A 2D imaging experiment setup is preferred for un-labeled cell tracking of smaller cells such as immune cells. In MetaVi Labs' pathotaxis experiments when immune cells are co-cultured with pathogenic cells, 2D allows improved tracking of the immune cells (when the immune cells are un-labeled).

While tumor cells will adhere to glass or plastic, immune cells require a protein coating. Fortunately, this is easily accomplished with slides from ibidi.

Modifications to ibidi Protocols

We recommend ibidi slides and their associated protocols. However, please note:

  1. The ibidi recommendations for cell density are not applicable to many Pathotaxis experiments. We recommend finding the minimum cell densities possible to allow for greater accuracy in tracking and analysis, while still accomplishing the biological aim.
  2. For T-cell experiments, we recommend imaging at least one image per 30 seconds (or faster) if it is desired to track T-cell movement.
  3. In 2D experiments, cell adhesion should begin within 30 minutes of application of the cell media to the slide. Imaging should start at the 30-minute mark.

µ-Slide Chemotaxis

Used to investigate chemotaxis of fast or slow migrating adherent cells and non-adherent cells in gel matrices.

T-Cell Adhesion

This chamber can be used for non-traditional-chemotaxis experiments (i.e., experiments in which cell migration is important but an external chemo-attractant is not being used but rather the T-cells will be demonstrating Pathotaxis due to the pathogenic cells). This chamber has the advantage of a surface coating to which T-Cells will adhere. The product has two surface coating options, ibid-Treat, and Collagen IV. Other labs have had successful T-Cell adhesion with the Collagen IV surface coating.

Ordering Information

Catalog Number 80322

Surface Modification: Collagen IV: #1.5 polymer coverslip, sterilized.

Protocol

The ibidi Application Note 17 has a detailed protocol for 2D experiments.

Application Note 17: 2D and 3D Chemotaxis Assays Using µ-Slide Chemotaxis

µ-Slide 8-Well

An open µ-Slide (chambered coverslip) with 8 wells for use in immunofluorescence and high-end microscopy.

T-Cell Adhesion

This chamber has the advantage of a variety of surface coatings. Other labs have had successful T-Cell adhesion with the Collagen IV surface coating.

Ordering Information

Catalog Number 80822

Surface Modification: Collagen IV: #1.5 polymer coverslip, sterilized.

Protocol

The following link provides the detailed usage instructions for this versatile plate:

µ-Slide 8 Well Detailed Protocol

Custom Surface Coatings

The ibidi slides can also be ordered with either no-coating or the ibidi-Treat coating. This allows for creating your own coating.

Coating procedures for ibidi µ-Slides and µ-Dishes

For optimized cell adhesion, there are different treatments and coatings for the ibidi labware family. The ibiTreat surface is comparable to standard tissue culture treated labware. This surface permits direct cell growth with a large number of cell lines and primary cells. Compared to the ibiTreat surface, the uncoated surface is very hydrophobic. The uncoated surface must be coated with a protein solution for the adhesion of most cells.

Recommended Surfaces

  • For Collagen I: ibiTreat (tissue culture treated)
  • For Collagen IV: ibiTreat (tissue culture treated) or hydrophobic, uncoated
  • For Fibronectin: ibiTreat (tissue culture treated) or hydrophobic, uncoated
  • For Poly-L-Lysine: ibiTreat (tissue culture treated)
  • For Poly-D-Lysine: ibiTreat (tissue culture treated)

To establish a specific coating relevant to a specific research application, we recommend testing the coating procedure on both uncoated and ibiTreat µ-Slides. We have observed that some biomolecules adhere differently to hydrophobic and hydrophilic plastic surfaces. Please note that there is no uncoated version of the µ-Slide Chemotaxis. Use the ibiTreat surface for all coatings. Some products are also offered with a glass bottom. Glass can also be coated according to the specifications below. The ESS surface needs higher protein concentrations for an effective coating and must not be dried after coating.

Complete Application Note for Custom Surfaces

Reference Paper for T-cell Migration on 2D Surface

This open access paper describes T-cell migration mechanisms and utilized the ibidi µ-Slide Chemotaxis with Collagen IV surface treatment.

T Lymphocyte Migration: An Action Movie Starring the Actin and Associated Actors