Protection from cytomegalovirus (CMV) disease in immunocompromised hosts has been shown to correlate with recovery of the host virus- specific CD8+ T-cell response. The administration of ganciclovir to immunosuppressed transplant recipients as antiviral prophylaxis has reduced the early risk of CMV disease, but late disease is observed with increased frequency, suggesting that recovery of the CMV-specific T-cell responses necessary for protective immunity may be delayed in these patients. Therefore, we evaluated reconstitution of CMV-specific T-cell responses in 47 bone marrow transplant (BMT) recipients entered on a randomized placebo-controlled study of ganciclovir. The study drug was initiated at a mean of 24 days after BMT. At day 30 to 40, a minority of patients had recovery of T-cell immunity to CMV and the frequency of reconstitution was equivalent in patients randomized to ganciclovir or placebo. The failure of ganciclovir to effect early reconstitution may reflect the short duration of treatment. Early recovery was associated with the infusion of BM from a CMV seropositive donor (P = .07 for CD8+ cytotoxic T cell (CTL), P = .04 for CD4+ Th). Between day 40 and day 90, recovery of deficient CD8+ and CD4+ CMV- specific T-cell responses occurred in the majority of individuals that received placebo, but in a minority of ganciclovir recipients. Two cases of late-onset CMV disease occurred in ganciclovir recipients. In all patients, the presence of a CTL response to CMV conferred protection from subsequent CMV disease (P = .005), and these protective CTL responses are shown to be specific for structural virion proteins similar to the responses in immunocompetent CMV seropositive individuals. These data confirm the importance of CMV-specific T-cell responses and suggest that a delay in recovery of these responses as a result of ganciclovir prophylaxis may contribute to the occurrence of late CMV disease.
The characterization of the epitopes recognized by CTL provides insights into the nature of protective immune responses and facilitates the development of methods to enhance immunity to human pathogens. However, no easily applicable approach for CTL epitope identification has been developed. We present a rapid and efficient method for locating CTL epitopes within a protein. The gene encoding the protein of interest is inserted into an inducible prokaryotic expression vector. Random peptides are then generated by alkali digestion of intact or lysed Escherichia coli expressing the protein and assayed for the presence of the epitope by coating target cells for a standard CTL targeting assay. A large panel of clones containing serial 3'-deletions of the gene is then generated by exonuclease III digestion, and the expressed truncated proteins are similarly analyzed for the presence of the antigenic peptide. The epitope is located by determining the deletion points of clones expressing sequential truncations and differing in Ag expression. This technique was used to identify the H-2Ld-restricted nonamer in E. coli beta-galactosidase, with residues 876-884 representing the naturally processed epitope. To test the applicability of this method to other proteins, two genes from human CMV, an often fatal pathogen in immunocompromised individuals, were screened for HLA class I-restricted epitopes. An HLA-B18-restricted epitope from the CMV major immediate-early protein was found to lie between residues 378 and 389, and an HLA-B35-restricted epitope from the CMV pp65 matrix protein was characterized as residues 123 to 131. The results demonstrate that this technique can be used to rapidly identify CTL epitopes within a chosen protein and should be useful for assaying viral isolates or neoplasms for loss of epitopes after mutation and selection by host immune responses.
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