UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Research suggests that monocytes differentiate into unique lineage-determined macrophage subpopulations in response to the local cytokine environment. The present study evaluated the atherogenic potential of two divergent lineage-determined human monocyte-derived macrophage subpopulations. Monocytes were differentiated for 7 days in the presence of alternative macrophage development cytokines: granulocyte-macrophage colony-stimulating factor to produce granulocyte-macrophage-CSF macrophages (GM-Mac), or macrophage colony-stimulating factor (M-CSF) to produce M-Mac. Gene chip analyses of three monocyte donors demonstrated differential expression of inflammatory and cholesterol homeostasis genes in the macrophage subpopulations. Quantitative PCR confirmed a fivefold elevation in the expression of genes that promote reverse cholesterol transport (PPAR-gamma, LXR-alpha, and ABCG1) and macrophage emigration from lesions (CCR7) in GM-Mac compared to that in M-Mac. Immunocytochemistry confirmed enhanced expression of the proinflammatory marker CD14 in M-Mac relative to GM-Mac. M-Mac spontaneously accumulated cholesterol when incubated with unmodified low-density lipoprotein whereas GM-Mac only accumulated similar levels of cholesterol after protein kinase C activation. Immunostained human coronary arteries showed that macrophages with similar antigen expression to that of M-Mac (CD68(+)/CD14(+)) were predominant within atherosclerotic lesions whereas macrophages with antigen expression similar to GM-Mac (CD68(+)/CD14(-)) were predominant in areas devoid of disease. The identification of macrophage subpopulations with different gene expression patterns and, thus, different potentials for promoting atherosclerosis has important experimental and clinical implications and could prove to be a valuable finding in developing therapeutic interventions in diseases dependent on macrophage function.
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PMID:Heterogeneity of human macrophages in culture and in atherosclerotic plaques. 1832 97

Alternatively activated (M2) macrophages regulate steady state-, cancer-, and inflammation-related tissue remodeling. They are induced by Th2-cytokines and glucocorticoids (GC). The responsiveness of mature macrophages to TGF-beta, a cytokine involved in inflammation, cancer, and atherosclerosis, is currently controversial. Recently, we demonstrated that IL-17 receptor B is up-regulated in human monocyte-derived macrophages differentiated in the presence of Th2 cytokines IL-4 and TGF-beta1. In this study, we show that mature human macrophages differentiated in the presence of IL-4, and dexamethasone (M2(IL-4/GC)) but not M2(IL-4) responds to TGF-beta1 which induced a gene expression program comprising 111 genes including transcriptional/signaling regulators (ID3 and RGS1), immune modulators (ALOX5AP and IL-17 receptor B) and atherosclerosis-related genes (ALOX5AP, ORL1, APOC1, APOC2, and APOE). Analysis of molecular mechanism underlying GC/TGF-beta cooperation revealed that surface expression of TGF-betaRII was high in M2(GC) and M2(IL-4/GC), but absent from M2(IL-4), whereas the expression of TGF-betaRI/II mRNA, TGF-betaRII total protein, and surface expression of TGF-betaRIII were unchanged. GC dexamethasone was essential for increased surface expression of functional TGF-betaRII because its effect was observed also in combination with IL-13, M-CSF, and GM-CSF. Prolonged Smad2-mediated signaling observed in TGF-beta1-treated M2(IL-4/GC) was due to insufficient activity of negative feedback mechanism what can be explained by up-regulation of SIRT1, a negative regulator of Smad7, and the retention of TGF-betaRII complex on the cell surface. In summary, mature human M2 macrophages made permissive to TGF-beta by GC-induced surface expression of TGF-betaRII activate in response to TGF-beta1, a multistep gene expression program featuring traits of macrophages found within an atherosclerotic lesion.
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PMID:Activation of a TGF-beta-specific multistep gene expression program in mature macrophages requires glucocorticoid-mediated surface expression of TGF-beta receptor II. 1845 74

In the past few years, inflammation has emerged as a major driving force of atherosclerotic lesion development. It is now well-established that from early lesion to vulnerable plaque formation, numerous cellular and molecular inflammatory components participate in the disease process. The most prominent cells that invade in evolving lesions are monocyte-derived macrophages and T-lymphocytes. Both cell types produce a wide array of soluble inflammatory mediators (cytokines, chemokines) which are critically important in the initiation and perpetuation of the disease. This review summarizes the currently available information from mouse studies on the contribution of a specified group of cytokines expressed in atherosclerotic lesions, viz. interleukins (IL-1, IL-2, IL-3, IL-4, IL-5, IL-6, IL-10, IL-12, IL-18, IL-20) and macrophage-associated cytokines [tumour necrosis factor-alpha (TNF-alpha); macrophage migration inhibitory factor (MIF); interferon-gamma (IFN-gamma); colony stimulating factors G-CSF,-M-CSF,-GM-CSF) to atherogenesis. Emphasis is put on the consistency of the effects of these cytokines, i.e. inasmuch an effect depends on the experimental approach applied (overexpression/deletion, strain, gender, dietary conditions, and disease stage). An important outcome of this survey is (i) that only for a few cytokines there is sufficient consistent data allowing classifying them as typically proatherogenic (IL-1, IL-12, IL-18, MIF, IFN-gamma, TNF-alpha, and M-CSF) or antiatherogenic (IL-10) and (ii) that some cytokines (IL-4, IL-6 and GM-CSF) can exert pro- or anti-atherogenic effects depending on the experimental conditions. This knowledge can be used for improved early detection, prevention and treatment of atherosclerosis.
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PMID:Cytokines and atherosclerosis: a comprehensive review of studies in mice. 1848 33

Social support and a stimulating environment have been suggested to reduce stress reactions and cardiovascular risk. The aim of this study was to assess the role of environmental enrichment and social interaction for development of atherosclerosis in atherosclerosis prone mice. Male ApoE-/- mice were divided into four groups and followed during 20 weeks: (i) enriched environment (E, n=12), (ii) deprived environment (ED, n=12), (iii) enriched environment with exercise (E-Ex, n=12) and (iv) socially deprived by individual housing (SD, n=10). Plasma lipid and cytokine concentrations were measured. Atherosclerosis was quantified in cross-sections of innominate artery and en face in thoracic aorta. Plaque area was significantly increased in SD mice in the innominate artery (P<0.05 vs. all other groups), but not in the thoracic aorta. Plasma lipids were increased in SD mice (P<0.001 vs. all for total cholesterol, P<0.05 vs. E and P<0.01 vs. ED for triglycerides). Plasma concentration of granulocyte-colony stimulating factor (G-CSF) was decreased in SD mice compared to E mice (P<0.05). Thus, social isolation increased atherosclerosis and plasma lipids in ApoE-/- mice. Reduction in plasma G-CSF levels may hamper endothelial regeneration in the atherosclerotic process. While environmental enrichment did not affect atherosclerosis, social isolation accelerated atherosclerosis.
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PMID:Effects of social isolation and environmental enrichment on atherosclerosis in ApoE-/- mice. 1860 5

Lysophosphatidylcholine (LPC), a major phospholipid component of atherogenic oxidized LDL, is implicated in atherosclerosis and, recently, in neurodegenerative diseases. We investigated the immunomodulatory functions of LPC in the central nervous system (CNS) using both an in vivo rat model, and in vitro culture systems of human primary astrocytes and a microglia cell line, HMO6. Compared with PBS injection, 20 nmol LPC-injection into the rat striatum increased astrocyte and microglial accumulation and elevated iNOS expression; concomitantly a time-dependent decrease in number of neurons was exhibited. In vitro studies on astrocytes and HMO6 cells showed that LPC increased the gene expression of proinflammatory factors IL-1beta, COX-2, and GM-CSF. LPC also induced chemotactic responses in HMO6 cells. Inhibition of rho kinase by fasudil, Y27632, or expressing a dominant negative form of rho kinase inhibited the LPC-induced IL-1beta mRNA expression in both astrocytes and HMO6. Moreover, intraperitoneal fasudil injection inhibited the LPC-induced microglial accumulation and iNOS expression and also was effective in protecting against neuronal loss. Silencing G2A, a specific receptor for LPC, inhibited proinflammatory gene expression and HMO6 migration. Overall, our results indicate that LPC induced considerable neuroinflammatory reactivity in glia mediated by rho kinase-dependent pathways with inhibition of these pathways conferring significant extents of neuroprotection.
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PMID:Lysophosphatidylcholine induces glial cell activation: role of rho kinase. 1911 79

Tumor necrosis factor-alpha (TNF-alpha), a key inflammatory cytokine, plays an important role in atherosclerosis. However, its precise characters in primary stage of the disease remain unclear. To assess the influence of TNF-alpha on inflammatory factors in aorta and liver in apoE and TNF-alpha double mutant (AT) mice, a comparative study on early fatty-streak lesion, the mRNA level of target gene in aorta and liver of adolescent AT and apoE-null (apoE(-/-)) mice were achieved. The characteristics of expression of inflammatory factors, and early fatty-streak lesion relevance were analyzed. The plasma cytokines in 6-week-old AT and apoE(-/-) mice were also measured. Lipid accumulation in the intima of the aorta existed as early as 3 weeks of age in apoE(-/-) mice. Fatty-streak lesion was mild in AT mice but prominent in apoE(-/-) mice, at age of 6 weeks. Furthermore, most interesting findings indicate that mRNA levels of pro-atherosclerotic factors, i.e. IL-1beta, IFN-gamma, ICAM-1, VCAM-1, MCP-1, GM-CSF and NF-kappaB (p65) were significantly downregulated in AT mice. Whereas IL-2 and IkappaB-alpha were upregulated in aorta of AT mice versus those in apoE(-/-) mice (p<0.01) and the transcript levels of pro-inflammatory cytokines, such as IL-1beta, IFN-gamma, ICAM-1, VCAM-1, MCP-1 and GM-CSF, increased with atherogenesis progression. On the other hand, the expression of these inflammatory factors in the liver displayed somewhat similar fashion to those in the aorta. Moreover, the plasma lipids profile in AT mice showed less pro-atherogenic than that of apoE(-/-) mice. Our data indicated that TNF-alpha deficiency surely, although not completely, retards fatty-streak lesion formation due to downregulated expression of the pro-atherosclerotic inflammatory factors in the present circumstance.
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PMID:Tumor necrosis factor-alpha deficiency retards early fatty-streak lesion by influencing the expression of inflammatory factors in apoE-null mice. 1915 44

The contribution of intimal cell proliferation to the formation of early atherosclerotic lesions is poorly understood. We combined 5-bromo-2'-deoxyuridine pulse labeling with sensitive en face immunoconfocal microscopy analysis, and quantified intimal cell proliferation and Ly-6C(high) monocyte recruitment in low density lipoprotein receptor-null mice. Cell proliferation begins in nascent lesions preferentially at their periphery, and proliferating cells accumulate in lesions over time. Although intimal cell proliferation increases in parallel to monocyte recruitment as lesions grow, proliferation continues when monocyte recruitment is inhibited. The majority of proliferating intimal cells are dendritic cells expressing CD11c and major histocompatibility complex class II and 33D1, but not CD11b. Systemic injection of granulocyte/macrophage colony-stimulating factor (GM-CSF) markedly increased cell proliferation in early lesions, whereas function-blocking anti-GM-CSF antibody inhibited proliferation. These findings establish GM-CSF as a key regulator of intimal cell proliferation in lesions, and demonstrate that both proliferation and monocyte recruitment contribute to the inception of atherosclerosis.
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PMID:GM-CSF regulates intimal cell proliferation in nascent atherosclerotic lesions. 1975 85

One of the first steps in the development of atherogenesis is adhesion of circulating monocytes to the vascular endothelium that is stimulated by beta(2)-integrins. Stress has been associated with enhanced expression of beta(2)-integrins on monocyte cell surface (Greeson et al., 2008). Central nervous system (CNS) serotonin regulates aspects of the stress response that can influence inflammatory processes that increase risk for atherosclerosis. This study examines effects of an environmental stressor (indexed by socioeconomic status (SES)) and CNS serotonin (indexed by CSF 5HIAA level), on the expression of beta(2)-integrins (CD11a, CD11b, and CD11c) on circulating monocytes in 131 volunteers. Participants completed a protocol consisting of a lumbar puncture for assessment of CSF 5HIAA levels (day 1) followed by an experimental protocol (day 2). Blood samples for the present analyses were obtained at baseline on day 2. The interaction of SES x 5HIAA was a significant predictor of levels of CD11b and CD11c expression (p=.02, and p=.05, respectively); the mean CD11b difference between Hi and Lo SES subjects was significant (p=.003) only in those with Lo levels of 5HIAA, while SES differences in CD11b among those with Mid and Hi levels of 5HIAA did not vary statistically. The pattern of findings was similar for CD11c. The present results suggest that the combination of high environmental stress and low CNS serotonin function could contribute to atherogenesis through processes that lead to increased expression of the beta(2)-integrins CD11b and CD11c on monocyte cell surfaces.
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PMID:Socioeconomic status moderates associations between CNS serotonin and expression of beta2-integrins CD11b and CD11c. 3178 84

Macrophage-derived foam cells play important roles in the progression of atherosclerosis. We reported previously that ERK1/2-dependent granulocyte/macrophage colony-stimulating factor (GM-CSF) expression, leading to p38 MAPK/ Akt signaling, is important for oxidized low density lipoprotein (Ox-LDL)-induced macrophage proliferation. Here, we investigated whether activation of AMP-activated protein kinase (AMPK) could suppress macrophage proliferation. Ox-LDL-induced proliferation of mouse peritoneal macrophages was assessed by [(3)H]thymidine incorporation and cell counting assays. The proliferation was significantly inhibited by the AMPK activator 5-aminoimidazole-4-carboxamide ribonucleoside (AICAR) and restored by dominant-negative AMPKalpha1, suggesting that AMPK activation suppressed macrophage proliferation. AICAR partially suppressed Ox-LDL-induced ERK1/2 phosphorylation and GM-CSF expression, suggesting that another mechanism is also involved in the AICAR-mediated suppression of macrophage proliferation. AICAR suppressed GM-CSF-induced macrophage proliferation without suppressing p38 MAPK/Akt signaling. GM-CSF suppressed p53 phosphorylation and expression and induced Rb phosphorylation. Overexpression of p53 or p27(kip) suppressed GM-CSF-induced macrophage proliferation. AICAR induced cell cycle arrest, increased p53 phosphorylation and expression, and suppressed GM-CSF-induced Rb phosphorylation via AMPK activation. Moreover, AICAR induced p21(cip) and p27(kip) expression via AMPK activation, and small interfering RNA (siRNA) of p21(cip) and p27(kip) restored AICAR-mediated suppression of macrophage proliferation. In conclusion, AMPK activation suppressed Ox-LDL-induced macrophage proliferation by suppressing GM-CSF expression and inducing cell cycle arrest. These effects of AMPK activation may represent therapeutic targets for atherosclerosis.
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PMID:Activation of AMP-activated protein kinase suppresses oxidized low-density lipoprotein-induced macrophage proliferation. 1984 15

IL-33 is a novel multi-functional IL-1 family member that, in contrast to other family members, is associated with Th2 responses. IL-33 signals via a heterodimer composed of its receptor, IL-1 receptor-like-1 (IL-1RL1), more commonly known as ST2L, and the IL-1R accessory protein. ST2L is expressed by endothelial cells, mast cells, basophils, Th2 cells, and DC. IL-33 has been associated with several immune-mediated disorders, including asthma, arthritis, and inflammatory bowel disease. In contrast, there is evidence that IL-33 can inhibit atherosclerosis development. A report in this issue of the European Journal of Immunology reveals a novel function of IL-33: the ability to promote myeloid DC generation in murine BM cell cultures, by triggering GM-CSF production by other BM cells, likely basophils. DC generated in the presence of IL-33 are maturation resistant, with only minimal T-cell stimulatory ability, associated with comparatively high levels of programmed death receptor ligand expression. This commentary discusses several questions raised by these findings, and provides a basis for further evaluation of IL-33 and ST2L in regulation of APC generation and function in both innate and adaptive immunity.
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PMID:IL-33 broadens its repertoire to affect DC. 1975 Apr 79

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