Adriaan M. Duijvestijn

Accumulation of Myeloperoxidase-Positive Neutrophils in Atherosclerotic Lesions in LDLR−/− Mice

Objective—Atherosclerosis is a chronic inflammatory disease in which the immune system plays an important role. Neutrophils have not been thoroughly studied in the context of atherogenesis. Here, we investigated neutrophils in the development of murine atherosclerotic lesions. Methods and Results—LDLR−/− mice were given a high-fat diet for different time periods and subsequently atherosclerotic lesions were studied by immunohistochemistry. Staining with anti–Ly-6G monoclonal antibody, a specific marker for neutrophils, revealed a marked accumulation of neutrophils during atherosclerosis development. Neutrophils were observed in the lesion, attached to the cap, and in the arterial adventitia. In addition, at some sites, neutrophil accumulation colocalized with endothelial E-selectin expression. Immunofluorescence double staining with anti-myeloperoxidase and anti–Ly-6G antibodies demonstrated the presence of myeloperoxidase in atherosclerotic lesions and its colocalization with neutrophils. After introducing the high-fat diet, levels of circulating myeloperoxidase in plasma strongly increased, with a peak at 6 weeks and a subsequent decrease to almost normal levels after 16 weeks of diet. Conclusions—We here demonstrate for the first time the presence of neutrophils and myeloperoxidase in murine atherosclerotic lesions. As a major cell type in inflammatory responses the neutrophil may also be an important mediator in the development of atherosclerosis.

Antiendothelial cell antibodies in vasculitis and connective tissue disease

Antiendothelial cell antibodies (AECA) are a heterogeneous family of antibodies reacting with endothelial cell antigens. These antibodies are found in various diseases and recognise several antigen determinants. Different pathophysiological effects have been observed in in vitro experiments, which include direct or indirect cytotoxicity and endothelial cell apoptosis. Furthermore, some AECA activate endothelial cells, resulting in increased leucocyte adhesiveness, activation of coagulation and vascular thrombosis. In animal models, it has been shown that AECA could promote vascular damage. Neither the endothelial cell antigens nor their precise role in the pathogenecity of different diseases in which AECA are found is well characterised. Nowadays, it is not known whether AECA are an epiphenomenon accompanying vascular injury or whether they are pathogenic. It is controversial whether fluctuations in AECA titres are associated with disease activity during follow-up studies. This review summarises the present knowledge about AECA, AECA antigens and their potential role in the pathogenecity of vasculitis and connective tissue diseases.

cNGR: A Novel Homing Sequence for CD13/APN Targeted Molecular Imaging of Murine Cardiac Angiogenesis In Vivo

Objective—Previously, the peptide sequence cNGR has been shown to home specifically to CD13/APN (aminopeptidase N) on tumor endothelium. Here, we investigated the feasibility of selective imaging of cardiac angiogenesis using the cNGR-CD13/APN system. Methods and Results—CD13/APN induction and cNGR homing were studied in the murine myocardial infarction (MI) model. By real-time polymerase chain reaction (PCR) at 7 days after MI, CD13/APN expression was 10- to 20-fold higher in the angiogenic infarct border zone and the MI area than in non-MI areas. In vivo fluorescence microscopy confirmed specific homing of fluorophore-tagged cNGR to the border zone and MI territory at 4 and 7 days after MI with a local advantage of 2.3, but not at 1 or 14 days after MI. Tissue residence half-life was 9.1±0.3 hours, whereas the half-life in plasma was 15.4±3.4 minutes. Pulse chase experiments confirmed reversible binding of cNGR in the infarct area. Fluorescent labeled cNGR conjugates or antibodies were injected in vivo, and their distribution was studied ex vivo by 2-photon laser scanning microscopy (TPLSM). cNGR co-localized exclusively with CD13/APN and the endothelial marker CD31 on vessels. Conclusions—In cardiac angiogenesis endothelial CD13/APN is upregulated. It can be targeted specifically with cNGR conjugates. In the heart cNGR binds its endothelial target only in angiogenic areas.

Expression of NLRP3 inflammasome and T cell population markers in adipose tissue are associated with insulin resistance and impaired glucose metabolism in humans

Recent studies in rodents indicate that the nucleotide-binding domain, leucine-rich-containing family, pyrin domain-containing-3 (NLRP3) inflammasome and a proinflammatory shift in the T cell population in adipose tissue (AT) contribute to AT inflammation and insulin resistance. We investigated: (1) the interplay between the NLRP3 inflammasome and T cell populations in abdominal subcutaneous AT in obese and lean humans in relation to AT inflammatory processes, and (2) involvement of the NLRP3 inflammasome and T cell populations in insulin resistance. Abdominal subcutaneous AT biopsies were collected in 10 obese men with impaired glucose tolerance and 9 lean normal glucose tolerant age-matched controls. AT gene expression of NLRP3 inflammasome-related genes and markers of T cell populations, chemoattraction, macrophage infiltration and other aspects of inflammation were examined. Furthermore, we examined systemic adaptive immune activation and insulin sensitivity (hyperinsulinemic-euglycemic clamp). CASPASE-1 mRNA and the proportion of T(h)1 transcripts (TBX21/CD3ɛ) were significantly higher in AT from obese compared with lean subjects. CASPASE-1 expression and a relative increase in T(h)1 transcripts in AT were strongly associated with insulin resistance and impairments in glucose homeostasis. Gene expression of NLRP3, CASPASE-1, CD3ɛ (pan T cells), TBX21 (T(h)1 cells) and RORC (T(h)17 cells) was positively, whereas GATA3 (T(h)2 cells) was inversely correlated with AT inflammation. Our data suggest that NLRP3 inflammasome activation and a T(h)1 shift in the T cell population in AT of obese subjects is related to insulin resistance and impaired glucose metabolism, which may be explained by AT inflammatory processes.

The therapeutic potential of targeting B cells and anti-oxLDL antibodies in atherosclerosis.

While the involvement of T cells in atherosclerosis is nowadays well accepted, little is known about the role of B cells. Obviously, B cells as the source of antibodies, in particular antibodies to oxLDL, have gained a lot of attention in atherosclerosis. In addition, B cells do harbour other functions in adaptive immunity. In this review, we provide an overview of the current knowledge on both the role of B cells and antibodies, i.e., anti-oxLDL antibodies, in atherosclerosis. It appears that B cells and also anti-oxLDL antibodies may comprise pro- and anti-atherogenic effects. Therefore, the establishment of effective therapy, targeting B cells or anti-oxLDL antibodies, warrants further research to unravel these opposite effects.

Macrophage Depletion in Hypertensive Rats Accelerates Development of Cardiomyopathy

Inflammation contributes to the process of ventricular remodeling after acute myocardial injury. To investigate the role of macrophages in the chronic process of cardiac remodeling, they were selectively depleted by intravenous administration of liposomal clodronate in heart failure—prone hypertensive Ren-2 rats from the age of 7 until 13 weeks. Plain liposomes were used for comparison. Liposomal clodronate treatment reduced the number of blood monocytes and decreased the number of macrophages in the myocardium. Compared to plain liposomes, liposomal clodronate treatment rapidly worsened left ventricular ejection function in hypertensive rats. Liposomal clodronate— treated Ren-2 rat hearts showed areas of myocyte loss with abundant inflammatory cell infiltration, predominantly comprising CD4 positive T lymphocytes. The current study showed that lack of macrophages was associated with earlier development of myocardial dysfunction in hypertensive rats. Modulation of macrophage function may be of value in the evolution of cardiomyopathy.

TLR2 activation is essential to induce a Th1 shift in human peripheral blood mononuclear cells by plant stanols and plant sterols.

Plant sterols may induce a Th1 shift in humans. However, whether plant stanols have similar effects as well as the underlying mechanism are unknown. We have now shown that (like sitosterol) sitostanol, both 4-desmethylsterols, induces a Th1 shift when added in vitro at physiological concentrations to human PBMCs. This conclusion was based on a higher IFNγ production, with no change in the production of IL-4 and IL-10. α-Amyrin, a 4.4-dimethylsterol, had comparable effects. Because 4.4-dimethylsterols cannot activate transcription factor LXR, this finding indicates that LXR activation was not involved. Sitosterol and sitostanol did not alter the production of IL-12 and IL-18 in PBMCs as well as in monocyte-derived U937 cells, suggesting that plant sterols directly affect T-helper cells, without activating APCs. However, in PBMCs treated with a TLR2 blocker (T2.5), IFNγ production was completely inhibited, whereas blocking TLR4 with HTA125 had no such effect. To confirm these findings, PBMCs from TLR2−/− mice were cultured in the presence of sitosterol and sitostanol. In these cells, no Th1 shift was observed. Our results, therefore, indicate that TLR2 activation is essential to induce a Th1 shift in human PBMCs by plant stanols and plant sterols.

Abdominal Fat Mass Is Associated With Adaptive Immune Activation: The CODAM Study

Abdominal fat‐related activation of the innate immune system and insulin resistance (IR) are implicated in the pathogenesis of cardiovascular diseases. Recent data support an important role of the adaptive immune system as well. In this study, we investigate the association between waist circumference and markers of systemic adaptive immune activation, and the potential mediating role of innate immune activation and/or IR herein. The study population consisted of 477 (304 men) individuals (mean age: 59.4 ± 7.0 years) in whom waist circumference, HOMA2‐IR (IR derived from homeostasis model assessment), and markers of innate (C‐reactive protein (CRP), interleukin (IL)‐6, serum amyloid A (SAA)) and adaptive (neopterin, soluble CD25 (sCD25)) immune activation were measured. These markers were compiled into an adaptive and innate immune activation score by averaging the respective z‐scores. After adjustments for age, sex, glucose metabolism, smoking status, prior cardiovascular disease, and other risk factors, waist circumference was associated with the adaptive (standardized regression coefficient β = 0.12 (95% confidence intervals: 0.04–0.20)) and the innate immune activation scores (β = 0.24 (0.17–0.31)), and with HOMA2‐IR (β = 0.49 (0.42–0.56)). The innate immune activation score and HOMA2‐IR were also positively associated with the adaptive immune activation score (β = 0.31 (0.21–0.40) and β = 0.11 (0.02–0.21), respectively). The association between waist circumference and the adaptive immune activation score was completely abolished when further adjusted for innate immune activation and HOMA2‐IR (to β = −0.01 (−0.10–0.08)), and the specific mediation “effects” attributable to each of these variables were 58% and 42%, respectively. We conclude that abdominal obesity is associated with systemic adaptive immune activation and that innate immune activation and IR constitute independent and equally important pathways explaining this association.

Prevalence of anti-endothelial cell antibodies in idiopathic pulmonary arterial hypertension

To the Editors: Pulmonary arterial hypertension (PAH) is a rare disease often resulting in right-sided heart failure and premature death 1. PAH is idiopathic (IPAH), heritable, or related to conditions such as connective tissue diseases (CTD) 2. IPAH prognosis remains poor despite improved patient survival with current treatment options. Therefore, elucidating the pathophysiology of IPAH is important for the discovery of novel therapeutic approaches. Inflammation and immune reactivity have been implicated in the pathophysiology of IPAH. In 2005, Tamby et al. 3 described the presence of anti-endothelial cell antibodies (AECA) in IPAH, pointing at the involvement of humoral immunity. AECA are a heterogeneous family of auto-antibodies capable of reacting with different endothelial cell (EC) structures 4. In PAH, pulmonary EC dysfunction is considered a key player in the initiation and progression of the disease 5. Systemic sclerosis (SSc) is a paradigm of autoimmune PAH, as 10–15% of these patients develop PAH 6. Interestingly, in SSc, immunoglobuliln (Ig)G AECA targeting cell-surface antigens have indeed been shown to induce EC dysfunction 7, 8. Thus, IgG AECA-induced endothelial dysfunction may be the initiating event in IPAH. Whereas IgG auto-antibodies are considered pathogenic in various autoimmune diseases, IgM auto-antibodies have been proposed to be protective in these diseases 9. Regarding a pathophysiological role of AECA, it is important to identify whether AECA are reactive with EC-surface antigens. To corroborate and further investigate the role of the humoral immune system in IPAH, we aimed to study the prevalence of IgG, as well as IgM AECA targeting cell-surface EC antigens using a cell-based ELISA with viable human umbilical vein EC (HUVEC). We screened five study cohorts for the presence of AECA. 1) 29 IPAH patients; mean pulmonary artery …

Induction of endothelial cell apoptosis by IgG antibodies from SLE patients with nephropathy: a potential role for anti-endothelial cell antibodies.

Abstract:  Systemic lupus erythematosus (SLE) is a prototype of an autoimmune disease with vasculopathy as demonstrated by the presence of vascular immune–complex deposition, inflammation, and thrombosis. A pivotal role in the initiation of vasculopathy is ascribed to vascular endothelium. In this respect, anti–endothelial cell antibodies (AECA), which are highly associated with SLE, are putative candidates for the initiation of SLE vasculopathy. In addition to the potency of AECA to induce a proinflammatory endothelial cell phenotype, AECA have also been described to trigger endothelial cell apoptosis. However, in SLE data are not uniform on the potentials of AECA to induce endothelial cell apoptosis in vitro. We have addressed this question in a cohort of SLE patients with nephropathy. AECA levels, and the apoptosis‐inducing potentials of serum IgG were measured at the time of renal complication and biopsy. Also serum antibody reactivity with various SLE‐related autoantigens including HSP60 was determined in patients. The results show that the SLE patient group has increased AECA levels as well as increased levels of induction of endothelial cell apoptosis by serum IgG. AECA and apoptosis values largely varied among the patients. Our data show that antibodies other than anti‐HSP60 are also involved in apoptosis induction. The results are discussed in the context of recent findings on the role of AECA in endothelial cell apoptosis and renal vasculopathy in SLE.