RASCAL Is a New Human Cytomegalovirus-Encoded Protein That Localizes to the Nuclear Lamina and in Cytoplasmic Vesicles at Late Times Postinfection

The products of numerous open reading frames (ORFs) present in the genome of human cytomegalovirus (CMV) have not been characterized. Here, we describe the identification of a new CMV protein localizing to the nuclear envelope and in cytoplasmic vesicles at late times postinfection. Based on this distinctive localization pattern, we called this new protein nuclear rim-associated cytomegaloviral protein, or RASCAL. Two RASCAL isoforms exist, a short version of 97 amino acids encoded by the majority of CMV strains and a longer version of 176 amino acids encoded by the Towne, Toledo, HAN20, and HAN38 strains. Both isoforms colocalize with lamin B in deep intranuclear invaginations of the inner nuclear membrane (INM) and in novel cytoplasmic vesicular structures possibly derived from the nuclear envelope. INM infoldings have been previously described as sites of nucleocapsid egress, which is mediated by the localized disruption of the nuclear lamina, promoted by the activities of viral and cellular kinases recruited by the lamina-associated proteins UL50 and UL53. RASCAL accumulation at the nuclear membrane required the presence of UL50 but not of UL53. RASCAL and UL50 also appeared to specifically interact, suggesting that RASCAL is a new component of the nuclear egress complex (NEC) and possibly involved in mediating nucleocapsid egress from the nucleus. Finally, the presence of RASCAL within cytoplasmic vesicles raises the intriguing possibility that this protein might participate in additional steps of virion maturation occurring after capsid release from the nucleus.Cytomegalovirus (CMV) is a highly prevalent betaherpesvirus that can cause severe multiorgan disease in immunocompromised individuals (45). The ability of this virus to infect an exceptionally wide variety of different cell types substantially contributes to pathogenesis (5, 68). CMV tropism is largely determined by a finely tuned interplay between cellular and viral factors, many of which act at the earliest stages of infection (30, 68). We recently showed that the cellular protein vimentin is required for efficient onset of infection in primary human foreskin fibroblasts (HF). Interestingly, the degree of reliance on the presence and integrity of vimentin intermediate filaments is dependent on the virus strain, with the broadly tropic strain TB40/E being more negatively affected than the HF-adapted, attenuated strain AD169 (44).Serial passage of clinical isolates in HF or in endothelial cells (EC) has produced strains with different tropisms. The attenuated strains AD169 and Towne were developed as vaccine candidates by propagation in HF for more than 50 (AD169) and 125 (Towne) serial passages (19, 53, 61). During this process, both strains, compared to clinical isolates, accumulated multiple mutations and genomic deletions, resulting in the loss of more than 19 open reading frames (ORFs) (8). The number of serial passages in HF of another commonly used strain, Toledo, has been more moderate (19, 54, 58). This, however, did not prevent the emergence of numerous genomic mutations, including the inversion of an ∼15-kb fragment (8, 16, 56). As a consequence of these changes, productive infections by AD169, Towne, and Toledo are largely restricted to HF. In contrast, propagation of clinical isolates in EC has yielded a series of strains with more-intact genomes and broader tropisms, such as TB40/E, VHL/E, and FIX (VR1814) (25, 60, 71). These strains retain the ability to grow in a wider variety of cell types, including EC, epithelial cells, and dendritic cells (DC), in addition to HF (23, 28, 59, 60, 68).The UL128, UL130, and UL131A gene products were recently identified as essential mediators of CMV infection of EC and epithelial cells (26, 72, 73) and of virus transfer from infected EC to monocyte-derived DC (23). Each of these proteins is independently required for the broader tropisms of EC-propagated CMV isolates (63, 64), and the presence of mutations affecting their functionality has been directly linked to the inability of AD169, Towne, and Toledo to initiate productive infections in EC and epithelial cells (26, 72, 73).We have shown that mature Langerhans-type DC differentiated in vitro from CD34⁺ hematopoietic progenitor cells are highly permissive to direct infection with TB40/E or VHL/E, with 48 to 72% of cells in culture expressing the viral immediate-early genes IE1 and IE2 at 48 h postinfection (hpi) (28). In contrast, only 2 to 5% and 0% of mature Langerhans cells were IE1/IE2 positive after exposure to Towne and Toledo, respectively. However, productive infection was detected in 12 to 17% of cells infected with AD169, despite the fact that this strain lacks expression of the UL131A gene as a consequence of a frameshift mutation (26). These results suggested the existence of additional viral genes with products involved in mediating tropisms for specific cell types, such as DC. To identify possible candidates, we compared the amino acid sequence of each ORF found in the genome of TB40-BAC4, a sequenced clone of the TB40/E strain in a bacterial artificial chromosome (BAC) (GenBank accession number {"type":"entrez-nucleotide","attrs":{"text":"EF999921","term_id":"157779983","term_text":"EF999921"}}EF999921) (69), to the sequence of each ORF found in AD169 and AD169-BAC (accession numbers {"type":"entrez-nucleotide","attrs":{"text":"X17403","term_id":"59591","term_text":"X17403"}}X17403 and {"type":"entrez-nucleotide","attrs":{"text":"AC146999","term_id":"38093733","term_text":"AC146999"}}AC146999) (10, 49), Towne and Towne-BAC (accession numbers {"type":"entrez-nucleotide","attrs":{"text":"FJ616285","term_id":"222354438","term_text":"FJ616285"}}FJ616285, {"type":"entrez-nucleotide","attrs":{"text":"AC146851","term_id":"37654163","term_text":"AC146851"}}AC146851, and {"type":"entrez-nucleotide","attrs":{"text":"AY315197","term_id":"124303521","term_text":"AY315197"}}AY315197) (17, 18, 49), and Toledo-BAC (accession number {"type":"entrez-nucleotide","attrs":{"text":"AC146905","term_id":"37777314","term_text":"AC146905"}}AC146905) (49). The product of a putative ORF, originally identified by Murphy et al. and named conserved ORF 29 (c-ORF29) (49), was considered of particular interest because the amino acid sequence of the putative protein encoded by Toledo and Towne was extended by 79 residues compared to the putative protein encoded by TB40/E and AD169. This led to our speculation that that the extended version might result in a nonfunctional version of the c-ORF29-encoded protein. We thus focused our studies on the products of this ORF.Here, we show for the first time that CMV c-ORF29 encodes a protein expressed at early to late times postinfection (p.i.) and localizes to the nuclear rim in peculiar invaginations of the nuclear lamina and in cytoplasmic vesicular structures at late times p.i. Based on this localization pattern, we named this gene product nuclear rim-associated cytomegaloviral protein, or RASCAL. Surprisingly, no difference was observed in the distributions of RASCAL during infection of HF with TB40/E or Towne, suggesting that the intracellular trafficking of this protein is not affected by the presence of the additional residues at the C terminus of RASCAL from strain Towne (RASCAL_Towne). Ectopic expression of RASCAL in human embryo kidney 293T (HEK293T) cells further revealed that this protein requires the presence of the nuclear egress complex (NEC) member UL50 to reach the nuclear rim, while coimmunoprecipitation (co-IP) assays provided evidence for the existence of an interaction between RASCAL and UL50. These findings suggest that RASCAL may be a new component of the NEC with possible roles in remodeling the nuclear lamina during nucleocapsid egress from the nucleus.