Down-regulation of complement genes in lipopolysaccharide-challenged zebrafish (Danio rerio) larvae exposed to Indonesian propolis

Although propolis has been reported for having anti-inflammatory activities, its effects on complement system has not been much studied. This research was conducted to find out the effects of Indonesian propolis on the expression levels of C3, C1r/s, Bf, MBL, and C6 in zebrafish larvae which were induced by lipopolysaccharide (LPS). Counting of macrophages migrating to yolk sac and liver histology were carried out. Larvae were divided into four groups: CON (cultured in E3 medium only), LPS (cultured in a medium containing 0.5 μg/L LPS), LPSIBU (cultured in a medium containing LPS, and then treated with 100 μg/L ibuprofen for 24 hours), and LPSPRO (cultured in a medium containing LPS, and then immersed in 14,000 μg/L propolis for 24 hours) groups. The results showed that complement gene expression in larvae from the LPSIBU and LPSPRO groups were generally lower than in larvae from the LPS group. The number of macrophage migrations to the yolk in the LPSPRO group was also lower than in the LPS group. Histological structure of liver in all groups were considered normal. This study shows that Indonesian propolis has the potential to be used as an alternative to the substitution of NSAIDs.

COVID-19: a trigger for severe thrombotic microangiopathy in a patient with complement gene variant

The evidence regarding thrombotic microangiopathy (TMA) related to Coronavirus Infectious Disease 2019 (COVID-19) in patients with complement gene mutations as a cause of acute kidney injury (AKI) are limited. We presented a case of a 23-year-old male patient admitted with an asymptomatic form of COVID-19, but with uncontrolled hypertension and AKI. Kidney biopsy showed severe lesions of TMA. In evolution patient had persistent microangiopathic hemolytic anemia, decreased level of haptoglobin and increased LDH level. Decreased complement C3 level and the presence of schistocytes were found for the first time after biopsy. Kidney function progressively decreased and the patient remained hemodialysis dependent. Complement work-up showed a heterozygous variant with unknown significance in complement factor I (CFI) c.-13G>A, affecting the 5' UTR region of the gene. In addition, the patient was found to be heterozygous for the complement factor H (CFH) H3 haplotype (involving the rare alleles of c.-331C>T, Q672Q and E936D polymorphisms) reported as a risk factor of atypical hemolytic uremic syndrome. This case of AKI associated with severe TMA and secondary hemolytic uremic syndrome highlights the importance of genetic risk modifiers in the alternative pathway dysregulation of the complement in the setting of COVID-19, even in asymptomatic forms.

Immune response to allogeneic equine mesenchymal stromal cells

Background Mesenchymal stromal cells (MSCs) are believed to be hypoimmunogeneic with potential use for allogeneic administration. Methods Bone marrow was harvested from Connemara (n = 1), Standardbred (n = 6), and Thoroughbred (n = 3) horses. MSCs were grouped by their level of expression of major histocompatibility factor II (MHC II). MSCs were then sub-grouped by those MSCs derived from universal blood donor horses. MSCs were isolated and cultured using media containing fetal bovine serum until adequate numbers were acquired. The MSCs were cultured in xenogen-free media for 48 h prior to use and during all assays. Autologous and allogeneic MSCs were then directly co-cultured with responder leukocytes from the Connemara horse in varying concentrations of MSCs to leukocytes (1:1, 1:10, and 1:100). MSCs were also cultured with complement present and heat-inactivated complement to determine whether complement alone would decrease MSC viability. MSCs underwent haplotyping of their equine leukocyte antigen (ELA) to determine whether the MHC factors were matched or mismatched between the donor MSCs and the responder leukocytes. Results All allogeneic MSCs were found to be ELA mismatched with the responder leukocytes. MHC II-low and universal blood donor MSCs caused no peripheral blood mononuclear cell (PBMC) proliferation, no increase in B cells, and no activation of CD8 lymphocytes. Universal blood donor MSCs stimulated a significant increase in the number of T regulatory cells. Neutrophil interaction with MSCs showed that universal blood donor and MHC II-high allogeneic MSCs at the 6 h time point in co-culture caused greater neutrophil activation than the other co-culture groups. Complement-mediated cytotoxicity did not consistently cause MSC death in cultures with active complement as compared to those with inactivated complement. Gene expression assays revealed that the universal blood donor group and the MHC II-low MSCs were more metabolically active both in the anabolic and catabolic gene categories when cultured with allogeneic lymphocytes as compared to the other co-cultures. These upregulated genes included CD59, FGF-2, HGF, IDO, IL-10, IL-RA, IL-2, SOX2, TGF-β1, ADAMSTS-4, ADAMSTS-5, CCL2, CXCLB/IL-8, IFNγ, IL-1β, and TNFα. Conclusions MHC II-low MSCs are the most appropriate type of allogeneic MSC to prevent activation of the innate and cell-mediated component of the adaptive immune systems and have increased gene expression as compared to other allogeneic MSCs.

Complement Activation Drives Progression of Pre-Eclampsia to HELLP Syndrome

Background: Pre-eclampsia is a hypertensive disorder of pregnancy that affects about 5% of all pregnancies; however, its pathogenesis remains poorly understood. About 1% of pre-eclampsia cases will progress to a severe form termed HELLP syndrome characterized by Hemolysis, Elevated Liver enzymes, and Low Platelet counts. We have previously shown that abnormal activation of complement is a driver of disease in a subset of patients with HELLP syndrome (Vaught et al. 2016 and 2018). Based on these studies, we proposed that germline variants in complement regulatory genes predispose to HELLP in the setting of pregnancy, a complement amplifying event. However, whether complement dysregulation correlates to disease severity in HELLP syndrome is unclear. In addition, the contribution of complement activation to the onset or severity of pre-eclampsia remains unknown. We hypothesized that patients with pre-eclampsia harboring complement gene variants are at increased risk for progression to HELLP syndrome and worse maternal and fetal outcomes due to dysregulation of the complement system. Methods: In this prospective cohort study, patients with the pregnancy-associated hypertensive disorders including HELLP or pre-eclampsia were enrolled after diagnostic validation with the Tennessee and ACOG classification criteria, respectively. In total, 24 women with HELLP and 42 women with pre-eclampsia were enrolled and followed through their hospital course and compared with 47 healthy normotensive pregnant women. Both maternal and fetal clinical outcomes were recorded. Delivery before estimated gestational age < 23 weeks was considered previable, and intra-uterine fetal death (IUFD) was characterized as death of the fetus in utero during the pregnancy. Targeted sequencing of 13 genes known to regulate the alternative complement pathway was performed, and non-synonymous, heterozygous germline variants with a minor allele frequency less than 0.01 were identified. A functional assay for complement activation, the modified Ham assay (mHam), was performed in a subset of cases with available serum samples. The mHam is based on the principle that a cell line lacking surface complement regulators is susceptible to complement mediated cell death; non-viable cells > 20.5% is considered a positive test. Results: The frequency of rare germline variants in the HELLP cohort was 45.8%, comparable to a well-established complement mediated disease (aHUS, Table 1). By comparison, the frequency of germline variants in the pre-eclampsia and control cohort was 28.6% and 23.4%, respectively. Of the 14 patients with sera available to perform the mHam, 57% of HELLP syndrome patients had a positive mHam as compared to 0% of the controls (p = incalculable). Among patients with HELLP syndrome, those with a complement gene variant were more likely to have a poor clinical outcome compared to those without a variant. Specifically, 3/11 patients with variants versus 1/13 patients without variants were diagnosed at a previable stage and/or experienced IUFD (p = 0.19). There was no difference in the rate of HELLP onset after 28 and 34 weeks between the two groups. Notably, when comparing the cohort of HELLP patients harboring variants to the cohort without, patients with variants had higher rates of acute renal failure, hypoxia, and ICU care, but a lower frequency of blood transfusions (Table 2). Conclusion: Patients with HELLP syndrome harbor rare germline variants in complement genes at a greater frequency than controls (p = 0.05) and a similar frequency to aHUS, a known complement mediated disease. HELLP syndrome patients also carry mutations at a higher frequency than women with pre-eclampsia (p = 0.16) who have a similar rate of variants as controls. This suggests that complement gene variants predispose to progression of pre-eclampsia to HELLP syndrome where the gene variant and pregnancy provide a first and second 'hit' similar to other complement disorders. Patients with rare complement-associated variants are also more likely more susceptible to severe disease manifestations. Figure 1 Figure 1. Disclosures Chaturvedi: UCB: Other: Advisory board participation; Sanofi Genzyme: Other: Advisory board member; Alexion: Other: Advisory board member; Dova: Other: Advisory board member; Argenx: Other: Advisory board member.

Chronic complement dysregulation drives neuroinflammation after traumatic brain injury: a transcriptomic study

Activation of the complement system propagates neuroinflammation and brain damage early and chronically after traumatic brain injury (TBI). The complement system is complex and comprises more than 50 components, many of which remain to be characterized in the normal and injured brain. Moreover, complement therapeutic studies have focused on a limited number of histopathological outcomes, which while informative, do not assess the effect of complement inhibition on neuroprotection and inflammation in a comprehensive manner. Using high throughput gene expression technology (NanoString), we simultaneously analyzed complement gene expression profiles with other neuroinflammatory pathway genes at different time points after TBI. We additionally assessed the effects of complement inhibition on neuropathological processes. Analyses of neuroinflammatory genes were performed at days 3, 7, and 28 post injury in male C57BL/6 mice following a controlled cortical impact injury. We also characterized the expression of 59 complement genes at similar time points, and also at 1- and 2-years post injury. Overall, TBI upregulated the expression of markers of astrogliosis, immune cell activation, and cellular stress, and downregulated the expression of neuronal and synaptic markers from day 3 through 28 post injury. Moreover, TBI upregulated gene expression across most complement activation and effector pathways, with an early emphasis on classical pathway genes and with continued upregulation of C2, C3 and C4 expression 2 years post injury. Treatment using the targeted complement inhibitor, CR2-Crry, significantly ameliorated TBI-induced transcriptomic changes at all time points. Nevertheless, some immune and synaptic genes remained dysregulated with CR2-Crry treatment, suggesting adjuvant anti-inflammatory and neurotropic therapy may confer additional neuroprotection. In addition to characterizing complement gene expression in the normal and aging brain, our results demonstrate broad and chronic dysregulation of the complement system after TBI, and strengthen the view that the complement system is an attractive target for TBI therapy.

The Impact of Complement Genes on the Risk of Late-Onset Alzheimer’s Disease

Late-onset Alzheimer’s disease (LOAD), the most common cause of dementia, and a huge global health challenge, is a neurodegenerative disease of uncertain aetiology. To deliver effective diagnostics and therapeutics, understanding the molecular basis of the disease is essential. Contemporary large genome-wide association studies (GWAS) have identified over seventy novel genetic susceptibility loci for LOAD. Most are implicated in microglial or inflammatory pathways, bringing inflammation to the fore as a candidate pathological pathway. Among the most significant GWAS hits are three complement genes: CLU, encoding the fluid-phase complement inhibitor clusterin; CR1 encoding complement receptor 1 (CR1); and recently, C1S encoding the complement enzyme C1s. Complement activation is a critical driver of inflammation; changes in complement genes may impact risk by altering the inflammatory status in the brain. To assess complement gene association with LOAD risk, we manually created a comprehensive complement gene list and tested these in gene-set analysis with LOAD summary statistics. We confirmed associations of CLU and CR1 genes with LOAD but showed no significant associations for the complement gene-set when excluding CLU and CR1. No significant association with other complement genes, including C1S, was seen in the IGAP dataset; however, these may emerge from larger datasets.

Outcomes of a clinician-directed protocol for discontinuation of complement inhibition therapy in atypical hemolytic uremic syndrome

Terminal complement inhibition is the standard of care for atypical hemolytic uremic syndrome (aHUS). The optimal duration of complement inhibition is unknown, although indefinite therapy is common. Here, we present the outcomes of a physician-directed eculizumab discontinuation and monitoring protocol in a prospective cohort of 31 patients that started eculizumab for acute aHUS (and without a history of renal transplant). Twenty-five (80.6%) discontinued eculizumab therapy after a median duration on therapy of 2.37 (interquartile range: 1.06, 9.70) months. Eighteen patients discontinued per protocol and 7 because of nonadherence. Of these, 5 (20%) relapsed; however, relapse rate was higher in the case of nonadherence (42.8%) vs clinician-directed discontinuation and monitoring (11.1%). Four of 5 patients who relapsed were successfully retreated without a decline in renal function. One patient died because of recurrent aHUS and hypertensive emergency in the setting of nonadherence. Nonadherence to therapy (odds ratio, 8.25; 95% confidence interval, 1.02-66.19; P = .047) was associated with relapse, whereas the presence of complement gene variants (odds ratio, 1.39; 95% confidence interval, 0.39-4.87; P = .598) was not significantly associated with relapse. Relapse occurred in 40% (2 of 5) with a CFH or MCP variant, 33.3% (2 of 6) with other complement variants, and 0% (0 of 6) with no variants (P = .217). There was no decline in mean glomerular filtration rate from the date of stopping eculizumab until end of follow-up. In summary, eculizumab discontinuation with close monitoring is safe in most patients, with low rates of aHUS relapse and effective salvage with eculizumab retreatment in the event of recurrence.

Eculizumab use in a tertiary care nephrology center: data from the Vienna TMA cohort

Background Practice patterns of eculizumab use are not well described. We examined indications for, and outcomes of, eculizumab therapy in a tertiary care nephrology center. Methods We used the “Vienna TMA cohort” and the hospital pharmacy database at the Medical University of Vienna to identify patients that received eculizumab treatment between 2012 and 2019. We describe clinical characteristics, details of eculizumab use, and outcomes of patients with complement gene-variant mediated TMA (cTMA), secondary TMA (sTMA) and C3 glomerulopathy (C3G). Results As of December 2019, 23 patients received complement blockade at the Division of Nephrology and Dialysis: 15 patients were diagnosed with cTMA, 6 patients with sTMA and 2 patients with C3G. Causes of sTMA were bone marrow transplantation (n = 2), malignant hypertension, malignant tumor, systemic lupus erythematosus, antiphospholipid syndrome and lung transplantation (each n = 1). Across all indications, patients had a median age of 31 and were predominantly female (78%) and the median duration of treatment was 227 days. Hematological recovery was seen in most patients, while renal response was best in patients with cTMA. Adverse events were recorded in 26%. Conclusions In summary, eculizumab is the treatment of choice for cTMA patients that do not respond to plasma therapy. In patients with sTMA and C3G, the response rates to therapy are much lower and therefore, the decision to start therapy needs to be considered carefully. Graphic abstract

Shiga Toxin 2a Binds to Complement Components C3b and C5 and Upregulates Their Gene Expression in Human Cell Lines

Enterohemorrhagic Escherichia coli (EHEC) infections can cause EHEC-associated hemolytic uremic syndrome (eHUS) via its main virulent factor, Shiga toxins (Stxs). Complement has been reported to be involved in the progression of eHUS. The aim of this study was to investigate the interactions of the most effective subtype of the toxin, Stx2a, with pivotal complement proteins C3b and C5. The study further examined the effect of Stx2a stimulation on the transcription and synthesis of these complement proteins in human target cell lines. Binding of Stx2a to C3b and C5 was evaluated by ELISA. Kidney and gut cell lines (HK-2 and HCT-8) were stimulated with varied concentrations of Stx2a. Subsequent evaluation of complement gene transcription was studied by real-time PCR (qPCR), and ELISAs and Western blots were performed to examine protein synthesis of C3 and C5 in supernatants and lysates of stimulated HK-2 cells. Stx2a showed a specific binding to C3b and C5. Gene transcription of C3 and C5 was upregulated with increasing concentrations of Stx2a in both cell lines, but protein synthesis was not. This study demonstrates the binding of Stx2a to complement proteins C3b and C5, which could potentially be involved in regulating complement during eHUS infection, supporting further investigations into elucidating the role of complement in eHUS pathogenesis.