Differences in Humoral and Cellular Response to COVID-19 Vaccine Against Different Variants over Time in Chronic Lymphocytic Leukemia

Abstract

Background Patients with chronic lymphocytic leukemia (CLL) are at an increased risk of adverse clinical outcomes following COVID-19 infection, due to impaired humoral and cellular response to infection and vaccination. Most of the data available focus on humoral responses to SARS-CoV-2 vaccination or T cell responses following 2-dose vaccine series. However, the effect of emerging variants of concern (VoC) on T cell recognition in this population has not been previously reported. Aim of the study To evaluate functional humoral response and functional SARS-CoV-2 spike-specific T cell response in CLL patients after the second, the third dose, and 12-months since the first dose. To determine the effect of treatment on immune outcomes. To investigate T cell response to Omicron (BA.2) and ancestral strains, and the impact of Omicron-defining mutations on total spike-specific functional response. Methods CLL patients from Mayo Clinic, Rochester who submitted a blood sample soon after the second and the third dose, and 12-months after the first dose of an mRNA-based vaccination were included. The samples collected following a documented SARS-CoV-2 infection were excluded. Spike-specific T cell responses were quantified using IFN-γ ELISpot assay (R&D Systems). PBMCs were stimulated with a peptide pool spanning the complete sequence of ancestral SARS-CoV-2 spike and two 68-peptide pools: the BA.2 mutation pool selectively covering the mutated spike regions, and reference pool containing the wild-type sequences for the same regions (Peptivator pools, Miltenyi Biotec). The results were considered positive if at least two of the following three were met: average spot count > 5 SFUs/2x10^5; mean spot count >3-fold higher than in negative control; and statistically significant difference (paired t-test<0.5) between Ag-specific and negative control wells.For evaluation of humoral response, we utilized an assay measuring antibody capable of blocking spike receptor binding domain (RBD)-ACE2 (cPASS GenScript). Statistical analysis was performed using t-test and Mann-Whitney test for continuous variables; Chi-square (or Fisher's Exact test) was used for comparing categorical variables. The Mayo Clinic IRB approved the study. Results Thirty patients with CLL were included in the study. Eight patients received a fourth vaccine dose before the 12-months blood draw. The rate of positivity for receptor blocking activity was significantly higher in the untreated group after the 2ndand 3rd dose (0% vs. 75%, 38.5% vs. 93.3%, p>0.05). This difference was not observed for the cellular response to spike-specific ancestral in all the three timepoints. At 12 months 54.16 % of the patients had positive IFN-γ ELISpot response, with no significant difference between treated and untreated (58.3% vs. 50%, p=1.0), and patients with and without a fourth dose (62.5% vs. 50%, p=0.67). Among treated CLL patients, seven (70%) and five (41.6%) patients without neutralizing antibodies had detectable cellular response after the 2nd and 3rd dose, respectively. On average, less than 25% of the total spike-specific T cell reactivity was directed against the epitopes in the regions mutated in BA.2 subvariant. Moreover, we did not detect statistically significant differences in IFN-γspot counts between the mutational and reference 68-peptide pools at any timepoint (median spots T1: 1.62 vs. 2.33, p=0.4; T2: 5 vs. 4.33, p=0.31; T3: 5 vs. 6, p=0.49). Conclusion Treatment status impacts humoral, but no cellular response to SARS-CoV-2 vaccination CLL patients. However, the overall rate of positive cellular response one year after the first dose is low. This, combined with no boosting of cellular response upon the 4th dose, reflects an impaired response even after additional doses. Suboptimal cellular immunity may put CLL patients at higher risk of severe COVID-infection. We did not observe significant difference in the cellular response between ancestral and Omicron BA.2 strains, and only the smaller fraction of T cell response was directed against regions harboring BA.2-specific mutations. These findings confirm the greater observed cross-reactivity to VoC with cellular compared to humoral immune responses. They also suggest significant cellular immunity may remain in the face of Omicron circulation, at least among patients who have response to the vaccine. Given the small sample size, our findings need to be confirmed. Figure 1View largeDownload PPTFigure 1View largeDownload PPT Close modal