Occludin is an integral membrane protein within tight junctions. Previous studies suggest it functions as a sealing element, which promotes barrier in endothelial and epithelial cell layers. Here, we examine the role of occludin in neutrophil chemotaxis, using cyclic occludin peptide antagonists that incorporate a conserved occludin cell adhesion recognition (CAR) sequence. Human umbilical vein endothelial cells were pre-treated with occludin specific cyclic peptide antagonists to examine effects on neutrophil migration towards a chemotactic gradient of 10(-7) M fMLP. The spatial organization of occludin and VE-cadherin were also assessed in control and occludin peptide-treated monolayers by immunofluorescent staining. The cyclic peptide, peptide B, which contains the CAR sequence of occludin, increased neutrophil chemotaxis in a time and dose dependent manner. Scrambled sequence peptide controls and linear peptides did not. The cyclic occludin antagonist, peptide B, disorganized junctional occludin, but apparently not VE-cadherin as assessed by immunofluorescence. The correlation between diminished occludin organization and increased neutrophil trans-endothelial chemotaxis provides additional support for occludin in the maintenance of the tight junctional barrier.