Hanadi Dib

The Role of Inflammation and Autoimmunity in the Pathophysiology of Pulmonary Arterial Hypertension

Pulmonary arterial hypertension is characterized by a remodeling of pulmonary arteries with endothelial cell, fibroblast, and vascular smooth muscle cell activation and proliferation. Since pulmonary arterial hypertension occurs frequently in autoimmune conditions such as systemic sclerosis, inflammation and autoimmunity have been suspected to play a critical role in both idiopathic pulmonary arterial hypertension and systemic sclerosis-associated pulmonary arterial hypertension. High levels of pro-inflammatory cytokines such as interleukin-1 and interleukin-6, platelet-derived growth factor, or macrophage inflammatory protein 1 have been found in lung samples of patients with pulmonary arterial hypertension, along with inflammatory cell infiltrates mainly composed of macrophages and dendritic cells, T and B lymphocytes. In addition, circulating autoantibodies are found in the peripheral blood of patients. Thus, autoimmunity and inflammation probably play a role in the development of pulmonary arterial hypertension. In this setting, it would be important to set-up new experimental models of pulmonary arterial hypertension, in order to define novel therapeutics that specifically target immune disturbances in this devastating condition.

Targets of anti-endothelial cell antibodies in pulmonary hypertension and scleroderma

Anti-endothelial cell antibodies (AECAs) have been identified in patients with systemic sclerosis (SSc) with and without pulmonary arterial hypertension (PAH) and in patients with idiopathic pulmonary arterial hypertension (iPAH). However, their target antigens remain poorly identified. Sera from 24 patients with SSc without PAH, 20 patients with SSc with PAH, 30 with iPAH and 12 healthy controls were collected. Target antigens were identified by two-dimensional electrophoresis and immunoblotting in protein extracts of human umbilical vein endothelial cells. Targeted antigens were identified by mass spectrometry. Serum immunoglobulin G from patients with SSc with or without PAH and patients with iPAH specifically recognised 110, 82 and 37 protein spots, respectively. Among others, target antigens of AECAs included lamin A/C, tubulin &bgr;-chain and vinculin. One-dimension immunoblotting experiments confirmed the identification of lamin A/C and tubulin &bgr;-chain. In conclusion, our results confirm the presence of AECA in patients with systemic sclerosis with and without pulmonary arterial hypertension and in those with idiopathic pulmonary arterial hypertension, and provide evidence for the identification of target antigens of these autoantibodies including lamin A/C and tubulin &bgr;-chain.

Identification of target antigens of anti-endothelial cell and anti-vascular smooth muscle cell antibodies in patients with giant cell arteritis: a proteomic approach

IntroductionImmunological studies of giant cell arteritis (GCA) suggest that a triggering antigen of unknown nature could generate a specific immune response. We thus decided to detect autoantibodies directed against endothelial cells (ECs) and vascular smooth muscle cells (VSMCs) in the serum of GCA patients and to identify their target antigens.MethodsSera from 15 GCA patients were tested in 5 pools of 3 patients sera and compared to a sera pool from 12 healthy controls (HCs). Serum immunoglobulin G (IgG) reactivity was analysed by 2-D electrophoresis and immunoblotting with antigens from human umbilical vein ECs (HUVECs) and mammary artery VSMCs. Target antigens were identified by mass spectrometry.ResultsSerum IgG from GCA patients recognised 162 ± 3 (mean ± SD) and 100 ± 17 (mean ± SD) protein spots from HUVECs and VSMCs, respectively, and that from HCs recognised 79 and 94 protein spots, respectively. In total, 30 spots from HUVECs and 19 from VSMCs were recognised by at least two-thirds and three-fifths, respectively, of the pools of sera from GCA patients and not by sera from HCs. Among identified proteins, we found vinculin, lamin A/C, voltage-dependent anion-selective channel protein 2, annexin V and other proteins involved in cell energy metabolism and key cellular pathways. Ingenuity pathway analysis revealed that most identified target antigens interacted with growth factor receptor-bound protein 2.ConclusionsIgG antibodies to proteins in the proteome of ECs and VSMCs are present in the sera of GCA patients and recognise cellular targets that play key roles in cell biology and maintenance of homeostasis. Their potential pathogenic role remains to be determined.

IgG from patients with pulmonary arterial hypertension and/or systemic sclerosis binds to vascular smooth muscle cells and induces cell contraction

Objectives Pulmonary arterial hypertension (PAH) is characterised by remodelling of pulmonary arteries with enhanced vascular smooth muscle cell (VSMC) contraction, migration and proliferation. The authors investigated the presence of antibodies to human VSMCs in the serum of patients with systemic sclerosis with or without PAH and idiopathic PAH (iPAH). Methods and results Antibodies to VSMCs were detected by immunofluorescence in sera from healthy controls and patients with scleroderma without PAH, scleroderma-associated PAH and iPAH. Serum IgG from these patients induced contraction of VSMCs in a collagen matrix in contrast with IgG from healthy controls. Several protein spots of interest and target antigens were identified by two-dimensional immunoblotting and MS, including stress-induced phosphoprotein 1 and α-enolase. Finally, antibodies to stress-induced phosphoprotein 1 were detected by ELISA in sera from 84%, 76% and 24% of patients with scleroderma without PAH, scleroderma-associated PAH and iPAH, respectively, compared with only 3% of healthy controls. Conclusion The authors have identified IgG that binds to VSMCs in the serum of patients with scleroderma and iPAH. These antibodies may be pathogenic by modulating vascular contraction. The target antigens of these antibodies are stress-induced phosphoprotein 1 and α-enolase.

Identification of target antigens of self‐reactive IgG in intravenous immunoglobulin preparations

Intravenous immunoglobulin (IVIg) contains a wide range of self‐reactive immunoglobulins (Ig) G. Acidic pH is known to increase the reactivity of purified IgG with self‐antigens. We describe here the target antigens of IgG autoantibodies in IVIg and analyze the influence of acidic pH on IgG reactivities. We used 2‐DE and immunoblotting with protein extracts of human umbilical vein endothelial cells (HUVEC) and HEp‐2 cells. Two IVIg preparations obtained by ethanol fractionation [one with an acidic pH step (acidic‐IVIg) and one with β‐propiolactone (propiolactone‐IVIg)] and a pool of sera from 12 healthy individuals were tested. Serum IgG of 3 healthy individuals and IgG purified from the same sera with elution at pH 2.8 were also tested individually. Finally, propiolactone‐IVIg was acidified at pH 2.8. IgG obtained with a step at low pH recognized many more target spots than IgG obtained without acidic pH. Our findings demonstrate that an acidic pH step artificially enlarges the repertoire of self‐reactive IgG. Thus, protein spots recognized by IgG in propiolactone‐IVIg represent the core set of self‐antigens targeted by IVIg. Overall, 96 proteins were identified by MS. Fourteen were recognized in both extracts including glycolysis proteins such as α‐enolase, RNA processing and cytoskeletal proteins such as lamin‐A/C.

Proteomes of umbilical vein and microvascular endothelial cells reflect distinct biological properties and influence immune recognition

Human umbilical vein endothelial cells (HUVEC) are widely used as a source of endothelial cells (EC). However, HUVEC characteristics cannot be extrapolated to other types of EC, particularly microvascular ECs. Our objective was to compare the proteomes of microvascular ECs and HUVEC. Proteomes of HUVEC and human microvascular pulmonary EC (HMVEC‐P) and dermal EC (HMVEC‐D) from healthy Caucasian donors were compared by 2D DIGE and MS. Fatty acid binding proteins 4 and 5 were among the 159 and 30 proteins spots found to have at least twofold change in expression between HUVEC and HMVEC‐D and between HUVEC and HMVEC‐P samples, respectively. Eight protein spots showed twofold changed expression between HMVEC‐D and HMVEC‐P samples. Ingenuity® analysis revealed that proteins differentially expressed between HUVEC and HMVEC‐D samples interact with retinoic acid. In vitro tubulogenesis assays showed a differential effect of retinoic acid between HUVEC and HMVEC. Moreover, serum IgG from patients with a rare vascular disease, systemic sclerosis, showed distinct reactivity profiles in HUVEC and HMVEC‐D protein extracts. The proteome profiles of HUVEC and microvascular EC differ noticeably, which reflects distinct biological properties and influence immune recognition.

Identification of target antigens of anti-endothelial cell antibodies in patients with anti-neutrophil cytoplasmic antibody-associated vasculitides: a proteomic approach.

Anti-endothelial cell antibodies (AECAs) have been reported to cause endothelial cell dysfunction, but their specific targets have never been identified in anti-neutrophil cytoplasmic antibody (ANCA)-associated vasculitides (AAVs). Proteins from human umbilical vein endothelial cells (HUVECs) were separated by 2-dimensional electrophoresis (2-DE). 2-D immunoblots were used to compare serum IgG reactivities from 30 patients with AAV and 12 healthy controls (HCs). Proteins identified as target antigens by MALDI- TOF-TOF mass spectrometry included lamin A/C, vimentin, α-enolase, far upstream binding protein 2 (FUBP2) and protein disulfide-isomerase A3 precursor (PDIA3). Antibodies targeting lamin A, vimentin, α-enolase, FUBP2 and PDIA3 were identified in 57.1%, 64.3%, 35.7%, 50% and 0% of patients with microscopic polyangiitis and 8%, 3.3%, 7.2%, 0% and 6.7% of HCs respectively. IgG from patients with microscopic polyangiitis had stronger reactivity against HUVEC than other groups and HCs and induced stronger Erk phosphorylation in HUVECs than IgG from HCs.

Identification of new autoantibody specificities directed at proteins involved in the transforming growth factor β pathway in patients with systemic sclerosis

IntroductionAntinuclear antibodies (ANAs), usually detected by indirect immunofluorescence on HEp-2 cells, are identified in 90% of patients with systemic sclerosis (SSc). Thus, approximately 10% of SSc patients have no routinely detectable autoantibodies, and for 20% to 40% of those with detectable ANAs, the ANAs do not have identified specificity (unidentified ANAs). In this work, we aimed to identify new target autoantigens in SSc patients.MethodsUsing a proteomic approach combining two-dimensional electrophoresis and immunoblotting with HEp-2 cell total and enriched nuclear protein extracts as sources of autoantigens, we systematically analysed autoantibodies in SSc patients. Sera from 45 SSc patients were tested in 15 pools from groups of three patients with the same phenotype. A sera pool from 12 healthy individuals was used as a control. Proteins of interest were identified by mass spectrometry and analysed using Pathway Studio software.ResultsWe identified 974 and 832 protein spots in HEp-2 cell total and enriched nuclear protein extracts, respectively. Interestingly, α-enolase was recognised by immunoglobulin G (IgG) from all pools of patients in both extracts. Fourteen and four proteins were recognised by IgG from at least 75% of the 15 pools in total and enriched nuclear protein extracts, respectively, whereas 15 protein spots were specifically recognised by IgG from at least four of the ten pools from patients with unidentified ANAs. The IgG intensity for a number of antigens was higher in sera from patients than in sera from healthy controls. These antigens included triosephosphate isomerase, superoxide dismutase mitochondrial precursor, heterogeneous nuclear ribonucleoprotein L and lamin A/C. In addition, peroxiredoxin 2, cofilin 1 and calreticulin were specifically recognised by sera from phenotypic subsets of patients with unidentified ANAs. Interestingly, several identified target antigens were involved in the transforming growth factor β pathway.ConclusionsWe identified several new target antigens shared among patients with SSc or specific to a given phenotype. The specification of new autoantibodies could help in understanding the pathophysiology of SSc. Moreover, these autoantibodies could represent new diagnostic and/or prognostic markers for SSc.