not retained by Phys.org in any form.

             [                    ]
             [                    ]
             [                    ]
             [                    ]
             [                    ]
             [                    ]
             [                    ]
Your message [                    ]
Send
Newsletter sign up

Get weekly and/or daily updates delivered to your inbox. You can
unsubscribe at any time and we'll never share your details to third
parties.

[                    ]
Subscribe

More information Privacy policy

Donate and enjoy an ad-free experience

We keep our content available to everyone. Consider supporting
Science X's mission by getting a premium account.

Remove ads
Maybe later
Medical Xpress

Medical Xpress

Medical research advances and health news

Tech Xplore

Tech Xplore

The latest engineering, electronics and technology advances

Science X

Science X

The most comprehensive sci-tech news coverage on the web

Newsletters

[                    ]
Subscribe
Science X Daily and the Weekly Email Newsletter are free features
that allow you to receive your favorite sci-tech news updates in your
email inbox
Follow us

  *  
  *  
  *  
  *  

  * Top
  * Home
  * Search
  * Mobile version

  * Help
  * FAQ
  * About
  * Contact

  * Science X Account
  * Premium Account
  * Archive
  * News wire

  * Android app
  * iOS app
  * RSS feeds
  * Push notification

(c) Phys.org 2003 - 2024 powered by Science X Network
Privacy policy Terms of use

E-mail newsletter

[                    ]
Subscribe
Follow us

  *  
  *  
  *  
  *  

It appears that you are currently using Ad Blocking software. What
are the consequences? x
Quantcast