The tegument protein pp65 of human cytomegalovirus (HCMV) represents the major component of mature virus particles. Nevertheless, deletion of pp65 has been shown to have no effects on virus replication and morphogenesis in fibroblasts in vitro. We have studied the HCMV virion composition in the absence of pp65 and viral growth of a pp65 stop mutant in different cell types, including monocyte-derived macrophages. Two stop codons at amino acids 11 and 12 of pp65 were introduced by bacterial artificial chromosome mutagenesis into the endotheliotropic strain TB40/E. Clear changes of the tegument composition could be observed in purified mutant virus particles, where the amount of tegument protein pUL25 was drastically reduced. In addition, pUL69 and the virally encoded protein kinase UL97 were undetectable in the pp65 stop mutant. Expression of pUL69 in infected cells was unaltered while pUL25 accumulated in the absence of pp65, thus demonstrating that only incorporation into virus particles is dependent on pp65. Coimmunoprecipitation experiments using lysates of infected cells revealed an interaction between pUL69 and pp65. This interaction was verified in pull-down experiments using transfected cells, which showed that pp65 and pUL69 do not require the presence of other viral proteins for their interaction. We conclude that pp65 is required for the incorporation of other viral proteins into the virus particle and thus is involved in the protein-protein interaction network leading to normal tegument formation. When studying growth kinetics of the pp65 stop mutant in different cell types, we found a severe impairment of viral growth in monocyte-derived macrophages, showing for the first time a strong cell-specific role of pp65 in viral growth.Human cytomegalovirus (HCMV), a member of the Betaherpesvirinae subfamily, is a threatening pathogen for immunocompromised patients, such as transplant recipients, AIDS patients, and conatally infected infants (15). HCMV infection of individuals with a compromised immune system causes considerable morbidity and mortality after primary infection or reactivation from latency.Mature HCMV virions comprise four distinct structures: core, capsid, tegument, and envelope. The nucleocapsid consists of the core containing the approximately 240-kb linear double-stranded DNA genome, which is embedded in an icosahedral capsid. Between the envelope, a cellularly derived lipid membrane containing viral glycoproteins, and the nucleocapsid, a protein layer called tegument (26), is located. The tegument of HCMV is composed of at least 25 viral proteins. Tegument proteins have been proposed to act in several processes, such as immune evasion (reviewed in reference 30), release of viral DNA into the nucleus (6), and initiation and regulation of the viral replication cycle (3,7,16,31,41). However, for many of the tegument proteins, the morphogenetic or regulatory functions are unknown. An increasing number of host cell proteins, e.g., cytoskeletal proteins such as ␣-and -actin, have also been dete...
