Joanne H. Reed

Different temporal expression of immunodominant Ro60/60 kDa-SSA and La/SSB apotopes

Opsonization of apoptotic cardiocytes by maternal anti‐Ro/SSA and anti‐La/SSB antibodies contributes to tissue injury in the neonatal lupus syndrome. The objective of the current study was to quantify the surface membrane expression of Ro/La components during different phases of apoptosis and map the Ro/La apotopes (epitopes expressed on apoptotic cells) bound by cognate antibodies. Multi‐parameter flow cytometry was used to define early and late apoptotic populations and their respective binding by monospecific anti‐Ro and anti‐La IgGs. Anti‐Ro60 bound specifically to early apoptotic Jurkat cells and remained accessible on the cell surface throughout early and late apoptosis. In contrast, anti‐La bound exclusively to late apoptotic cells in experiments controlled for non‐specific membrane leakage of IgG. Ro52 was not accessible for antibody binding on either apoptotic population. The immunodominant NH2‐terminal and RNA recognition motif (RRM) epitopes of La were expressed as apotopes on late apoptotic cells, confirming recent in vivo findings. An immunodominant internal epitope of Ro60 that contains the RRM, and is recognized by a majority of sera from mothers of children with congenital heart block (CHB) and patients with primary Sjögrens syndrome, was also accessible as an apotope on early apoptotic cells. The distinct temporal expression of the immunodominant Ro60 and La apotopes indicates that these intracellular autoantigens translocate independently to the cell surface, and supports a model in which maternal antibody populations against both Ro60 and La apotopes act in an additive fashion to increase the risk of tissue damage in CHB.

A B cell apotope of Ro 60 in systemic lupus erythematosus

OBJECTIVE Previous studies have attempted to segregate anti-60-kd Ro/SSA (anti-Ro 60) responses in systemic lupus erythematosus (SLE) and primary Sjögrens syndrome (SS) but have shown limited disease preference. The aim of the present study was to determine whether the presence of autoantibodies against an Ro 60 apotope (an epitope expressed on apoptotic cells) distinguishes anti-Ro 60 responses in SLE and primary SS. METHODS Multiparameter flow cytometry was used to select early apoptotic cells and measure the simultaneous binding of annexin V, propidium iodide, and anti-Ro 60-positive IgG from SLE patients (n=21) and patients with primary SS (n=19). The specificity of the Ro 60 apotope was determined by inhibition experiments with recombinant and native Ro 60. RESULTS Autoantibodies against the Ro 60 apotope were prevalent in SLE patients (13 of 21, 62%) and were rarely observed in patients with primary SS (1 of 19, 5%) (P=0.0002). Further, within SLE patients, autoantibodies to the Ro 60 apotope strongly distinguished patients with anti-Ro 60 alone (12 of 13, 92%) from those with both anti-Ro 60 and anti-La (1 of 8, 13%) (P=0.0005). When we considered all patients with anti-Ro 60 alone, the presence of autoantibodies to the Ro 60 apotope had both high sensitivity (92.3%) and high specificity (85.7%) for SLE compared with primary SS (P=0.0012). The presence of autoantibodies to the Ro 60 apotope may therefore be of diagnostic value in patients with isolated anti-Ro 60 responses. CONCLUSION The preferential targeting of an Ro 60 apotope exposed on early apoptotic cells in a subset of SLE patients implies disease-specific pathways for the induction of anti-Ro 60 autoimmunity.

Clonal redemption of autoantibodies by somatic hypermutation away from self-reactivity during human immunization

Goodnow et al. show that in vaccinated humans, anergic autoreactive B cells can hypermutate the B cell receptor during the immune response and remove binding to self while enhancing binding to the vaccine.

A Novel Role of Endothelin-1 in Linking Toll-like Receptor 7-mediated Inflammation to Fibrosis in Congenital Heart Block

Autoimmune associated congenital heart block (CHB) may result from pathogenic cross-talk between inflammatory and profibrosing pathways. Incubation of macrophages with immune complexes (IC) composed of Ro60, a target of the pathologic maternal autoantibodies necessary for CHB, hY3 ssRNA, and affinity-purified anti-Ro60 antibody induces the Toll-like receptor 7 (TLR7)-dependent generation of supernatants that provoke a fibrosing phenotype in human fetal cardiac fibroblasts. We show herein that these cells are a major source of TGFβ and that endothelin-1 (ET-1) is one of the key components responsible for the profibrosing effects generated by stimulated macrophages. Supernatants from macrophages incubated with IC induced the fibroblast secretion of TGFβ, which was inhibited by treating the macrophages with an antagonist of TLR7. Under the same conditions, the induced fibroblast secretion of TGFβ was decreased by inhibitors of the ET-1 receptors ETa or ETb or by an anti-ET-1 antibody but not by an isotype control. Exogenous ET-1 induced a profibrosing phenotype, whereas fibroblasts transfected with either ETa or ETb siRNA were unresponsive to the profibrosing effects of the IC-generated macrophage supernatants. Immunohistochemistry of the hearts from two fetuses dying with CHB revealed the presence of ET-1-producing mononuclear cells in the septal region in areas of calcification and fibrosis. In conclusion, these data support a novel role of ET-1 in linking TLR7 inflammatory signaling to subsequent fibrosis and provide new insight in considering therapeutics for CHB.

Complement Receptor 3 Influences Toll-like Receptor 7/8-Dependent Inflammation IMPLICATIONS FOR AUTOIMMUNE DISEASES CHARACTERIZED BY ANTIBODY REACTIVITY TO RIBONUCLEOPROTEINS

Background: Toll-like receptors (TLR) are key components in autoimmune-mediated pathophysiology. Results: Complement receptor 3 (CR3) suppresses TLR7/8 mediated-inflammation by degrading MyD88. The anti-inflammatory function of CR3 is negated if TLR7/8 ligation occurs prior to CR3 activation or in macrophages expressing a genetic variant of CD11b. Conclusion: Environmental and genetic factors influence CR3 signaling. Significance: CR3-specific agonists may be applicable for preventing pathologic TLR7/8 signaling. Toll-like receptor (TLR) signaling is an important component in the inflammatory response generated in diseases characterized by autoantibody reactivity to proteins such as SSA/Ro in complex with endogenous nucleic acids. Complement receptor 3 (CR3), a genetic variant of which has been identified as a risk factor in systemic lupus erythematosus, has been shown to induce tolerogenic responses in dendritic cells and suppress TLR4 responses in a murine sepsis model. Accordingly, this study addressed the hypothesis that activation of CR3, influenced by genotype of CD11b, negatively regulates TLR7/8-dependent effector function. Allosteric activation of CD11b via pretreatment with the small molecule, leukadhedrin 1 (LA1), significantly attenuated TLR7/8-induced (hY3 RNA, R848) secretion of TNFα in THP-1 cells and human macrophages isolated from donors homozygous for the ancestral common ITGAM allele at rs1143679. This inhibition was accompanied by profound degradation of the adaptor protein MyD88, an effect not observed with direct inhibition of TLR ligation by an antagonist oligonucleotide. In contrast, the addition of LA1 after incubation with the TLR agonists did not result in MyD88 degradation and subsequent attenuation of TNFα secretion. In TLR7/8-stimulated macrophages isolated from donors heterozygous for the CD11b variant, pretreatment with LA1 did not down-regulate TNFα release. These novel findings support a negative cross-talk between CR3 and TLR pathways likely to be induced by antibodies reactive with ribonucleoproteins and point to the development of CR3-specific agonists as potential therapeutics for diseases such as neonatal lupus.

Ro60 Requires Y3 RNA for Cell Surface Exposure and Inflammation Associated with Cardiac Manifestations of Neonatal Lupus

Cardiac neonatal lupus (NL) is presumed to arise from maternal autoantibody targeting an intracellular ribonucleoprotein, Ro60, which binds noncoding Y RNA and only becomes accessible to autoantibodies during apoptosis. Despite the importance of Ro60 trafficking in the development of cardiac NL, the mechanism underlying cell surface exposure is unknown. To evaluate the influence of Y RNA on the subcellular location of Ro60 during apoptosis and activation of macrophages, stable Ro60 knockout murine fibroblasts expressing wild-type or mutated FLAG-Ro60 were assessed. FLAG3-Ro60(K170A R174A) binds Y RNA, whereas FLAG3-Ro60(H187S) does not bind Y RNA; fibroblasts expressing these constructs showed equivalent intracellular expression of Ro60. In contrast, apoptotic fibroblasts containing FLAG3-Ro60(K170A R174A) were bound by anti-Ro60, whereas FLAG3-Ro60(H187S) was not surface expressed. RNA interference of mY3 RNA in wild-type fibroblasts inhibited surface translocation of Ro60 during apoptosis, whereas depletion of mY1 RNA did not affect Ro60 exposure. Furthermore, Ro60 was not exposed following overexpression of mY1 in the mY3-depleted fibroblasts. In an in vitro model of anti-Ro60–mediated injury, Y RNA was shown to be an obligate factor for TLR-dependent activation of macrophages challenged with anti-Ro60–opsonized apoptotic fibroblasts. Murine Y3 RNA is a necessary factor to support the surface translocation of Ro60, which is pivotal to the formation of immune complexes on apoptotic cells and a TLR-dependent proinflammatory cascade. Accordingly, the Y3 RNA moiety of the Ro60 ribonucleoprotein imparts a critical role in the pathogenicity of maternal anti-Ro60 autoantibodies.

Pathogenicity and proteomic signatures of autoantibodies to Ro and La.

Ro/SSA and La/SSB comprise a linked set of autoantigens that are clinically important members of the extractable nuclear antigen family and key translational biomarkers for lupus and primary Sjögrens syndrome. Autoantibodies directed against the Ro60 and La polypeptide components of the Ro/La ribonucleoprotein complex, and the structurally unrelated Ro52 protein, mediate tissue damage in the neonatal lupus syndrome, a model of passively acquired autoimmunity in humans in which the most serious manifestation is congenital heart block (CHB). Recent studies have concentrated on two distinct pathogenic mechanisms by which maternal anti‐Ro/La autoantibodies can cause CHB: by forming immune complexes with apoptotic cells in developing fetal heart; and/or by acting as functional autoantibodies that cross‐react with and inhibit calcium channels. Although the precise role of the individual autoantibodies is yet to be settled, maternal anti‐Ro60 and anti‐Ro52 remain the most likely culprits. This article will discuss the molecular pathways that culminate in the development of CHB, including the recent discovery of β2 glycoprotein I as a protective factor, and present a proteomic approach based on direct mass spectrometric sequencing, which may give a more representative snapshot of the idiotype repertoire of these autoantibodies than genomic‐based technologies.

β2-Glycoprotein I and Protection from Anti-SSA/Ro60–Associated Cardiac Manifestations of Neonatal Lupus

One mechanism to molecularly explain the strong association of maternal anti-Ro60 Abs with cardiac disease in neonatal lupus (NL) is that these Abs initiate injury by binding to apoptotic cardiomyocytes in the fetal heart. Previous studies have demonstrated that β2-glycoprotein I (β2GPI) interacts with Ro60 on the surface of apoptotic Jurkat cells and prevents binding of anti-Ro60 IgG. Accordingly, the current study was initiated to test two complementary hypotheses, as follows: 1) competition between β2GPI and maternal anti-Ro60 Abs for binding apoptotic induced surface-translocated Ro60 occurs on human fetal cardiomyocytes; and 2) circulating levels of β2GPI influence injury in anti-Ro60–exposed fetuses. Initial flow cytometry experiments conducted on apoptotic human fetal cardiomyocytes demonstrated dose-dependent binding of β2GPI. In competitive inhibition experiments, β2GPI prevented opsonization of apoptotic cardiomyocytes by maternal anti-Ro60 IgG. ELISA was used to quantify β2GPI in umbilical cord blood from 97 neonates exposed to anti-Ro60 Abs, 53 with cardiac NL and 44 with no cardiac disease. β2GPI levels were significantly lower in neonates with cardiac NL. Plasmin-mediated cleavage of β2GPI prevented binding to Ro60 and promoted the formation of pathogenic anti-Ro60 IgG-apoptotic cardiomyocyte complexes. In aggregate these data suggest that intact β2GPI in the fetal circulation may be a novel cardioprotective factor in anti-Ro60–exposed pregnancies.

An Autoantibody in Narcolepsy Disrupts Colonic Migrating Motor Complexes

Despite strong circumstantial evidence for the autoimmune hypothesis of narcolepsy, conventional immunological methods have failed to detect an autoantibody. This study investigated the real-time effects of narcoleptic immunoglobulins on a spontaneous colonic migrating motor complex (CMMC) preparation. IgG from patients with narcolepsy with cataplexy or healthy controls was added directly to isolated mouse colons undergoing CMMC activity to test for autoantibodies that disrupt colonic motility. The effect of immunoglobulins prepared for clinical intravenous treatment (IVIg) on autoantibody-mediated colonic disruption was also assessed. Narcoleptic IgGs markedly reduced the frequency of CMMCs or irreversibly abolished them. Abrogation of CMMCs was followed by an increase in the resting tension of the colon preparation and appearance of atropine-sensitive phasic smooth muscle contractions. IVIg partially neutralized the inhibitory effect of narcoleptic IgG on the CMMCs. The dramatic effect of narcoleptic IgG on CMMC generation is consistent with an autoantibody-mediated disruption of enteric neural pathways. The ex vivo whole-organ approach allows real-time examination of the physiological effects of the narcoleptic autoantibody and offers a new avenue for exploring the autoimmune basis of narcolepsy. The neutralizing effect of IVIg on the autoantibody provides a rationale for the reported clinical improvement in cataplexy when IVIg are given at disease onset.

Umbilical cord blood levels of maternal antibodies reactive with p200 and full-length Ro 52 in the assessment of risk for cardiac manifestations of neonatal Lupus

Maternal anti‐Ro autoantibodies are associated with cardiac manifestations of neonatal lupus (cardiac NL), yet only 2% of women with this reactivity have an affected child. Identification of a more specific marker would channel intense monitoring to fetuses at greater risk. This study aimed to determine whether autoantibodies against Ro 52 amino acids 200–239 (p200) confer added risk over autoantibodies to full‐length Ro 52, Ro 60, or La.