The halophilic enterobacteria, Enterobacteria cancerogenus, was isolated from the intestines of the fusiform fish (Trachurus japonicus) to yield a protein-like material termed PLM-f74. PLM-f74 was characterized by strong inhibition ratios to angiogenesis (82.8% at the concentration of $18.5{mu}g/ml$) and elevated antioxidative capacities with low toxicity. The PLM-f74 is a glycoprotein comprised of saccharides and amino acids. PLM-f74 inhibited cell adhesion that non-activated U937 monocytic cell adhesion to HUVECs activated with $IL-1{eta}$ by 78.0%, and the adherence of U937 cells treated with the PLM-f74 and stimulated with $IL-1{eta}$ to unstimulated HUVECs decreased by 102%. When both cell types were pretreated with PLM-f74, the adhesion of U937 cells to $IL-1{eta}$-stimulated HUVECs was completely suppressed by 121% at a concentration of $18.5{mu}g/ml$. PLM-f74 blocked signal pathways from VEGFR2, PI3K, ${eta}$-catenin, and VE-cadherin to NF-kB, based on western bolt analysis. It also inhibited IL-l-stimulated HUVEC expression of the adhesion molecules, ICAM-l by 40%, VCAM-l by 60%, and E-selectin by 70% at the same concentration noted above. New anti-angiogenic and anti-cell adhesion materials showing elevated antioxidative capacities, and non-toxicity may be expected from these results.