Predictive value of human cytomegalovirus (HCMV) T-cell response in the control of HCMV infection by seropositive solid-organ transplant recipients according to different assays and stimuli

Human cytomegalovirus (HCMV) is still the most common viral infection in solid-organ transplant recipients (SOTR). Our study aimed to identify the predictive values of the T-cell response able to protect from HCMV disease, according to different assays. Viral DNA was determined by real-time PCR. The T-cell immune response to HCMV infection was investigated in SOTR according to the following assays and stimuli: cytokine flow cytometry (CFC) after peripheral blood mononuclear cell (PBMC) stimulation with autologous HCMV-infected dendritic cells (iDC) vs three ELISPOT assays using PBMCs stimulated with: 1. HCMV-infected cell lysate (iCL); 2. a pool of 34 epitopic peptides (PP) from different HCMV proteins; 3. a commercial pp65 peptide pool (CPM). ELISPOT results were normalized to T-cell counts. Overall, 51 SOTR were enrolled: 29 (57%) had low viral load (LVL) self-resolving infections, 19 (37%) high viral load (HVL) infections treated with antiviral drugs, and 3 (6%) tissue-invasive disease (TID). At DNAe-mia peak, ROC analysis showed that CFC-iDC CD4(+) and the ELISPOT-iCL assays yielded overlapping area under the curve (AUC) results. The time needed to reconstitute protective T-cell immunity in SOTR with HVL infections was significantly longer with each assay compared to LVL infections. Using the CFC-iDC assay as a reference test (requiring 7 days to complete), the 24h ELISPOT-iCL assay provides similar results in terms of protection prediction from HCMV infection.