IL-15 aggravates atherosclerotic lesion development in LDL receptor deficient mice.

BACKGROUND: Interleukin 15 (IL-15) is a pro-inflammatory cytokine involved in inflammatory diseases and IL-15 is expressed in atherosclerotic plaques. METHODS: To establish the role of IL-15 in atherosclerosis we studied the effect of IL-15 on atherosclerosis associated cells in vitro and in vivo by neutralizing IL-15 using a DNA vaccination strategy. RESULTS: Upon feeding a Western type diet LDLr(-/-) mice do express higher levels of IL-15 within the spleen and the number of IL-15 expressing cells among blood leukocytes and spleen cells is increased. Addition of IL-15 to macrophages induces the expression TNF-α and CCL-2. After the mice were vaccinated against IL-15, we observe a reduction in plaque size of 75% plaque. Unexpectedly, the relative number of macrophages within the plaque was 2-fold higher in IL-15 vaccinated mice than in control mice. Vaccination against IL-15 leads to an increased cytotoxicity against IL-15 overexpressing target cells, resulting in a reduction in IL-15 expressing cells and macrophages in blood and spleen and a decreased CD4/CD8 ratio. CONCLUSION: Hypercholesterolemia leads to upregulation of IL-15 within spleen and blood. DNA vaccination against IL-15 does markedly reduces atherosclerotic lesion size, but does not promote lesion stability.

Vaccination using oxidized low-density lipoprotein-pulsed dendritic cells reduces atherosclerosis in LDL receptor-deficient mice.

AIMS: Modification of lipoproteins plays an important role in the development of atherosclerosis. Oxidatively modified low-density lipoprotein (oxLDL) has a number of pro-inflammatory effects, whereas immunization with various forms of oxLDL is able to reduce atherosclerosis. The uptake of modified LDL by dendritic cells (DCs) and the presentation of epitopes thereof may form an important step in the immunomodulatory effects of LDL. In this study, we transferred oxLDL-pulsed mature DCs (mDCs) to LDL receptor-null (LDLr(-/-)) mice and examined the effects on atherosclerosis. METHODS AND RESULTS: Bone marrow-derived DCs were cultured for 10 days in the presence of granulocyte-macrophage colony-stimulating factor. Immature DCs were matured by lipopolysaccharide and pulsed with copper-oxidized LDL. These mDCs were transferred three times to LDLr(-/-) mice before the induction of atherosclerosis by Western-type diet feeding. The transfer of oxLDL-pulsed mDCs resulted in an 87% reduction in carotid artery lesion size (P < 0.001) with a concurrent increase in plaque stability, whereas treatment using mDCs pulsed with the atherosclerosis-irrelevant antigen, ovalbumin, did not influence lesion size or stability. Furthermore, the vaccination procedure resulted in the induction of oxLDL-specific T cells with a reduced Th1 profile and an increase in oxLDL-specific IgG levels, which contributed to a reduction in foam cell formation. CONCLUSION: These data indicate that vaccination with oxLDL-pulsed mDCs provides a novel and powerful strategy for the immunomodulation of atherosclerosis.

Effect of natural killer T cell activation on the initiation of atherosclerosis.

It has been shown that natural killer T (NKT) cell activation accelerates atherosclerosis in apoE(-/-) mice. ApoE is, however, an important mediator in the presentation of lipids which may complicate conclusions on the role of NKT cells in atherosclerosis. Treatment of LDLr(-/-) mice with alpha-GalCer during Western-type diet feeding is therefore of interest. Atherosclerosis was induced by Western-type diet feeding and collar placement around the carotid arteries in both LDLr(-/-) and apoE(-/-) mice. Subsequently, the mice were treated twice a week with alpha-GalCer. This resulted in an 84% reduction in plaque size in LDLr(-/-) mice (P < 0.05), while no effect was observed in apoE(-/-) mice. In-vitro incubation of splenocytes with alpha-GalCer showed that LDLr(-/-) splenocytes proliferated stronger than apoE(-/-) splenocytes. This is reflected in a larger increase in production of cytokines and especially IL-10 after in-vitro stimulation with alpha-GalCer in LDLr(-/-) mice compared with apoE(-/-) splenocytes. Additionally, feeding a Western-type diet for 1.5 weeks induced a strong increase in the number of NKT cells in LDLr(-/-) mice and this increase was slower and less prominent in apoE(-/-) mice. Administration of alpha-GalCer to LDLr(-/-) mice in combination with Western-type diet feeding reduced plaque formation, but this effect was not seen in apoE(-/-) mice. This may be explained by the decreased presentation of lipids on CD1d molecules due to the lack of apoE. In this study we proved for the first time that NKT cells may also act in an atheroprotective manner.

Vaccination against TIE2 reduces atherosclerosis.

BACKGROUND: TIE2(+) cells play a crucial role in processes that are involved in atherosclerosis, such as angiogenesis. Therefore, the specific deletion of TIE2(+) cells by means of DNA vaccination may affect atherosclerosis. METHODS: Cellular immunity against cells that overexpress TIE2 was established in LDLr(-/-) mice by a novel oral DNA vaccination technique, in which an attenuated Salmonella typhimurium strain was used as a carrier for plasmid pcDNA3.1 encoding TIE2. After three oral vaccinations with 2-week time intervals LDLr(-/-) mice were put on a Western type diet and atherosclerosis was induced. RESULTS: Eight weeks after vaccination FACS analysis of circulating peripheral blood mononuclear cells (PBMCs) revealed a significant decrease (33%, p<0.05) in TIE2(+) cells upon vaccination against TIE2, indicating the successful induction of cellular immunity following vaccination against TIE2. Six weeks after collar placement vaccination against TIE2 resulted in significantly decreased carotid atherosclerosis, as indicated by 30% (p<0.05) reduced intima area and 27% (p<0.05) reduced intima/lumen ratios. Furthermore, atherosclerosis was attenuated in the aortic root by 42% (p<0.05), further underlining the anti-atherosclerotic effect of vaccination against TIE2. Adventitial angiogenesis was reduced by 61% (p<0.05) upon vaccination against TIE2 providing a mechanism via which vaccination against TIE2 inhibits lesion formation. Histochemical analysis of the atherosclerotic lesion composition revealed a 1.6-fold (carotid artery, p<0.05) and 1.9-fold (aortic root, p<0.05) increase in collagen content upon vaccination against TIE2, indicating a more stable plaque phenotype. CONCLUSIONS: We demonstrate that vaccination against TIE2 induces cellular immunity against cells that overexpress TIE2 and results in smaller atherosclerotic lesions with a more stable phenotype. Therefore, vaccination strategies that target cells that contribute to atherosclerosis, may be of potential use in the development of novel treatments of atherosclerosis.

Vaccination against CD99 inhibits atherogenesis in low-density lipoprotein receptor-deficient mice.

AIMS: Murine CD99 was recently found to be expressed on leukocytes and endothelial cells, where it is concentrated at inter-endothelial contacts. Blockade of CD99 by specific antibodies inhibits leukocyte extravasation to inflamed sites in vivo. The aim of the present study is to show the role of CD99 in atherosclerosis using a CD99 vaccination protocol to block the function of CD99 during atherosclerosis. METHODS AND RESULTS: We constructed a DNA vaccine against CD99 by cloning the extracellular domain of murine CD99 into pcDNA3. Vaccination was performed by oral administration of attenuated Salmonella typhimurium transformed with pcDNA3-CD99. This vaccination results in a CD99-specific, CD8-mediated cytotoxic response and subsequent reduction of CD99-expressing cells. We showed that CD99 is expressed on vascular endothelium overlying atherosclerotic plaques and found that CD99 expression is upregulated during western-type diet feeding. CD99 vaccination induced the formation of CD8-positive T cells that were cytotoxic against cells transfected with pcDNA3-CD99. Activation of CD8(+) T cells was demonstrated by a 30% increase in CD8(+)CD69(+) double-positive T cells in spleen and mediastinal lymph nodes. Furthermore, lymphocytes isolated from CD99-vaccinated mice specifically lysed CD99-expressing cells. More importantly, vaccination against CD99 attenuated atherosclerotic lesion formation in the aortic valve leaflets by 38% and in the carotid artery by 69% compared with mice that were vaccinated with a control vector. Furthermore, a lower number of cells were found in atherosclerotic lesions, implying that fewer leukocytes were recruited to these sites. These observations were accompanied by a decrease in CD99 expression on leukocytes. CONCLUSION: We conclude that vaccination against CD99 decreases atherogenesis by the selective removal of CD99-expressing cells, which could reduce leukocyte recruitment into atherosclerotic lesions and attenuate atherogenesis.

CXCR3 antagonist NBI-74330 attenuates atherosclerotic plaque formation in LDL receptor-deficient mice.

OBJECTIVE: The chemokine receptor CXCR3 is implicated in migration of leukocytes to sites of inflammation. Antagonizing CXCR3 may be a strategy to inhibit inflammation-induced leukocyte migration and subsequently reduce atherosclerosis. We used the CXCR3 specific antagonist NBI-74330 to block CXCR3-mediated signaling in peritonitis and diet-induced atherosclerosis. METHODS AND RESULTS: Antagonizing CXCR3 with NBI-74330 resulted in a significant reduction in CD4+ T cell and macrophage migration to the peritoneal cavity, which was as shown in ex vivo migration studies totally CXCR3 dependent. Atherosclerotic lesion formation in the aortic valve leaflet area and the entire aorta was significantly inhibited in NBI-74330 treated mice. Lymph nodes draining from the aortic arch were significantly smaller in treated mice and were enriched in regulatory T cells and contained fewer activated T cells, whereas the markers for regulatory T cells within the lesion were enhanced after NBI-74330 treatment. CONCLUSIONS: This study shows for the first time that treatment with a CXCR3 antagonist results in attenuating atherosclerotic lesion formation by blocking direct migration of CXCR3+ effector cells from the circulation into the atherosclerotic plaque and by beneficially modulating the inflammatory response in the lesion and the lymph nodes draining from the atherosclerotic lesion.

Immunomodulation of the inflammatory response in atherosclerosis.

PURPOSE OF REVIEW: Cardiovascular disease, as manifested in the formation of atherosclerotic lesions, can be described as a chronic inflammatory autoimmune-like disease that proceeds in the context of enhanced plasma lipid levels. Modulation of the immune response may therefore form a valuable therapy in addition to standardized cholesterol and blood pressure-lowering therapies. The purpose of this review is to describe a number of recent approaches to immunomodulate atherosclerosis: immunization against mediators involved in atherosclerosis, such as cytokines and modified low-density lipoprotein; intervention in cytokine pathways; intervention in co-stimulatory pathways; activation of regulatory T cells; and modulation of natural killer T cells. RECENT FINDINGS: The most recent findings point to an important role for regulatory T cells in atherosclerotic lesion formation. The function of the regulatory T cells is modulated by chemokines and by co-stimulatory pathways, whereas the function of these cells can be strongly upregulated by anti-CD3 treatment and tolerance induction. SUMMARY: In the near future the first exponents of this approach, such as immunization and enhancement of the function of regulatory T cells, may enter the first phase of clinical trials, and may ultimately add to the current therapies in atherosclerosis.

Vaccination against VEGFR2 attenuates initiation and progression of atherosclerosis.

OBJECTIVE: Vascular endothelial growth factor receptor 2 (VEGFR2)-overexpressing cells may form an interesting target for the treatment of atherosclerosis because of their involvement in processes that contribute to this disease, such as angiogenesis. METHODS AND RESULTS: We vaccinated mice against VEGFR2 by an orally administered DNA vaccine, comprising a plasmid, encoding murine VEGFR2, carried by live attenuated Salmonella typhimurium. This vaccine induces cellular immunity against cells that overexpress VEGFR2. Vaccination of hypercholesterolemic mice against VEGFR2 resulted in a marked induction of CD8+ cytotoxic T cells specific for VEGFR2 and led to an inhibition of angiogenesis in a hindlimb ischemia model. Interestingly, VEGFR2 vaccination attenuated the progression of preexisting advanced atherosclerotic lesions in the brachiocephalic artery of apoE-/- mice. Furthermore, VEGFR2 vaccination strongly reduced the initiation of collar-induced atherosclerosis in the carotid arteries of LDLr-/- mice. In addition, denudation of the carotid artery, as a model for postinterventional lesion formation, resulted in delayed endothelial replacement and significantly increased neointima formation on VEGFR2 vaccination. CONCLUSIONS: These data indicate the prominent role of VEGFR2+ cells in cardiovascular diseases and show that induction of cellular immunity against atherosclerosis-associated cells by means of DNA vaccination may contribute to the development of novel therapies against atherosclerosis.

KLF2 suppresses TGF-beta signaling in endothelium through induction of Smad7 and inhibition of AP-1.

OBJECTIVE: The flow-responsive Kruppel-like factor 2 (KLF2) is crucial for maintaining endothelial cell quiescence. Here, we describe its detailed effects on transforming growth factor-beta (TGF-beta) signaling, which normally has proatherogenic effects on endothelium. METHODS AND RESULTS: In-depth analysis of genome-wide expression data shows that prolonged lentiviral-mediated overexpression of KLF2 in human umbilical vein endothelial cells (HUVECs) diminishes the expression of a large panel of established TGF-beta-inducible genes. Both baseline and TGF-beta-induced expression levels of plasminogen activator inhibitor 1 (PAI-1) and thrombospondin-1 are greatly diminished by KLF2. Using a combination of ectopic expression, small interfering RNA-mediated knockdown, and promoter activity assays, we show that KLF2 partly inhibits the phosphorylation and subsequent nuclear accumulation of Smad2, thereby suppressing the TGF-beta-induced Smad4-mediated transcriptional activity. This is achieved through TGF-beta-independent induction of inhibitory Smad7. Additionally, a full inhibition of TGF-beta signaling is functionally achieved through a simultaneous suppression of activator protein 1 (AP-1), which is an essential cofactor for TGF-beta-dependent transcription of many genes. CONCLUSIONS: The concerted mechanism by which KLF2 inhibits TGF-beta signaling through induction of inhibitory Smad7 and attenuation of AP-1 activity provides a novel mechanism by which KLF2 contributes to sustaining a quiescent, atheroprotective status of vascular endothelium.

Interruption of the Tnfrsf4/Tnfsf4 (OX40/OX40L) pathway attenuates atherogenesis in low-density lipoprotein receptor-deficient mice.

OBJECTIVE: Atherosclerosis is a chronic (auto-)inflammatory disease and T cell activation is an important factor in this process. Tnfrsf4 (OX40) and Tnfsf4 (OX40 ligand) are members of the tumor necrosis factor (TNF) and TNF receptor family and OX40/OX40L mediated signaling is important in co-activation of T cells and facilitates B-T cell interaction. In this study we assessed the role of the OX40/OX40L pathway in atherosclerosis and the effect of interruption of the OX40/OX40L pathway on lesion development. METHODS AND RESULTS: We treated low-density lipoprotein receptor-deficient (LDLr-/-) mice with an anti-OX40L antibody which lead to a 53% decrease in atherosclerotic lesion formation. Treatment resulted in inhibition of Th2 mediated isotype switching by decreasing interleukin (IL)-4 secretion and subsequent low IgG1 serum levels against oxLDL, whereas protective anti-oxLDL specific IgM titers were increased in treated mice compared with control. CONCLUSIONS: We conclude that blocking the OX-40/OX40L interaction reduced atherogenesis by inhibition of IL-4 mediated Th2 induced isotype switching and subsequent increased levels of anti-oxLDL IgM.

Microarray analysis indicates an important role for FABP5 and putative novel FABPs on a Western-type diet.

Liver parenchymal cells play a dominant role in hepatic metabolism and thereby total body cholesterol homeostasis. To gain insight into the specific pathways and genes involved in the response of liver parenchymal cells to increased dietary lipid levels under atherogenic conditions, changes in parenchymal cell gene expression upon feeding a Western-type diet for 0, 2, 4, and 6 weeks were determined using microarray analysis in LDL receptor-deficient mice, an established atherosclerotic animal model. Using ABI Mouse Genome Survey Arrays, we were able to detect 7,507 genes (28% of the total number on an array) that were expressed in parenchymal cells isolated from livers of LDL receptor-deficient mice at every time point investigated. Time-dependent gene expression profiling identified fatty acid binding protein 5 (FABP5) and four novel FABP5-like transcripts located on chromosomes 2, 8, and 18 as important proteins in the primary response of liver parenchymal cells to Western-type diet feeding, because their expression was 16- to 22-fold increased within the first 2 weeks on the Western-type diet. The rapid substantial increase in gene expression suggests that these FABPs may play an important role in the primary protection against the cellular toxicity of cholesterol, free fatty acids, and/or lipid oxidants. Furthermore, as a secondary response to the Western-type diet, liver parenchymal cells of LDL receptor-deficient mice stimulated glycolysis and lipogenesis pathways, resulting in a steady, more atherogenic serum lipoprotein profile (increased VLDL/LDL).

HDL cholesterol levels are an important factor for determining the lifespan of erythrocytes.

OBJECTIVE: Scavenger receptor class B, type I (SR-BI) is a multifunctional receptor that promotes the selective uptake of cholesteryl esters from high-density lipoprotein (HDL). Disruption of SR-BI in mice results in a dramatic increase in HDL cholesterol. Interestingly, mice lacking SR-BI also develop anemia, as evidenced by accumulation of reticulocytes in the circulation. The objective of the current study was to delineate the mechanism underlying development of anemia in the absence of SR-BI. METHODS: Expression of important mediators of erythropoiesis, as well as key enzymes in the degradation of erythrocytes, were analyzed using real-time polymerase chain reaction in SR-BI wild-type and SR-BI knockout mice. In addition, in vivo studies were performed using biotinylated erythrocytes to determine erythrocyte survival. RESULTS: mRNA expression of TAL-1, GATA-1, FOG-1, erythropoietin receptor, and ferrochelatase, important mediators of erythropoiesis, was increased in spleens of SR-BI-deficient mice. In addition, the relative amount of early Ter119(high)CD71(high) -expressing erythroblasts was increased in SR-BI-deficient spleens. Interestingly, also expression of hemeoxygenase 1 and biliverdin reductase, enzymes involved in the degradation of erythrocytes, was increased. Furthermore, an elevated amount of conjugated bilirubin, the breakdown product of hemoglobin, was found in bile. Using biotinylated erythrocytes, we show that survival of erythrocytes was decreased in SR-BI-deficient mice. Thus, the observed increased erythropoiesis in the SR-BI-deficient mice is most likely a direct response to the reduced erythrocyte lifespan. Finally, we show that increased HDL cholesterol levels due to SR-BI deficiency induce erythrocyte cholesterol:phospholipid ratios, resulting in decreased deformability and increased osmotic fragility, thereby providing an explanation for the observed reduced lifespan. CONCLUSIONS: SR-BI is not only essential for HDL cholesterol homeostasis and atherosclerosis susceptibility, but also for maintaining normal erythrocyte lifespan.

HIV entry inhibitor TAK-779 attenuates atherogenesis in low-density lipoprotein receptor-deficient mice.

OBJECTIVE: HIV combination therapy using protease inhibitors is associated with elevated plasma levels of atherogenic lipoproteins and increased risk for atherosclerosis. We investigated whether the HIV entry inhibitor TAK-779 affects lipoprotein levels and atherogenesis in low-density lipoprotein receptor-deficient mice. TAK-779 is an antagonist for the chemokine receptors CCR5 and CXCR3, which are expressed on leukocytes, especially T-helper 1 cells, and these receptors may be involved in recruitment of these cells to atherosclerotic plaques. METHODS AND RESULTS: TAK-779 treatment of low-density lipoprotein receptor-deficient mice did not elevate the levels of atherogenic lipoproteins, whereas it dramatically reduced atherosclerosis in the aortic root and in the carotid arteries. The number of T cells in the plaque was reduced by 95%, concurrently with a 98% reduction in the relative IFN-gamma area. TAK-779-treated animals showed a decreased percentage of CD4+ and CD8+ T cells in peripheral blood and in mediastinal lymph nodes compared with control-treated animals. CONCLUSIONS: TAK-779 not only suppresses HIV entry via blockade of CCR5 but also attenuates atherosclerotic lesion formation by blocking the influx of T-helper 1 cells into the plaque. TAK-779 treatment may be especially beneficial for young HIV patients as they face lifelong treatment, and this drug impairs atherogenesis.

Repopulation of apolipoprotein E knockout mice with CCR2-deficient bone marrow progenitor cells does not inhibit ongoing atherosclerotic lesion development.

OBJECTIVE: Using bone marrow transplantation, we have previously demonstrated the critical role that hematopoietic CCR2 plays in early atherogenesis. Reconstitution of irradiated apolipoprotein (apo) E3-Leiden mice with CCR2-deficient bone marrow progenitor cells resulted in 86% reduction on overall atherosclerotic lesion development. However, no data on CCR2 in the cause of established atherosclerosis have been reported so far. METHODS AND RESULTS: To study the role of CCR2 in established atherosclerotic lesions, bone marrow progenitor cells harvested from apoE-/- and apoE-/-/CCR2-/- mice were transplanted into lethally irradiated 16-week-old apoE-/- mice with established atherosclerotic lesions. No significant differences were found in serum total cholesterol and triglycerides levels at different time points after transplantation. At age 16 weeks, lesion size in control apoE-/- mice was 3.28+/-1.06x10(5) microm2. At 9 weeks after transplantation, apoE-/---> apoE-/- and apoE-/-/CCR2-/---> apoE-/- mice had developed significantly larger atherosclerotic lesions (4.49+/-0.92x10(5) microm2, P<0.02 and 4.15+/-0.62x10(5) microm2, P<0.04 compared with controls, respectively). However, no significant effect of disruption of hematopoietic CCR2 was observed on the progression of lesions. Furthermore, the macrophage positive area (78+/-4% versus 72+/-9%) and collagen content (11+/-6% versus 15+/-3%) of the lesions were similar as well. CONCLUSIONS: In contrast to the critical role of CCR2 in the initiation of atherogenesis, bone marrow progenitor cell-derived CCR2 does not influence the progression of established atherosclerotic lesions, pointing to additional mechanisms for recruitment of monocytes at later stages of lesion development.