Longitudinal study of humoral and cellular responses to COVID-19 mRNA vaccines with and without 3rd (booster) dose in MS patients on ocrelizumab: 24-week results from VIOLA (NCT04843774)

Background: Patients on OCR have attenuated antibody, but largely intact T-cell responses to COVID-19 vaccination. Little is known about durability of post-vaccine responses in OCR-treated patients. Objective(s): To examine antibody and cellular responses to mRNA COVID-19 vaccines (Pfizer, BioNTech/Moderna) in Ocrelizumab (OCR)-treated MS patients over 24-week period. Method(s): MS patients on OCR were recruited from NYU (New York City) and Rocky Mountain at CU (Denver) MS Centers. Antibody responses to SARS-CoV-2 spike proteins were assessed with multiplex bead-based (MBI) immunoassays, and cellular responses to SARS-CoV-2 Spike protein with ELISpot and activation induced marker (AIM) panel in a Cytek Aurora full-spectrum flow cytometry platform. Data on samples collected pre-vaccine and 4-, 12-, 24-weeks post 2-doses and 4-, 12-weeks post-third dose will be presented. Result(s): 40/61 enrollees (age 38.3+/-10.9;77.5% female;57.5% non-white) had 24-week post-vaccination data and 9 patients had 4-week post 3rd dose data. Antibody response increased from prevaccine level of 972.0 U/mL to 6307.4 U/mL at week-4 (p=0.0002), then decreased to 4633.8 u/mL at week-12 (26% decrease from week-4, p=0.1377), and further to 2878.4 u/mL at week-24 (37% decrease from week-12, p value=0.109). Spikespecific IFNgamma T-cell responses by ELIspot were 125.7 SFU/106 cells pre-vaccine, increased to 362.9 SFU/106 cells at week-4 (p=0.009), then to 511.5 SFU/106 cells at week-12 (40.9% increase relative to 4-week time-point, p=0.8474), and remained elevated at 501.7 SFU/106 cells at week-24 (p=0.7393, 1.9% compared to week 12). 4-week post 3rd dose, Ab level increased to 5094.8 U/mL (189.9% compared to pre-3rd dose, p =0.076) and IFNgamma responses to 1253.3 SFU/106 cells (484.5% increase, p=0.037). Conclusion(s): Antibody responses to 2-series vaccine peaked at 4 weeks and trended downward thereafter, while cellular responses were sustained at 24 weeks. Third-dose resulted in marked increases in both antibody and T-cell responses 4-weeks. Expanded analyses, including in-depth immunophenotyping and 12-week post 3rd vaccination responses will be presented.

Humoral and Cellular Responses to SARS-CoV-2 Vaccines in MS Patients on Ocrelizumab and Other Disease-modifying Therapies: A Prospective Study From NYU Multiple Sclerosis Care Center

Objective: To compare humoral and cellular responses to COVID-19 vaccines in 400 consecutive MS patients who were on Ocrelizumab ('OCR') and other disease-modifying therapies ('nonOCR') at the time of vaccination. Background: Peripheral B-cell depletion with anti-CD20 therapies, attenuates humoral responses to vaccines, but less is known about cellular responses. Design/Methods: Consecutive MS patients from NYU MS Care Center were invited to participate if they completed COVID-19 vaccination ≥6 weeks previously. Immune testing included anti-spike RBD antibody (Elecsys Anti-SARS-CoV-2) (Roche Diagnostics);multiepitope bead-based immunoassays (MBI) of antibody-responses to SARS-COV-2 spike proteins (threshold of 'positivity'was chosen as 2 SD below non-OCR mean);T-cell responses to SARSCoV-2 Spike protein using IFNγ enzyme-linked immune-absorbent spot (Invitrogen) and TruCulture (Myriad RBM) assays;high dimensional immunophenotyping;live virus immunofluorescence-based microneutralization assay. Results: Antibody and T cell data was available on 145/355 patients enrolled to date (mean age: 40.0 years;75% female;48% non-white;39% on OCR;12% with prior COVID-19 infection;vaccines: 58% Pfizer/BioNTech, 36% Moderna and 6% Johnson&Johnson;median vaccine-tosample time: 93 (+/-32) days). In OCR, Elecsys Anti-SARS-CoV-2 Ab titers were detected in 30/63 (48%;mean antibody titer in log scale: 1.63) and in non-OCR - in 78/81 (96%, mean Ab titer in log scale: 2.83;p<0.0001). In OCR, antibody response by MBI were detected in 41/57 (72%, mean level in log scale: 3.09) and in non OCR - in 68/72 (94%, mean level in log scale: 4.08;p<0.001). Neutralizing antibodies were detected in 10/42 (38%) of OCR and 24/43 (56%) of non-OCR (p=0.1). T-cell activation based on induced IFNg secretion (TruCulture) was observed in 50/64 (78%) OCR and 43/81 (53%) non-OCR (p=0.002). Conclusions: Preliminary results suggest robust vaccine-specific T-cell immune response to SARS-CoV2 vaccines in B-cell depleted patients, but markedly attenuated antibody responses. Final results of pre-planned multivariable analyses stratified by DMT class and high-dimensional immunophenotyping will be presented.

Antibody and T-cell responses to SARS-CoV-2 vaccines in MS patients on Ocrelizumab and other disease-modifying therapies: Preliminary results of an ongoing, prospective study

Objective: To compare humoral and T-cell responses to COVID- 19 vaccines in 400 MS patients who were on Ocrelizumab ('OCR') v. other disease-modifying therapies ('non-OCR') at the time of vaccination. Introduction: Peripheral B-cell depletion with anti-CD20 therapies attenuates humoral responses to vaccines. Whether immune responses to COVID-19 vaccines differ between B-cell depleted and non-B cell depleted MS patients is not known. Methods: Consecutive MS patients from NYU MS Care Center were invited to participate if they completed COVID-19 vaccination ≥6 weeks previously. Immune testing included anti-spike RBD antibody (Elecsys Anti-SARS-CoV-2) (Roche Diagnostics);multiplex bead-based immunoassays of antibody-responses to SARS-COV-2 spike proteins;T-cell responses to SARS-CoV-2 Spike protein using IFNγ enzyme-linked immune-absorbent spot (Invitrogen) and TruCulture (Myriad RBM) assays;high dimensional immunophenotyping;and live virus immunofluorescencebased microneutralization assay. Results: As of 7/15/2021, 105 MS subjects were enrolled (mean age: 40.5 years;76% female;41% non-white;38% on OCR;12% with prior COVID-19 infection). 95% were fully vaccinated with mRNA vaccines (Pfizer/Moderna);5% - with adenovirus-based vaccine (Johnson&Johnson). Median time from sample collection to last vaccine was 79 days. Positive Elecsys Anti-SARS-CoV-2 Ab titers post-vaccine were detected in 11/37 (30%) in OCR (mean level: 702 U/mL among seropositives) and 54/54 (100%) patients in non-OCR (mean level: 2310 U/mL;p<0.0001). Positive response by multiplex assay (threshold of 'positive' defined as 2 SD below the mean for the non-OCR) were detected in 10/27 (37%) OCR and 29/31 (94%) non-OCR (p<0.00001). T-cell activation based on induced IFNγ secretion (TruCulture) was detected in 20/25 (80%) OCR and 16/19 (84%) non-OCR patients (p=0.71). Conclusions: Preliminary results suggest robust T-cell immune response to SARS-CoV2 vaccines in approximately 80% of both OCR and non-OCR MS patients. Antibody responses were markedly attenuated in OCR compared to non-OCR group. Updated results will be presented.

One dose of COVID-19 mRNA vaccine in SARS-CoV-2-experienced people may be sufficient

Background: Understanding if single doses of SARS-CoV-2 mRNA vaccines in SARS-CoV-2-experienced people are fully protective is a public health priority. This study measured immune responses before and after mRNA vaccine in people with or without histories of COVID-19. Methods: Specimens were collected from participants before and 6-14 days after doses 1 and 2. Humoral assays included an S1-specific Ig ELISA and a livevirus microneutralization assay (MN) vs the original SARS-CoV-2 USA-WA1/2020 strain. ELISpot assays and 36-color spectral analysis flow cytometry assessed B- and T-cell responses. Results: 32 adults received Pfizer BioNTech vaccine and 1 received Moderna vaccine. 14 had a history of COVID-19 (median age 41, 71% female, 10 with 3/20 and 2 with 12/20 illness onset, 2 asymptomatic). 19 were SARS-CoV-2-naïve (median age 39, 47% female). S1-specific IgG/A/M ASC were detected readily by ELISpot 6-14 days after dose 1 and were higher in SARS-CoV-2-experienced (median: 200) than -naïve (median: 27) subjects;after dose 2, the converse was observed (medians 53 vs 293). By flow cytometry, T cell activation was broadly observed 6-14 days after 1st vaccination, with increases in CD4+ or CD8+ T cells expressing CD38 and Ki67 (CD4: median fold-changes 1.6 for SARS-CoV-2-experienced and 1.8 for -naïve;CD8: 3.1 and 2.2). S1-specific IgG was present at baseline in experienced subjects (median: 6320), peaked at 6-14 days post-dose 1 (median: 169000), and wasn't boosted by dose 2 (panel A). In naïve participants, S1-specific IgG was not present at baseline, low at day 6-14 (median: 66), higher at day 21 (median: 27000), and boosted by dose 2 (median: 188000). Interestingly, by 6-14 days after dose 2, experienced and naïve subjects had similar S1-specific IgG titers. The MN titers followed a similar pattern (panel B): in experienced subjects, striking increases after dose 1 (median: 9860) but no boosting by dose 2;in naïve subjects, no neutralization was observed at 6-14 days, low titers were present at 21 days post-dose 1 (median: 43), with boosting after dose 2 (median: 513). Conclusion: People with a history of SARS-CoV-2 infection who received a single dose of mRNA vaccine produced binding and neutralizing antibody titers at 6-14 days that were similar to, or higher than, titers in SARS-CoV-2-naïve people who had received 2 doses. Their titers were not boosted by a second dose. These findings support a hypothesis that SARS-CoV-2-experienced people may require only a single dose of mRNA vaccine.