Project description:Plaque calcification develops by the inflammation-dependent mechanisms involved in progression and regression of atherosclerosis. Macrophages can undergo two distinct polarization states, that is, pro-inflammatory M1 phenotype in progression and anti-inflammatory M2 phenotype in regression. In plaque progression, predominant M1 macrophages promote the initial calcium deposition within the necrotic core of the lesions, called as microcalcification, through not only vesicle-mediated mineralization as the result of apoptosis of macrophages and vascular smooth muscle cells (VSMCs), but also VSMC differentiation into early phase osteoblasts. On the other hand, in plaque regression M2 macrophages are engaged in the healing response to plaque inflammation. In association with the resolution of chronic inflammation, M2 macrophages may facilitate macroscopic calcium deposition, called as macrocalcification, through induction of osteoblastic differentiation and maturation of VSMCs. Oncostatin M, which has been shown to promote osteoblast differentiation in bone, may play a pivotal role in the development of plaque calcification. Clinically, two types of plaque calcification have distinct implications. Macrocalcification leads to plaque stability, while microcalcification is more likely to be associated with plaque rupture. Statin therapy, which reduces cardiovascular mortality, has been shown to exert its dual actions on plaque morphology, that is, regression of atheroma and increment of macroscopic calcium deposits. Statins may facilitate the healing process against plaque inflammation by enhancing M2 polarization of macrophages. Vascular calcification has pleiotropic properties as pro-inflammatory "microcalcification" and anti-inflammatory "macrocalcification". The molecular mechanisms of this process in relation with plaque progression as well as plaque regression should be intensively elucidated.

Project description:We have carried out a systems biology investigation of regulators controlling arterial plaque macrophage transcriptional changes in response to lipid lowering, in the Reversa mouse model of plaque regression in which poly I:C injections induce recombination-mediated inactivation of Mttp in the liver and (when combined with a switch to chow diet) restore normal lipid levels in an Ldlr-/-Apob100/100 mouse (Lieu et al., 2003, Circulation, v.107(9), pp.1315-21). Twenty-four Reversa mice (12 males, 12 females) were maintained on Western diet for 16 weeks and given injections of either poly I:C or vehicle (saline) and then switched to normal chow. At seven days after the last injection, animals were sacrificed and CD68+ macrophages were isolated from the aortic root plaque using laser-capture microdissection. An additional two Ldlr-/- animals (male) were treated with poly I:C and CD68+ aortic root plaque macrophages were obtained, as a control group for effects of poly I:C independent of Mttp inactivation. RNA isolated from each of the 26 samples was reverse-transcribed, amplified, fragmented, labeled, and then hybridized to the Affymetrix Mouse Exon Array 1.0 ST GeneChip. Probe intensities were analyzed using transcript-level probesets for gene expression profiling, and for each mouse transcript represented on the microarray, a two-factor model (sex and treatment) was used for the analysis of the 24 samples from the Reversa mice, to test for a significant effect of the poly I:C (vs. saline) treatment.

Project description:Currently, there are no generally applicable noninvasive methods for defining the relationship between atherosclerotic vascular damage and risk of focal thrombosis. Herein, we demonstrate methods to delineate the progression and regression of vascular damage in response to an atherogenic diet by quantifying the in vivo accumulation of semipermeable 200-300 nm perfluorocarbon core nanoparticles (PFC-NP) in ApoE null mouse plaques with [(19)F] magnetic resonance spectroscopy (MRS). Permeability to PFC-NP remained minimal until 12 weeks on diet, then increased rapidly following 12 weeks, but regressed to baseline within 8 weeks after diet normalization. Markedly accelerated clotting (53.3% decrease in clotting time) was observed in carotid artery preparations of fat-fed mice subjected to photochemical injury as defined by the time to flow cessation. For all mice on and off diet, an inverse linear relationship was observed between the permeability to PFC-NP and accelerated thrombosis (P = 0.02). Translational feasibility for quantifying plaque permeability and vascular damage in vivo was demonstrated with clinical 3 T MRI of PFC-NP accumulating in plaques of atherosclerotic rabbits. These observations suggest that excessive permeability to PFC-NP may indicate prothrombotic risk in damaged atherosclerotic vasculature, which resolves within weeks after dietary therapy.

Project description:To further study the important genes related with the diagnosis and prognosis of atherosclerosis, we have employed whole genome microarray expression profiling as a discovery platform to identify genes with the atherosclerosis. we established a rabbit model of progression and regression of atherosclerosis through balloon injury and high-cholesterol diet and normal diet. Rabbit abdominal aortas from atherosclerosis among control, model group (progression) and recovery groups (regression) were collected. We found that the differentially expressed genes mainly enriched in four clusters and genes associated with inflammation and extracellular matrix were returned to or close to normal levels much earlier than the genes associated with metabolism and sarcoplasmic proliferation, they kept down-regulation or up-regulation for a long time after normal diet. Expression of four genes (LPL，BMP7，MCP2 and SST) from this signature was quantified in the same RNA samples by real-time PCR and maybe used as novel biomarkers and targets for improving the diagnosis and prognosis of atheroscleross in the future.

Project description:Niacin has been used for more than 50 years in the management of atherosclerosis and is associated with improved patient outcomes. The routine use of niacin has been superseded in recent years with the advent of newer lipid-modulating interventions. Recently, however, there has been a renewed interest in its use due to the appreciation of its many beneficial effects on atherosclerosis and endothelial function, both 'lipid-targeted' and 'pleiotropic'. This review will consider the effects of niacin in the setting of clinical trials and will critically evaluate proposed mechanisms of action.The identification of the GPR109A receptor has promoted a greater insight into niacin's mechanism of action, with demonstrated beneficial effects on endothelial function and inflammation, in addition to its lipid modulation role.Whether niacin itself is used routinely in the future will depend on the outcomes of two large outcome trials (AIM-HIGH and HPS2-THRIVE). In the future, however, with even better understanding of niacin pharmacology, new drugs may be able to be engineered to capture aspects of niacin that capitalize on the benefits more specifically and also more selectively, to avoid troublesome side-effects.

Project description:Interleukin 17A (IL17A) is involved in many inflammatory processes, but its role in atherosclerosis remains controversial. We examined the role of IL17A in mouse and human atherosclerosis.Atherosclerosis was induced in apolipoprotein E (ApoE)(-/-) and IL17A/ApoE(-/-) mice using high-fat feeding, angiotensin II infusion, or partial carotid ligation. In ApoE(-/-) mice, 3 months of high-fat diet induced interferon-? production by splenic lymphocytes, and this was abrogated in IL17A/ApoE(-/-) mice. IL17A/ApoE(-/-) mice had reduced aortic superoxide production, increased aortic nitric oxide levels, decreased aortic leukocyte and dendritic cell infiltration, and reduced weight gain after a high-fat diet compared with ApoE(-/-) mice. Despite these favorable effects, IL17A deficiency did not affect aortic plaque burden after a high-fat diet or angiotensin II infusion. In a partial carotid ligation model, IL17A deficiency did not affect percentage of stenosis but reduced outward remodeling. In this model, neutralization of the related isoform, IL17F, in IL17A/ApoE(-/-) mice did not alter atherosclerosis. Finally, there was no correlation between IL17A levels and carotid intima-media thickness in humans.IL17 contributes to vascular and systemic inflammation in experimental atherosclerosis but does not alter plaque burden. The changes in plaque composition caused by IL17 might modulate plaque stability.

Project description:Atherosclerosis is a leading cause of death worldwide in industrialized countries. Disease progression and regression are associated with different activation states of macrophages derived from inflammatory monocytes entering the plaques. The features of monocyte-to-macrophage transition and the full spectrum of macrophage activation states during either plaque progression or regression, however, are incompletely established. Here, we use a combination of single-cell RNA sequencing and genetic fate mapping to profile, for the first time to our knowledge, plaque cells derived from CX3CR1+ precursors in mice during both progression and regression of atherosclerosis. The analyses revealed a spectrum of macrophage activation states with greater complexity than the traditional M1 and M2 polarization states, with progression associated with differentiation of CXC3R1+ monocytes into more distinct states than during regression. We also identified an unexpected cluster of proliferating monocytes with a stem cell-like signature, suggesting that monocytes may persist in a proliferating self-renewal state in inflamed tissue, rather than differentiating immediately into macrophages after entering the tissue.

Project description:Guidelines to reduce cardiovascular risk in diabetes include aggressive LDL lowering, but benefits are attenuated compared with those in patients without diabetes. Consistent with this, we have reported in mice that hyperglycemia impaired atherosclerosis regression. Aldose reductase (AR) is thought to contribute to clinical complications of diabetes by directing glucose into pathways producing inflammatory metabolites. Mice have low levels of AR, thus raising them to human levels would be a more clinically relevant model to study changes in diabetes under atherosclerosis regression conditions. Donor aortae from Western diet-fed Ldlr-/- mice were transplanted into normolipidemic wild-type, Ins2Akita (Akita+/- , insulin deficient), human AR (hAR) transgenic, or Akita+/- /hAR mice. Akita+/- mice had impaired plaque regression as measured by changes in plaque size and the contents of CD68+ cells (macrophages), lipids, and collagen. Supporting synergy between hyperglycemia and hAR were the even more pronounced changes in these parameters in Akita+/- /hAR mice, which had atherosclerosis progression in spite of normolipidemia. Plaque CD68+ cells from the Akita+/- /hAR mice had increased oxidant stress and expression of inflammation-associated genes but decreased expression of anti-inflammatory genes. In summary, hAR expression amplifies impaired atherosclerosis regression in diabetic mice, likely by interfering with the expected reduction in plaque macrophage inflammation.

Project description:ObjectiveGene therapy, delivered directly to the blood vessel wall, could potentially prevent atherosclerotic lesion growth and promote atherosclerosis regression. Previously, we reported that a helper-dependent adenoviral (HDAd) vector expressing apolipoprotein A-I (apoA-I) in carotid endothelium of fat-fed rabbits reduced early (4 weeks) atherosclerotic lesion growth. Here, we tested whether the same HDAd-delivered to the existing carotid atherosclerotic lesions-could promote regression.Approach and resultsRabbits (n=26) were fed a high-fat diet for 7 months, then treated with bilateral carotid gene transfer. One carotid was infused with an HDAd expressing apoA-I (HDAdApoAI) and the other with a control nonexpressing HDAd (HDAdNull). The side with HDAdApoAI was randomized. Rabbits were then switched to regular chow, lowering their plasma cholesterols by over 70%. ApoA-I mRNA and protein were detected in HDAdApoAI-transduced arteries. After 7 weeks of gene therapy, compared with HDAdNull-treated arteries in the same rabbits, HDAdApoAI-treated arteries had significantly less vascular cell adhesion molecule-1 expression (28%; P=0.04) along with modest but statistically insignificant trends toward decreased intimal lesion volume, lipid and macrophage content, and intercellular adhesion molecule-1 expression (9%-21%; P=0.1-0.4). Post hoc subgroup analysis of rabbits with small-to-moderate-sized lesions (n=20) showed that HDAdApoAI caused large reductions in lesion volume, lipid content, intercellular adhesion molecule-1, and vascular cell adhesion molecule-1 expression (30%-50%; P≤0.04 for all). Macrophage content was reduced by 30% (P=0.06). There was a significant interaction (P=0.02) between lesion size and treatment efficacy.ConclusionsEven when administered on a background of aggressive lowering of plasma cholesterol, local HDAdApoAI vascular gene therapy may promote rapid regression of small-to-moderate-sized atherosclerotic lesions.

Project description:Patients with systemic lupus erythematosus (SLE) have a notable increase in atherothrombotic cardiovascular disease (CVD) which is not explained by the Framingham risk equation. In vitro studies indicate that type I interferons (IFNs) may play prominent roles in increased CV risk in SLE. However, the in vivo relevance of these findings, with regard to the development of CVD, has not been characterized. This study was undertaken to examine the role of type I IFNs in endothelial dysfunction, aberrant vascular repair, and atherothrombosis in murine models of lupus and atherosclerosis.Lupus-prone New Zealand mixed 2328 (NZM) mice and atherosclerosis-prone apolipoprotein E- knockout (apoE(-/-) ) mice were compared to mice lacking type I IFN receptor (INZM and apoE(-/-) IFNAR(-/-) mice, respectively) with regard to endothelial vasodilatory function, endothelial progenitor cell (EPC) function, in vivo neoangiogenesis, plaque development, and occlusive thrombosis. Similar experiments were performed using NZM and apoE(-/-) mice exposed to an IFN?-containing or empty adenovirus.Loss of type I IFN receptor signaling improved endothelium-dependent vasorelaxation, lipoprotein parameters, EPC numbers and function, and neoangiogenesis in lupus-prone mice, independent of disease activity or sex. Further, acute exposure to IFN? impaired endothelial vasorelaxation and EPC function in lupus-prone and non-lupus-prone mice. Decreased atherosclerosis severity and arterial inflammatory infiltrates and increased neoangiogenesis were observed in apoE(-/-) IFNAR(-/-) mice, compared to apoE(-/-) mice, while NZM and apoE(-/-) mice exposed to IFN? developed accelerated thrombosis and platelet activation.These results support the hypothesis that type I IFNs play key roles in the development of premature CVD in SLE and, potentially, in the general population, through pleiotropic deleterious effects on the vasculature.