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Modeling Ovarian Cancer Cell Colonization of Omentum: An Ex Vivo Method to Establish Milky Spot Colonization of Fluorescently Labeled Ovarian Cancer Cells in Murine Omentum Explants

Published: April 30, 2023

Abstract

Source: Krishnan, V. et al. In Vivo and Ex Vivo Approaches to Study Ovarian Cancer Metastatic Colonization of Milky Spot Structures in Peritoneal Adipose. J. Vis. Exp. (2015)

In this video, we establish an ex vivo omental organ culture overlaid with GFP-expressing ovarian cancer cells to study ovarian cancer colonization within the omental explant. This protocol analyzes immune cell structures within the omentum known as milky spots that promote metastases.

Protocol

All procedures involving animals have been reviewed by the local institutional animal care committee and the JoVE veterinary review board.

1. Milky Spot Colonization Ex Vivo

  1. Establishment of basic ex vivo omental organ culture conditions
    1. Place each omentum into a single culture plate insert and place within one well of a 12-well tissue culture plate containing 500 µl of DME/F12 media containing 20% FCS. Maintain organ cultures at 37 °C in a 5% CO2 environment for 24 to 48 hr and/or additional time points. Use three independent omenta (triplicate samples) for each condition (e.g., media type/time point).
    2. To confirm the integrity of tissues at the experimental endpoints, fix and process samples as described in Step 1.1.3. Counting healthy versus necrotic adipocytes on H&E sections can assess tissue integrity. A minimum of ~120 cells from five biological samples is required to formulate a percentage of live tissue present.
    3. To measure tissue function, place omenta (n=3) in separate wells of a 24-well plate containing 500 µl of DME/F12 media with 20% FCS. Allow omenta to condition the media at 37 °C in a 5% CO2 environment for 24 hr and then remove 250 µl for use in an IL-6 ELISA assay.
  2. Ex vivo co-culture of the mouse omentum with SKOV3ip.1-GFP cells
    1. Grow and prepare fluorescently tagged cells by pipetting 1×106  thawed cells in 10 ml of media in a T-75 flask. Allow the cells to grow at 37 °C in a 5% CO2 environment until they reach 70% confluence. Trypsinize and resuspend at a concentration of 2 x 106 cells per ml.
    2. Apply ~6 µl of the tissue adhesive to the membrane of the culture insert and allow it to air dry. Wash the membrane twice with sterile water to remove any excessive adhesive. Air dry the membranes under a laminar hood.
    3. Carefully excise the omenta and attach it to the adhesive-coated membrane using sterile forceps. Allow the tissue to adhere to the membrane for 1 min prior to adding media. Add 500 µl of the cell suspension on top of each omentum in each culture insert. Fill the area around the transwell chamber with 2.5 ml of DME/F-12 .
    4. Incubate omenta with cell suspension for 6 hr at 37 °C in a 5% CO2 environment. Carefully remove and wash the omenta with ~10 ml of PBS. Visualize fluorescent cancer cell foci using an appropriate fluorescent imaging system.

Disclosures

The authors have nothing to disclose.

Materials

Dissection Tools Fine Science Tools NA
Geimsa Fluka/Sigma Aldrich 48900
5% Formalin Sigma HT501320
DMEM Corning 10-013-CV
PBS Corning 21-040-CV Without calcium and Magnesium
Collagenase Worthington LS004196
Millicell culture plate insert Millipore PICM01250
Cell-Tak Corning 354240

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Cite This Article
Modeling Ovarian Cancer Cell Colonization of Omentum: An Ex Vivo Method to Establish Milky Spot Colonization of Fluorescently Labeled Ovarian Cancer Cells in Murine Omentum Explants. J. Vis. Exp. (Pending Publication), e20379, doi: (2023).

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