This report provides a visual depiction of parallel-plate flow chamber analysis for studying leukocyte endothelial interactions under physiologic shear stress. This method is particularly useful for investigating the role of endothelial (E)-selectin and leukocyte E-selectin ligands that trigger leukocyte rolling on endothelial cell surfaces.
1. Preparation of hBMEC (HBMEC-60 Cell) Monolayer on Petri Dishes for Flow Chamber
2. Preparation of Human Hematopoietic Progenitor KG1a Cells for Flow Chamber
3. Preparation of Microscope, Parallel-Plate Flow Chamber and Syringe Pump (Figure 1)
Figure 1.Illustration of Parallel-Plate Flow Chamber Analysis. Inverted microscope, Harvard Syringe Pump, computer/camera and parallel-plate flow chamber are placed in an optimal arrangement for efficient and reproducible cell analysis.
4. Capturing Leukocyte Rolling Events using NIS Elements
5. Dependence of Terminal Sialylation and Surface Glycoprotein for E-selectin-Mediated KG1a Cell 5. Rolling (Figure 2; Videos Clips of 5.1-5.5)
6. Analysis of NIS-Elements-Captured KG1a Cells and Graphing of KG1a Cell Rolling Data
Results:
Figure 3. Parallel-Plate Flow Chamber Analysis of E-selectin-Binding Activity on KG1a Cells. KG1a cells treated with sialidase or protease were analyzed for rolling efficiency on monolayers of HBMEC-60 cells pre-treated with IL-1β. Negative control rolling experiments were also conducted by analyzing KG1a cell rolling on non-IL-1β-stimulated HBMEC -60 cells or on IL-1β-stimulated HBMEC-60 cells treated with neutralizing anti-human E-selectin moAb (5D11 ). Cell rolling frequencies were performed in triplicate and analyzed with NIS-Elements software. (* Statistical significance; p<0.001)
In this video-based report, we provided a visual depiction of how to analyze leukocyte – endothelial cell interactions under physiologic shear stress conditions. In particular, we analyzed the role of E-selectin – E-selectin ligands in mediating leukocyte tethering and rolling, an adhesive behavior necessary for commitment of secondary more stable binding activities through receptors, such as integrins and hyaluronan receptors. Using the parallel-plate flow chamber adapted for use with an inverted microscope, Harvard Syringe Pump, video camera and computer/cell acquisition hardware, we conducted experiments wherein E-selectin ligand+ KG1a cells were used as our leukocyte model and hBMEC cells (HBMEC-60) stimulated with pro-inflammatory cytokine, IL-1β, were used as our E-selectin+ human endothelial cell model (1-6). As previously reported, we observed robust KG1a cell rolling on IL-1β-stimulated HBMEC-60 cells over a range of shear stress levels in an E-selectin-dependent manner (Figure 3)(Statistically significant difference when compared with KG1a cell rolling on non-IL-1β stimulated HBMEC-60 cells). Negative controls, which consisted of KG1a cell rolling on non-IL-1β-stimulated HBMEC-60 cells or on IL-1β-stimulated HBEMC-60 cells pretreated with anti-human E-selectin mAb, were performed in parallel to demonstrate the dependence of cytokine stimulation and E-selectin expression for rolling activity (Figure 3). Furthermore, rolling analysis of KG1a cells pretreated with Vibrio cholerae neuraminidase (sialidase) or with bromelain, a non-specific protease known for digesting surface E-selectin glycoprotein ligand, highlighted the importance of terminal sialic acid residues and surface glycoprotein for E-selectin ligand activity (2,3).
Parallel-plate flow chamber analysis is a specialized in vitro assay system used for studying leukocyte – endothelial adhesive interactions under shear stress conditions similar those imparted on the surface of a post-capillary venule. As depicted here in our visual presentation, we demonstrate the value of this system for investigating the role of E-selectin – E-selectin ligands in mediating leukocyte tethering and rolling on the surface of activated microvascular endothelium. We also reveal the application of protease, glycosidase and blocking antibody treatments for elucidating the role of E-selectin and its ligands in this system. These analyses are highly reproducible and help form an experimental basis for studying E-selectin – E-selectin ligand function in vivo.
In addition to studying cell adhesion with monolayers of cytokine-activated microvascular endothelial cells (hBMEC or human umbilical vein or dermal microvascular endothelial cells), assays can be performed using purified recombinant human E-selectin or E-selectin-Ig chimeric molecules as a substrate for cell adhesion. Other adhesive interactions mediated through leukocyte (L-)-selectin and platelet (P)-selectin can also be assayed using parallel-plate flow chamber technology. By varying the type of cell monolayer/protein substrate or of input leukocyte/selectin-transfectant cell models, investigators can study the role of these interactions under physiologic shear stress conditions.
The authors have nothing to disclose.
Funding for this project was provided by an American Cancer Society Research Scholar Award, (06-024-01-CSM to Charles J. Dimitroff); a National Institutes of Health/National Cancer Institute grant (RO1CA118124 to Charles J. Dimitroff); and a National Institutes of Health/National Institute of Arthritis and Musculoskeletal and Skin Diseases grant (P30 AR042689 to Dr. Thomas S. Kupper; Brigham and Women’s Hospital, Boston, MA).
Material Name | Typ | Company | Catalogue Number | Comment |
---|---|---|---|---|
FBS | SIGMA | F6178-500ML | ||
DPBS | GIBCO | 14190 | ||
0.5 M EDTA | GIBCO | 15575-038 | ||
1M HEPES | GIBCO | 15630 | ||
Parallel-Plate Flow Chamber Kit | GlycoTech | 31-001 | ||
PHD2000 Programmable Syringe Pump | Harvard Apparatus | PHD 2000 | ||
35x10mm Tissue Culture Dish | BD FALCON | 353001 | ||
Fibronectin , from human plasma | SIGMA | 86088-83-7 F2006-2MG | ||
Interleukin-1_, Human; Recombinant | SIGMA | I9401-5UG | ||
HBSS (Hank s Buffered Saline Solution) | GIBCO | 14170 | ||
Medium 199 w/ HEPES & Glutamine | Invitrogen | 12320-039 | ||
Human Serum | Innovative Research, Inc. | IPLA-SER1 | ||
Heparin | Abraxis Pharmaceutical Products | 504011 | ||
Recombinant human fibroblast growth factor | R&D Systems | 233-FB | ||
Penicillin Streptomycin | GIBCO | 15140 | ||
Plastic Test tubes | BD Bioscience | 352008 | ||
Anti-human E-selectin clone BBIG-E4(5D11) | R&D Systems | BBA16 | ||
Bromelain | SIGMA | B-4882 |