Ap4A and other dinucleotides participate in the regulation of hemostasis and blood pressure control. With the exception of two previously reported surface anchored ectoAp4A-hydrolases on bovine aortic endothelial and chromaffine cells, all Ap4A-hydrolases reported are intracellular or freely soluble. We demonstrated that ectoAp4A-hydrolases are present on a broad variety of cell types of different species: rat mesangial, bovine corneal epithelial, human Hep-G2 and peridontal cells. Ectoenzyme properties were evaluated on rat mesangium cells. Chromatography of purified plasma membranes on Sephacel 300 resulted in enrichment of ectoAp4A-hydrolase and in separation from ectoATPase. In contrast to ATPase, Ap4A-hydrolase was stable at room temperature. EctoAp4A-hydrolase also recognized ATP as substrate, and therefore is not highly specific. The molecular weight was 180 kD. Unlike ectoAMPase ectoAp4A-hydrolase was not attached via a glycosyl-phosphatidylinositol (GPI)-moiety. Concentrations of PI-PLC 10-100-fold higher than effective for ectoAMPase cleavage (10-100 mU/ml) plus extensively extended incubation times up to eight hours did not result in cleavage of ectoAp4A-hydrolase. The enzyme ectoAp4A-hydrolase might presage a direction for pharmaceutical manipulation in the control of blood pressure and hemostasis.