Usefulness and analytical performances of complement multiplex assay for measuring complement biomarkers in plasma

The complement system in clinical oncology: Applications, limitations and challenges

The complement system, a key component of innate immunity, is involved in seemingly contradictory aspects of tumor progression and cancer therapy. It can act as an immune effector against cancer and modulate the antitumor activity of certain therapeutic antibodies, but it can also contribute to a tumor-promoting microenvironment. Understanding this dual role should lead to the development of better therapeutic tools, strategies for cancer treatment and biomarkers for the clinical management of cancer patients. Here, we review recent advances in the understanding of the role of complement in cancer, focusing on how these findings are being translated into the clinic. We highlight the activity of therapeutic agents that modulate the complement system, as well as combination therapies that integrate complement modulation with existing therapies. We conclude that the role of complement activation in cancer is a rapidly evolving field with the potential to translate findings into new therapeutic strategies and clinically useful biomarkers.

Shedding light on the role of complement C4 activation in cancer

Complement C4 is a key component in the activation of classical and lectin complement pathways, which are observed in both animal tumor models and cancer patients. While its role in autoimmune disorders has been extensively studied, the functions of complement C4 and its activation in cancer have received inadequate consideration. Recent studies have detected C4 activation in animal tumor models and cancer patients, with its fragment C4d found in cancer tissues and lymph nodes. Elevated C4d levels could be a useful biomarker for detecting various cancers. This review aims to summarize recent developments on the role of complement C4 activation in promoting an immunosuppressive tumor microenvironment, thereby supporting tumor progression and metastasis; C4d as a biomarker; and its potential as a target for cancer immunotherapy. We also conduct a critical evaluation of methods used to measure complement C4 and its activation products, highlighting possible pitfalls and areas for improvement in existing research.

A potential bimodal interplay between heme and complement factor H 402H in the deregulation of the complement alternative pathway by SARS-CoV-2

The recent discovery that the trimeric SARS-CoV-2 spike S glycoprotein carries heme within an NTD domain pocket of the S1 subunits, suggested that this virus may be cleverly utilizing heme, in addition to the S1 RBD domains, for invading target cells carrying a specific entry receptor like ACE2, TMEM106B and others. Studies during the COVID-19 pandemic revealed that the infectivity of this virus depends on cell surface heparan sulfate and that the infection induces non-canonical activation of the Complement Alternative pathway (AP) on the surface of infected cells. In our recent COVID-19 genomic studies, among the coding SNPs of interest we also detected the presence of the CFH rs1061170, rs800292 and rs1065489 within all the infected patient subgroups examined. The minor C allele of rs1061170 encodes CFH 402H that over the years has been associated with diseases characterized by complement dysregulation namely the age-related macular degeneration (AMD) and the atypical haemolytic uremic syndrome (aHUS). Also, more recently with the diminishment of CD4+ T cell responses with ageing. The rs800292 minor allele A encodes CFH 62I that supports enhanced cofactor activity for Complement factor I (CFI). Also, the rs1065489 minor allele T encodes CFH 936D and is located within the CCP16 domain that influences the affinity of CFH with extracellular laminins. A subsequent computational analysis revealed that the CFH residue 402 is located centrally within a heme-binding motif (HBM) in domain CCP7 (398YNQNYGRKF406). Heme on the viral spike glycoprotein S1 subunit could recruit CFH 402H for masking free viral particles from opsonisation, and when in proximity to cell surface, act as a bait disrupting CFH 402H from the heparan sulphate coat of the target cells. Publicly available genetic data for European populations indicate that the minor C allele of rs1061170 is present only in haplotypes that carry the major alleles of rs800292 and rs1065489. This combination encodes for CFH 402H that exhibits increased biochemical affinity for heme in proximity, without enhanced cofactor activity for CFI and weaker association with the extracellular matrix. In the theatre of infection, this combination can promote heme-mediated viral infection with weaker complement opsonisation and potential AP deregulation. This strategy may be evolutionary conserved among various classes of infectious agents.

Systematic review of the complement components as potential biomarkers of pre-eclampsia: pitfalls and opportunities

The complement system (C) is a crucial component of the innate immune system. An increasing body of research has progressively shed light on the pivotal role of C in immunological tolerance at the feto-maternal interface. Excessive C activation or impaired C regulation may determine the onset of pregnancy-related pathological conditions, including pre-eclampsia (PE). Thus, several studies have investigated the presence of C components or split products in blood matrixes (i.e., plasma, serum), urine, and amniotic fluid in PE. In the current study, we systematically reviewed the currently available scientific literature reporting measurements of C components as circulating biomarkers in PE, based on a literature search using Pubmed, Scopus, and Embase databases. A total of 41 out of 456 studies were selected after full-text analysis. Fourteen studies (34.1%) were identified as measuring the blood concentrations of the classical pathway, 5 (12.1%) for the lectin pathway, 28 (68.3%) for the alternative pathway, 17 (41.5%) for the terminal pathway components, and 16 (39%) for C regulators. Retrieved results consistently reported C4, C3, and factor H reduction, and increased circulating levels of C4d, Bb, factor D, C3a, C5a, and C5b-9 in PE compared to normal pregnancies, depicting an overall scenario of excessive C activation and aberrant C regulation. With evidence of C activation and dysregulation, C-targeted therapy is an intriguing perspective in PE management. Moreover, we also discussed emerging pitfalls in C analysis, mainly due to a lack of experimental uniformity and biased cohort selection among different studies and laboratories, aiming to raise a more comprehensive awareness for future standardization.

Systematic review registration

https://www.crd.york.ac.uk/prospero/, identifier CRD42024503070.

Humoral complementomics - exploration of noninvasive complement biomarkers as predictors of renal cancer progression

Despite the progress of anti-cancer treatment, the prognosis of many patients with solid tumors is still dismal. Reliable noninvasive biomarkers are needed to predict patient survival and therapy response. Here, we propose a Humoral Complementomics approach: a work-up of assays to comprehensively evaluate complement proteins, activation fragments, and autoantibodies targeting complement proteins in plasma, which we correlated with the intratumoral complement activation, and/or local production, focusing on localized and metastatic clear cell renal cell carcinoma (ccRCC). In two prospective ccRCC cohorts, plasma C2, C5, Factor D and properdin were elevated compared to healthy controls, reflecting an inflammatory phenotype that correlated with plasma calprotectin levels but did not associate with CRP or with patient prognosis. Conversely, autoantibodies against the complement C3 and the reduced form of FH (a tumor neo-epitope reported in lung cancer) correlated with a favorable outcome. Our findings pointed to a specific group of patients with elevated plasma C4d and C1s-C1INH complexes, indicating the initiation of the classical pathway, along with elevated Ba and Bb, indicating alternative pathway activation. Boostrapped Lasso regularized Cox regression revealed that the most predictive complement biomarkers were elevated plasma C4d and Bb levels at the time of surgery, which correlated with poor prognosis. In conclusion, we propose Humoral Complementomics as an unbiased approach to study the global state of the complement system in any pathological plasma sample and disease context. Its implementation for ccRCC revealed that elevated C4d and Bb in plasma are promising prognostic biomarkers, correlating with shorter progression-free survival.

Complements and Their Role in Systemic Disorders

The complement system is critical to the body's innate defense against exogenous pathogens and clearance of endogenous waste, comprising the classical, alternative, and lectin pathways. Although tightly regulated, various congenital and acquired diseases can perturb the complement system, resulting in specific complement deficiencies. Systemic rheumatic, neurological, ophthalmological, renal, and hematological disorders are some prototypical complement-mediated diseases. An adequate understanding of the mechanisms of the normal complement system and the pathophysiology of complement dysregulation is critical for providing diagnostic clues and appropriately managing these conditions. This review guides clinicians in understanding the role of complement factors in systemic diseases and what diagnostic and therapeutic options are available for complement-mediated disorders.