In apicomplexan parasites, host cell adhesion and subsequent invasion involve the sequential release of molecules originating from secretory organelles named micronemes, rhoptries, and dense granules. Microneme proteins have been shown to be released at the onset of the initial contact between the parasite and the host cell and thus mediate and establish the physical interaction between the parasite and the host cell surface. This interaction most likely involves adhesive domains found within the polypeptide sequences of most microneme proteins identified to date. NcMIC3 is a microneme-associated protein found in Neospora caninum tachyzoites and bradyzoites, and a large portion of this protein is comprised of a stretch of four consecutive epidermal growth factor (EGF)-like domains. We determined the subcellular localization of NcMIC3 prior to and following host cell invasion and found that NcMIC3 was secreted onto the tachyzoite surface immediately following host cell lysis in a temperature-dependent manner. Surface-exposed NcMIC3 could be detected up to 2 to 3 h following host cell invasion, and at later time points the distribution of the protein was again restricted to the micronemes. In vitro secretion assays using purified tachyzoites showed that following secretion onto the surface, NcMIC3 was largely translocated towards the posterior end of the parasite, employing a mechanism which requires a functional actin microfilament system. Following this, the protein remained bound to the parasite surface, since it could not be detected in a soluble form in respective culture supernatants. Secretion of NcMIC3 onto the surface resulted in an outward exposure of the EGF-like domains and coincided with an increased capacity of N. caninum tachyzoites to adhere to Vero cell monolayers in vitro, a capacity which could be inhibited by addition of antibodies directed against the EGF-like domains. NcMIC3 is a prominent component of Triton X-100 lysates of tachyzoites, and cosedimentation assays employing prefixed Vero cells showed that the protein binds to the Vero cell surface. In addition, the EGF-like domains, expressed as recombinant proteins in Escherichia coli, also interacted with the Vero cell surface, while binding of NcSRS2 and NcSAG1, the major immunodominant surface antigens, was not as efficient. Our data are indicative of a functional role of NcMIC3 in host cell infection.