C1q receptors and endothelial cell activation

The complement system as a key modulator of the oral microbiome in health and disease

In this review, we address the interplay between the complement system and host microbiomes in health and disease, focussing on oral bacteria known to contribute to homeostasis or to promote dysbiosis associated with dental caries and periodontal diseases. Host proteins modulating complement activities in the oral environment and expression profiles of complement proteins in oral tissues were described. In addition, we highlight a sub-set of bacterial proteins involved in complement evasion and/or dysregulation previously characterized in pathogenic species (or strains), but further conserved among prototypical commensal species of the oral microbiome. Potential roles of these proteins in host-microbiome homeostasis and in the emergence of commensal strain lineages with increased virulence were also addressed. Finally, we provide examples of how commensal bacteria might exploit the complement system in competitive or cooperative interactions within the complex microbial communities of oral biofilms. These issues highlight the need for studies investigating the effects of the complement system on bacterial behaviour and competitiveness during their complex interactions within oral and extra-oral host sites.

Diversity in Phenotypes Associated With Host Persistence and Systemic Virulence in Streptococcus sanguinis Strains

Streptococcus sanguinis is a pioneer commensal species of dental biofilms, abundant in different oral sites and commonly associated with opportunist cardiovascular infections. In this study, we addressed intra-species functional diversity to better understand the S. sanguinis commensal and pathogenic lifestyles. Multiple phenotypes were screened in nine strains isolated from dental biofilms or from the bloodstream to identify conserved and strain-specific functions involved in biofilm formation and/or persistence in oral and cardiovascular tissues. Strain phenotypes of biofilm maturation were independent of biofilm initiation phenotypes, and significantly influenced by human saliva and by aggregation mediated by sucrose-derived exopolysaccharides (EPS). The production of H2O2 was conserved in most strains, and consistent with variations in extracellular DNA (eDNA) production observed in few strains. The diversity in complement C3b deposition correlated with the rates of opsonophagocytosis by human PMN and was influenced by culture medium and sucrose-derived EPS in a strain-specific fashion. Differences in C3b deposition correlated with strain binding to recognition proteins of the classical pathway, C1q and serum amyloid protein (SAP). Importantly, differences in strain invasiveness into primary human coronary artery endothelial cells (HCAEC) were significantly associated with C3b binding, and in a lesser extent, with binding to host glycoproteins (such as fibrinogen, plasminogen, fibronectin, and collagen). Thus, by identifying conserved and strain-specific phenotypes involved in host persistence and systemic virulence, this study indicates potential new functions involved in systemic virulence and highlights the need of including a wider panel of strains in molecular studies to understand S. sanguinis biology.

Resolution of clinical and pathologic features of C1q nephropathy after rituximab therapy

C1q nephropathy is a rare idiopathic glomerulopathy characterized by mesangial deposition of immunoglobulin and complement with C1q dominance or co-dominance, and the absence of clinical and laboratory evidence of systemic lupus erythematosus. Its clinical course is unpredictable and the response to corticosteroid or cytotoxic treatment is variable. Here, we report two cases of C1q nephropathy, one in a child and one in an adult, both presenting with impaired renal function and massive proteinuria. Both patients failed to respond to immunosuppressive medications; however, rituximab, an anti-CD20 antibody, was effective in preserving renal function in one patient and eliminating the need for hemodialysis in the other. In one patient, histologic regression of abnormalities was documented over 3 years post-treatment. Both patients have remained off other immunosuppressive medication for a prolonged period with stable renal function. These cases are, to our knowledge, the first reported successful treatment of C1q nephropathy with rituximab.

Rituximab treatment of collapsing C1q glomerulopathy: clinical and histopathological evolution

A 13-year-old girl with obesity and hyperinsulinism developed steroid-resistant nephrotic syndrome due to collapsing glomerulopathy with dominant C1q-containing mesangial immune deposits (CG/C1qN). She became overtly diabetic while receiving alternate-day prednisone and tacrolimus, requiring insulin injections. Despite the addition of mycophenolate mofetil to the treatment regimen, renal function subsequently declined. Rituximab (four weekly doses of 375 mg/m2) was tried 6 months after initial presentation and 3 months after weaning all glucocorticoids. Glomerular filtration rate (GFR) and proteinuria improved. Unexpectedly, blood sugar control normalized 6 weeks after antibody infusion. Rituximab was readministered 20 months after the first course because of deteriorating renal function, but the effect on GFR and proteinuria was modest. A retrospective analysis revealed that tubulointerstitial infiltrates present in the biopsies prior to treatment with rituximab contained numerous CD20+ and CD3+ (CD4 > CD8) lymphocyte aggregates. Rebiopsy 10 weeks after repeat rituximab therapy demonstrated the elimination of B-cell infiltrates and the apparent decrease of interstitial T-cell infiltrates, yet persistent, advanced global glomerulosclerosis, interstitial fibrosis and tubular atrophy. In conclusion, CG/C1qN was associated with B- and T-cell-rich tubulointerstitial infiltrates. B-cell-directed therapy delayed clinical progression during early disease but failed to prevent or ameliorate chronic changes, despite effective tissue B-cell clearance. The incidental resolution of diabetes was noted after rituximab treatment.

MBL and C1q compete for interaction with human endothelial cells

C1q, the recognition molecule of the classical pathway of complement, binds to endothelial cells, leading to cell activation. Mannose-binding lectin (MBL), a recognition molecule of the lectin pathway, is structurally and functionally related to C1q. Therefore, we investigated the interaction of MBL with human umbilical vein endothelial cells (HUVEC). C1q and MBL were purified from normal human plasma and binding to HUVEC was evaluated by flow cytometry. Cross-competition experiments were performed using MBL and C1q labeled with digoxygenin. MBL, similar to C1q, exhibited a dose-dependent binding to HUVEC under calcium-free conditions, suggesting involvement of its collagenous domains. Pre-incubation of HUVEC with MBL inhibited the binding of digoxygenin-labeled MBL at equimolar concentrations, confirming the specificity of the interaction. Pre-incubation of HUVEC with MBL inhibited the binding of C1q and vice versa. Activation of HUVEC with LPS resulted in increased C1q and MBL binding. Stimulation of HUVEC with MBL did not result in a detectable increase in cytokine production. Based on these results, we propose that MBL and C1q bind to a shared receptor on endothelial cells. Interaction of MBL and C1q with receptors on endothelial cells may be involved in inflammatory processes, and in clearance of pathogens and apoptotic cells.