Murine gammaherpesvirus 68 (␥HV68; also referred to as MHV68) infection of mice is a developing small-animal model for analysis of gammaherpesvirus pathogenesis (reviewed in references 18, 19, 45, 46, 64, and 69). ␥HV68 is a gamma-2 herpesvirus which is closely related to the human and primate gammaherpesviruses Epstein-Barr virus (EBV), Kaposi's sarcoma-associated herpesvirus (KSHV), and herpesvirus saimiri (HVS) (22,67). Acute ␥HV68 infection of laboratory mice is cleared by 2 to 3 weeks postinfection, with the concomitant establishment of a presumably life-long latent infection. Notably, several ␥HV68 genes that are also present in HVS, KSHV, and/or EBV have been identified as candidate latent genes by transcriptional analysis of latently infected mice (68). These genes include those encoding the viral bcl-2 (v-bcl2) homolog and the viral G-protein-coupled receptor (v-GPCR) homolog as well as gene 73, which in KSHV encodes the latency-associated nuclear antigen (LANA) (11,35,50). In addition, KSHV, HVS, and ␥HV68 have in common a complement-regulatory protein homolog (1, 2, 26, 33, 67), and in both HVS and ␥HV68 this protein occurs in membrane-bound and soluble isoforms (26,33). These studies argue strongly that ␥HV68 shares mechanisms of pathogenesis with other gammaherpesviruses.Manipulation of the host cell cycle is a shared feature of gammaherpesviruses, and one focus for this regulation is the D-type cyclins. EBV infection (or expression of the EBV latency-associated membrane protein 1) upregulates expression of host cyclin D2 (3, 9, 63). In contrast, the gamma-2 herpesviruses HVS (32, 47), KSHV (2, 47, 52), and ␥HV68 (67) all contain open reading frames (ORFs) predicted to encode homologs of mammalian D-type cyclins. The viral cyclins (v-cyclins) exhibit 25 to 31% identity to mammalian D-type cyclins and 26 to 32% identity to each other, and they are positionally conserved in the gamma-2 herpesvirus genomes (67). Notably, the highest level of sequence conservation among these homologs is within the cyclin box, a domain demonstrated to be essential for cyclin-dependent kinase (cdk) binding (29,31,37,38,43,51).The biochemistry of the KSHV and HVS proteins has been intensively studied. The KSHV and HVS v-cyclins, in conjunction with cdk's, have been demonstrated to phosphorylate the retinoblastoma protein (pRb) and promote cell cycle progression, like their mammalian homologs (2, 8). The KSHV and HVS v-cyclins predominantly bind cdk6. Overexpression of the KSHV v-cyclin in cells expressing high levels of cdk6 results in apoptosis (48), suggesting that there may be other viral genes responsible for preventing apoptosis (e.g., v-bcl2). Several unusual properties of the v-cyclins have also been noted. The v-cyclin ORFs lack an LXCXE motif present in mammalian cyclin D proteins and thought to be important in direct binding to pRb (20,25). The HVS and KSHV v-cyclins are able to bind multiple cdk's, rather than being restricted to binding cdk4 and cdk6 (27,32,39), and have a broadened substrate range, being capa...
