Patients with systemic lupus erythematosus are deficient in complement-dependent prevention of immune precipitation

Serum level of fetuin-A in systemic lupus erythematosus patients: association with atherosclerosis and disease activity

OBJECTIVES

We aimed in this study to determine the level of serum fetuin-A level in systemic lupus erythematosus patients, assess the correlation between serum fetuin-A level and the activity of disease and the frequency of musculoskeletal manifestations, and detect the frequency of atherosclerosis among these patients by using carotid ultrasonography.

METHODS

This case-control study was carried out on 31 SLE patients attending the inpatient and outpatient clinics of Rheumatology and Rehabilitation Department, Faculty of Medicine, Zagazig university hospitals and 31 apparently healthy age- and sex-matched controls between January 1,2017, and December 31, 2018.

RESULTS

There is a highly significant difference between the two studied groups as regard fetuin-A and carotid intima-media thickness. There is a strong positive significant correlation between fetuin-A with C3 and a negative significant correlation between fetuin-A with Anti-dsDNA, SLEDAI, and carotid intima-media thickness in case group.

CONCLUSION

Fetuin-A levels were decreased in SLE patients, and these levels were inversely correlated with carotid intima-media thickness. Key Points • Fetuin-A level is a biomarker of atherosclerosis and asses disease activity in SLE patients.

Rheumatoid arthritis and systemic lupus erythematosus: Pathophysiological mechanisms related to innate immune system

Rheumatoid arthritis and systemic lupus erythematosus are two highly prevalent autoimmune diseases that generate disability and low quality of life. The innate immune system, a long-forgotten issue in autoimmune diseases, is becoming increasingly important and represents a new focus for the treatment of these entities. This review highlights the role that innate immune system plays in the pathophysiology of rheumatoid arthritis and systemic lupus erythematosus. The role of the innate immune system in rheumatoid arthritis and systemic lupus erythematosus pathophysiology is not only important in early stages but is essential to maintain the immune response and to allow disease progression. In rheumatoid arthritis, genetic and environmental factors are involved in the initial stimulation of the innate immune response in which macrophages are the main participants, as well as fibroblast-like synoviocytes. In systemic lupus erythematosus, all the cells contribute to the inflammatory response, but the complement system is the major effector of the inflammatory process. Detecting alterations in the normal function of these cells, besides its contribution to the understanding of the pathophysiology of autoimmune diseases, could help to establish new treatment strategies for these diseases.

Low copy numbers of complement C4 and homozygous deficiency of C4A may predispose to severe disease and earlier disease onset in patients with systemic lupus erythematosus

Objectives Low copy numbers and deletion of complement C4 genes are potent risk factors for systemic lupus erythematosus (SLE). However, it is not known whether this genetic association affects the clinical outcome. We investigated C4 copy number variation and its relationship to clinical and serological features in a Northern European lupus cohort. Methods We genotyped the C4 gene locus using polymerase chain reaction (PCR)-based TaqMan assays in 169 patients with SLE classified according to the 1997 revised American College of Rheumatology (ACR) criteria and in 520 matched controls. In the patient group the mean C4 serum protein concentrations nephelometrically measured during a 12-month period prior to genetic analysis were compared to C4 gene copy numbers. Severity of disease was classified according to the intensity of the immunosuppressive regimens applied and compared to C4 gene copy numbers, too. In addition, we performed a TaqMan based analysis of three lupus-associated single-nucleotide polymorphisms (SNPs) located inside the major histocompatibility complex (MHC) to investigate the independence of complement C4 in association with SLE. Results Homozygous deficiency of the C4A isotype was identified as the strongest risk factor for SLE (odds ratio (OR) = 5.329; p = 7.7 × 10^-3) in the case-control comparison. Moreover, two copies of total C4 were associated with SLE (OR = 3.699; p = 6.8 × 10^-3). C4 serum levels were strongly related to C4 gene copy numbers in patients, the mean concentration ranging from 0.110 g/l (two copies) to 0.256 g/l (five to six copies; p = 4.9 × 10^-6). Two copies of total C4 and homozygous deletion of C4A were associated with a disease course requiring cyclophosphamide therapy (OR = 4.044; p = 0.040 and OR = 5.798; p = 0.034, respectively). Homozygous deletion of C4A was associated with earlier onset of SLE (median 24 vs. 34 years; p = 0.019) but not significant after correction for multiple testing. SNP analysis revealed a significant association of HLA-DRB1*0301 with SLE (OR = 2.231; p = 1.33 × 10^-5). Conclusions Our findings confirm the important role of complement C4 genes in the development of SLE. Beyond the impact on the susceptibility for lupus, C4 copy numbers may be related to earlier onset and a more severe course of the disease. The association of homozygous deletion of C4A and SLE is accompanied by the presence of HLA-DRB1*0301 without a proven pathophysiological mechanism.

C1q, antibodies and anti-C1q autoantibodies

The complement system has long been known for its role in combating infections. More recently the complement system is becoming increasingly appreciated for its role in processes that range from waste transport, immune tolerance and shaping of the adaptive immune response. Antibodies represent the humoral part of the adaptive immune response and the complement system interacts with antibodies in several ways. Activated complement fragments impact on the production of antibodies, the complement system gets activated by antibodies and complement proteins can be the target of (auto)antibodies. In this review, written to celebrate the contributions of Prof. Dr. M.R. Daha to the field of immunology and especially complement, we will focus on C1q and its various interactions with antibodies. We will specifically focus on the mechanisms by which C1q will interact with monomeric IgG versus polymerized IgG and fluid-phase IgM versus solid-phase IgM. In addition in this review we will discuss in detail how C1q itself is targeted by autoantibodies and how these autoantibodies are currently considered to play a role in human disease.

ACTH-induced cortisol release is related to the copy number of the C4B gene encoding the fourth component of complement in patients with non-functional adrenal incidentaloma

OBJECTIVE

According to our previous findings, carriers of the C4B*Q0 genotype, which means zero or one copy of the C4B gene, which is located in the RCCX copy number variation region on chromosome 6, have a significantly shorter life-expectancy and higher risk of cardiovascular disease than non-carriers. We have postulated that the C4B*Q0 genotype is linked to variant(s) of the neighboring CYP21A2 gene encoding a steroid 21-hydroxylase with altered function.

DESIGN

Single-center, observational, retrospective study.

PATIENTS

Seventy-six patients with non-functional, benign adrenal incidentaloma.

MEASUREMENTS

Serum cortisol, aldosterone, 17-hydroxyprogesterone, corticosterone and ACTH levels basally and after ACTH-stimulation, metyrapone or dexamethasone tests were determined. C4B gene copy number was quantified.

RESULTS

The ratio of ACTH-stimulated and baseline cortisol concentrations was significantly higher (P = 0·001) in the group of patients carrying the C4B*Q0 genotype compared to the rest of the patients. This difference remained significant (P = 0·004) after adjustment for sex and age, as well as for tumor size. A significant (P = 0·018), adjusted difference between carriers and non-carriers was found also for ACTH-induced/basal aldosterone ratio. In C4B*Q0 carriers, metyrapone hardly reduced the serum cortisol level, while in non-carriers it induced a highly significant (P = 0·002) decrease.

CONCLUSIONS

The C4B*Q0 genotype may be associated with hyperreactivity of the HPA axis (manifested as an increased responsiveness to ACTH-stimulation), probably through enhanced function of steroid 21-hydroxylase. Since hyperreactivity of the HPA axis is known to be associated with an increased risk of cardiovascular disease, our present findings may explain the increased cardiovascular morbidity and mortality of C4B*Q0 carriers.

Primary immunodeficiency and autoimmunity: lessons from human diseases

Primary immunodeficiency diseases (PID) are a genetically heterogenous group of >150 disorders that affect distinct components of the innate and adaptive immune system and are often associated with autoimmune diseases. We describe PID affecting T-regulatory cells, complement and B cells or their products and discuss the possibility of a cause-effect relationship. The high concordance of T-regulatory cell defects to organ-specific autoimmune disease implies an obligatory role of these cells in maintaining tolerance to epithelial and endocrine tissues; the absence of central nervous system involvement may reflect immunological privilege. Congenital defects in C1q, C1r/s and C4 are strongly associated with systemic lupus erythematosus (SLE), and this pattern along with laboratory evidence suggests a major importance of classical pathway activity in safe elimination of immune complexes and prevention of immune complex disease (ICD). It is debatable whether this ICD is to be regarded as an autoimmune disease (resulting from a breakdown of immunological ignorance to antigens that are normally hidden), as autoantibodies may be absent, and tissue damage because of deposition of immune complexes could account for all of the pathology observed. Evidence for a causative link between primary antibody deficiencies and autoimmune disease is much less compelling and may in fact involve a common genetic background. However, arguments have also been made in favour of the notion that an intense antigen load as a result of recurrent or persistent infections may affect either tolerance or ignorance, e.g. by molecular mimicry or the presence of superantigens. Similar immunological mechanisms might account for the vast majority of autoimmune diseases.

Alteration of N-glycosylation in the kidney in a mouse model of systemic lupus erythematosus: relative quantification of N-glycans using an isotope-tagging method

Changes in the glycan structures of some glycoproteins have been observed in autoimmune diseases such as systemic lupus erythematosus (SLE) and rheumatoid arthritis. A deficiency of alpha-mannosidase II, which is associated with branching in N-glycans, has been found to induce SLE-like glomerular nephritis in a mouse model. These findings suggest that the alteration of the glycosylation has some link with the development of SLE. An analysis of glycan alteration in the disordered tissues in SLE may lead to the development of improved diagnostic methods and may help to clarify the carbohydrate-related pathogenic mechanism of inflammation in SLE. In this study, a comprehensive and differential analysis of N-glycans in kidneys from SLE-model mice and control mice was performed by using the quantitative glycan profiling method that we have developed previously. In this method, a mixture of deuterium-labelled N-glycans from the kidneys of SLE-model mice and non-labelled N-glycans from kidneys of control mice was analysed by liquid chromatography/mass spectrometry. It was revealed that the low-molecular-mass glycans with simple structures, including agalactobiantennary and paucimannose-type oligosaccharides, markedly increased in the SLE-model mouse. On the other hand, fucosylated and galactosylated complex type glycans with high branching were decreased in the SLE-model mouse. These results suggest that the changes occurring in the N-glycan synthesis pathway may cause the aberrant glycosylations on not only specific glycoproteins but also on most of the glycoproteins in the SLE-model mouse. The changes in glycosylation might be involved in autoimmune pathogenesis in the model mouse kidney.

An investigation of the C4 gene arrangement in ethnic Chinese (Taiwanese)

C4 complement components are encoded by two genes, C4A and C4B , located on chromosome 6p21.3 of the major histocompatibility complex class III region. The isotypic residues at position 1101-1106 of the C4A gene contain the Pro-Cys-Pro-Val-Leu-Asp sequence which has a higher affinity for binding amino group-containing antigens, while C4B contains the Leu-Ser-Pro-Val-Ileu-His sequence which has a higher affinity for hydroxyl group-containing antigens. These two genes show different reaction rates which infer solubilization of antibody-antigen aggregates and propagation of the activation pathway to form the membrane attack complex. Using a polymerase chain reaction-based amplification method to identify and differentiate the locations of the C4A and C4B genes adjacent to the respective CYP21A2P and CYP21A2 genes, the isotypic residues at position 1101-1106 for the C4 isotype were categorized into five haplotypes of C4 gene arrangements. Among them, we found that 65% of the gene proportions between C4A and C4B were balanced, while 35% of them were unbalanced in this ethnic Chinese (i.e. Taiwanese) cohort. We consider that the unbalanced arrangements of the C4 locus in the individuals might have influenced the clearance of apoptotic debris and immune complexes which may injure tissue by initiating autoimmune diseases and immunity responses associated with susceptibility to viral and bacterial infections.

Structural comparison of human C4A3 and C4B1 after proteolytic activation by C1s

The fourth component of human complement is an essential part of the classical and lectin pathways performing multifunctional roles in both host defense and immune regulation. C4 is the most polymorphic member of the complement proteins, and complete deficiency is strongly associated with autoimmune disease, especially, systemic lupus erythematosus (SLE). Of the two C4 genes C4A, but not C4B, null alleles have been implicated as important independent disease susceptibility genes occurring in more than half of SLE patients. Whether and how this deficiency contributes to the development or pathology remains unclear. We do know that activation of C4 by C1s cleaves the thioester bond, thus inducing a conformational change that exposes numerous ligand-binding sites involved in functional activity. Structural comparison, among many other tools, plays an important role in predicting function. In this report, the tertiary structures of C4A and C4B were compared using near and far-UV circular dichroism, ANS fluorescence, site-specific monoclonal antibodies and isoelectric focusing. Negligible differences in the native proteins were found. However, the activated proteins were dissimilar in secondary and tertiary structure that was accompanied by significant differences in charge distribution and surface hydrophobicity. These conformational differences, together with known acceptor preferences, have functional implications for the association between C4A null alleles and SLE.

Defective prevention of immune precipitation in autoimmune diseases is independent of C4A*Q0

Increased prevalence of C4 null alleles is a common feature of autoimmune diseases. We have shown previously that complement-dependent prevention of immune precipitation (PIP) is defective in patients with systemic lupus erythematosus (SLE), and correlated this defect with C4A*Q0 and low levels of the C4A isotype. To further clarify the role of C4A in the aetiology of SLE, we now extend our studies to other diseases which have been associated with C4A*Q0. The frequency of C4A*Q0 was increased in Icelandic patients with coeliac disease (0.50; P < 0.001), Grave's disease (0.30; P = 0.002) and insulin-dependent diabetes mellitus (0.23; P = 0.04) and in British patients with dermatitis herpetiformis (0.42; P = 0.002) and this was reflected in low levels of C4A. In spite of this, PIP was normal in these patients, and in marked contrast to our previous observations on connective tissue diseases, PIP measurements in these patient groups correlated more strongly with levels of C4B (r = 0.51, P = 0.0000004) than C4A. Patients with increased levels of anti-C1q antibodies had significantly lower PIP than patients without such antibodies (P < 0.01) and a negative association of PIP with anti-C1q antibodies was also reflected in an increased prevalence (P = 0.006) and levels (P = 0.006) of anti-C1q antibodies in patients with subnormal PIP, as well as a negative correlation between PIP and anti-C1q antibodies (r = - 0.25, P = 0.02). These results show that the PIP defect cannot be explained by low levels of C4A alone and suggest that measurements of anti-C1q antibodies may be useful in future studies on the molecular cause of the PIP defect in autoimmune connective tissue disease.

Increased frequency of C4B*Q0 alleles in patients with Henoch-Schönlein purpura

Henoch-Schonlein purpura (HSP) is a vasculitis of unknown aetiology, possibly involving immune complexes. The complement system is essential for the clearance of immune complexes. Our aim was to explore the hypothesis that patients with HSP have abnormal complements, contributing to the development of the disease. The study included 56 patients diagnosed with HSP at the Children's Hospital, Iceland between 1984 and 2000, and 98 blood donors as controls. Serum levels of immunoglobulin A, C4A, C4B and mannan-binding lectin were measured and compared between the two groups. C4 null alleles were significantly more common in HSP patients than in controls (P = 0.018) and were carried by 66.1% of the patients compared with 41.2% of the controls. This difference was due to an increased frequency of C4B*Q0 allele in the HSP group (0.25 versus 0.11 in the control group; P = 0.002). The fact that the majority of our patients carried a C4 null allele indicates that children with C4 deficiencies may have an increased risk of developing HSP. This may reflect inadequate complement activity and possibly present an opportunity to identify patients at risk of developing serious morbidity associated with HSP.