Recruitment of plasma cells to the bone marrow in primary and secondary immune reactions (preprint)

Bone marrow plasma cells (BMPC) emerge as a consequence of immune reactions and are considered the source of antibodies that protect against recurrent infectious diseases throughout life. Despite their importance, it remains unclear if these cells reflect different activation environments or the differentiation/maturation stages of their precursors. Here we track the recruitment of plasma cells, generated in primary and secondary immune reactions to SARS-CoV-2 spike protein vaccines, to the human bone marrow. Trajectories based on single cell transcriptomes and antigen-receptor clonotypes of antibody-secreting cells exiting the immune reaction and of those residing in the bone marrow, allow to follow the evolution of the immune response to these vaccines, leading to sequential colonization of these cells to different compartments (clans) of BMPC, and their establishment as long-lived (memory) plasma cells. In primary immune reactions, both CD19low (clans 1 and 4) and CD19high (clan 0) BMPC are generated. In secondary immune reactions, mostly CD19high BMPC of the largest compartment (clan 0) are generated, resulting from the reactivation of memory B lymphocytes. The latter is also observed in vaccinated convalescent individuals and upon recall vaccination against diphtheria/tetanus/pertussis (DTP). Thus, humoral immunological memory, i.e. serum antibodies secreted by long-lived memory BMPC, is generated already in the primary immune response, more so in the secondary, and it represents the evolution of the immune response.

Altered increase in STAT1 expression and phosphorylation in severe COVID-19 (preprint)

The interferon pathway represents a key antiviral defense mechanism and is being considered as a therapeutic target in COVID-19. Both, substitution of interferon and blocking interferon signaling through JAK STAT inhibition to limit cytokine storms have been proposed. However, little is known so far about possible abnormalities in STAT signaling in immune cells during SARS-CoV-2 infection. In the current study, we investigated downstream targets of interferon signaling, including STAT1, pSTAT1 and 2 and IRF1, 7 and 9 by flow cytometry in 30 patients with COVID-19, 17 with mild and 13 with severe infection. We report an upregulation of STAT1 and IRF9 in mild and severe COVID-19 cases, which correlated with the IFN-signature assessed by Siglec-1 (CD169) expression on peripheral monocytes. Most interestingly, Siglec-1 and STAT1 in CD14+ monocytes and plasmablasts showed lower expression among severe COVID-19 cases compared to mild cases. Contrary to the baseline whole protein STAT1 expression, the phosphorylation of STAT1 was enhanced in severe COVID-19 cases, indicating a dysbalanced JAK STAT signaling that fails to induce transcription of interferon stimulated response elements (ISRE). This abnormality persisted after IFN- and IFN-{gamma} stimulation of PBMCs from patients with severe COVID-19. The data suggest impaired STAT1 transcriptional upregulation among severely infected patients which may represent a potential predictive biomarker and may allow stratification of patients for certain interferon-pathway targeted treatments.

B cell numbers predict humoral and cellular response upon SARS-CoV-2 vaccination among patients treated with rituximab (preprint)

Objectives Patients with autoimmune inflammatory rheumatic diseases receiving rituximab (RTX) therapy show substantially impaired anti-SARS-CoV-2 vaccine humoral but partly inducible cellular immune responses. However, the complex relationship between antigen-specific B and T cells and the level of B cell repopulation necessary to achieve anti-vaccine responses remain largely unknown. Methods Antibody responses to SARS-CoV-2 vaccines and induction of antigen-specific B and CD4/CD8 T cell subsets were studied in 19 rheumatoid arthritis (RA) and ANCA-associated vasculitis (AAV) patients receiving RTX, 12 RA patients on other therapies and 30 healthy controls after SARS-CoV-2 vaccination with either mRNA or vector based vaccines. Results A minimum of 10 B cells/µL in the peripheral circulation was necessary in RTX patients to mount seroconversion to anti-S1 IgG upon SARS-CoV-2 vaccination. RTX patients lacking IgG seroconversion showed reduced antigen-specific B cells, lower frequency of TfH-like cells as well as less activated CD4 and CD8 T cells compared to IgG seroconverted RTX patients. Functionally relevant B cell depletion resulted in impaired IFNγ secretion by spike-specific CD4 T cells. In contrast, antigen-specific CD8 T cells were reduced in patients independently of IgG formation. Conclusions Patients receiving rituximab with B cell numbers above 10 B cells/µl were able to mount humoral and more robust cellular responses after SARS-CoV-2 vaccination that may permit optimization of vaccination in these patients. Mechanistically, the data emphasize the crucial role of co-stimulatory B cell functions for the proper induction of CD4 responses propagating vaccine-specific B and plasma cell differentiation.

Impaired antigen-specific memory B cell and plasma cell responses including lack of specific IgG upon SARS-CoV-2 BNT162b2 vaccination among Kidney Transplant and Dialysis patients (preprint)

Patients with kidney failure are at increased risk during the COVID-19 pandemic and effective vaccinations are needed. It is not known how efficient mRNA vaccines mount B and plasma cell responses in dialysis patients (DP) or kidney transplant recipients (KTR) compared to healthy controls (HC). We studied humoral and B cell responses of 25 HC, 44 DP and 40 KTR. Markedly impaired anti-BNT162b2 responses were identified among KTR and DP compared to 100% seroconversion in HC. In DP, the response was delayed (3-4 weeks after boost) and reduced with anti-S1 IgG positivity in 31 (70.5%) and anti-S1 IgA in 30 (68.2%) of 44, respectively. In contrast, KTR did not develop IgG response except one patient who had prior unrecognized infection and developed anti-S1 IgG. The majority of antigen-specific B cells (RBD+) were identified in the plasmablast or post-switch memory B cell compartments in HC, whereas these RBD+ B cells were enriched among pre-switch and naive B cells from DP and KTR. Single cell transcriptome and CITE-seq analyses found reduced frequencies of plasmablasts, TCF7+CD27+GZMK+ T cells and proliferating MKI67-expressing lymphocytes among KTR non-responders. Importantly, the frequency and absolute number of antigen-specific circulating plasmablasts in the whole cohort correlated with the Ig response, a characteristic not reported for other vaccinations. In conclusion, this data indicate that lack of T cell help related to immunosuppression results in impaired germinal center differentiation of B and plasma cell memory. There is an urgent need to improve vaccination protocols in patients after kidney transplantation or on chronic dialysis. One Sentence SummaryKidney transplant recipients and dialysis patients show a markedly diminished humoral response and impaired molecular B cell memory formation upon vaccination with BNT162b2.