microRNA-155 Is Decreased During Atherosclerosis Regression and Is Increased in Urinary Extracellular Vesicles During Atherosclerosis Progression.

Background: Atherosclerosis is a chronic inflammatory disease driven by macrophage accumulation in medium and large sized arteries. Macrophage polarization and inflammation are governed by microRNAs (miR) that regulate the expression of inflammatory proteins and cholesterol trafficking. Previous transcriptomic analysis led us to hypothesize that miR-155-5p (miR-155) is regulated by conjugated linoleic acid (CLA), a pro-resolving mediator which induces regression of atherosclerosis in vivo. In parallel, as extracellular vesicles (EVs) and their miR content have potential as biomarkers, we investigated alterations in urinary-derived EVs (uEVs) during the progression of human coronary artery disease (CAD). Methods: miR-155 expression was quantified in aortae from ApoE-/- mice fed a 1% cholesterol diet supplemented with CLA blend (80:20, cis-9,trans-11:trans-10,cis-12 respectively) which had been previously been shown to induce atherosclerosis regression. In parallel, human polarized THP-1 macrophages were used to investigate the effects of CLA blend on miR-155 expression. A miR-155 mimic was used to investigate its inflammatory effects on macrophages and on ex vivo human carotid endarterectomy (CEA) plaque specimens (n = 5). Surface marker expression and miR content were analyzed in urinary extracellular vesicles (uEVs) obtained from patients diagnosed with unstable (n = 12) and stable (n = 12) CAD. Results: Here, we report that the 1% cholesterol diet increased miR-155 expression while CLA blend supplementation decreased miR-155 expression in the aorta during atherosclerosis regression in vivo. CLA blend also decreased miR-155 expression in vitro in human THP-1 polarized macrophages. Furthermore, in THP-1 macrophages, miR-155 mimic decreased the anti-inflammatory signaling proteins, BCL-6 and phosphorylated-STAT-3. In addition, miR-155 mimic downregulated BCL-6 in CEA plaque specimens. uEVs from patients with unstable CAD had increased expression of miR-155 in comparison to patients with stable CAD. While the overall concentration of uEVs was decreased in patients with unstable CAD, levels of CD45+ uEVs were increased. Additionally, patients with unstable CAD had increased CD11b+ uEVs and decreased CD16+ uEVs. Conclusion: miR-155 suppresses anti-inflammatory signaling in macrophages, is decreased during regression of atherosclerosis in vivo and is increased in uEVs from patients with unstable CAD suggesting miR-155 has potential as a prognostic indicator and a therapeutic target.

Different monocyte phenotypes result in proresolving macrophages in conjugated linoleic acid-induced attenuated progression and regression of atherosclerosis.

Monocytes/macrophages drive progression and regression of atherosclerosis. Conjugated linoleic acid (CLA), an anti-inflammatory lipid, mediates atheroprotective effects. We investigated how CLA alters monocyte/macrophage phenotype during attenuated progression and regression of atherosclerosis. Apolipoprotein E knockout (ApoE-/-) mice were fed a high-fat (60%) high-cholesterol (1%) diet (HFHCD) for 2 wk, followed by 6-wk 1% CLA 80:20 supplementation to investigate disease progression. Simultaneously, ApoE-/- mice were fed a 12-wk HFHCD with/without CLA for the final 4 wk to investigate regression. Aortic lesions were quantified by en face staining. Proteomic analysis, real-time quantitative PCR and flow cytometry were used to interrogate monocyte/macrophage phenotypes. CLA supplementation inhibited atherosclerosis progression coincident with decreased proinflammatory and increased anti-inflammatory macrophages. However, CLA-induced regression was associated with increased proinflammatory monocytes resulting in increased proresolving M2 bone marrow-derived macrophages, splenic macrophages, and dendritic cells in lesion-draining lymph nodes. Proteomic analysis confirmed regulation of a proinflammatory bone marrow response, which was abolished upon macrophage differentiation. Thus, in attenuation and regression of atherosclerosis, regardless of the monocyte signature, during monocyte to macrophage differentiation, proresolving macrophages prevail, mediating vascular repair. This study provides novel mechanistic insight into the monocyte/macrophage phenotypes in halted atherosclerosis progression and regression of atherosclerosis.-Bruen, R., Curley, S., Kajani, S., Lynch, G., O'Reilly, M. E., Dillon, E. T., Fitzsimons, S., Mthunzi, L., McGillicuddy, F. C., Belton, O. Different monocyte phenotypes result in proresolving macrophages in conjugated linoleic acid-induced attenuated progression and regression of atherosclerosis.

Milk-derived bioactive peptides and their health promoting effects: a potential role in atherosclerosis.

Bioactive peptides derived from milk proteins are food components that, in addition to their nutritional value, retain many biological properties and have therapeutic effects in several health disorders, including cardiovascular disease. Amongst these, atherosclerosis is the underlying cause of heart attack and strokes. It is a progressive dyslipidaemic and inflammatory disease where accumulation of oxidized lipids and inflammatory cells leads to the formation of an atherosclerotic plaque in the vessel wall. Milk-derived bioactive peptides can be released during gastrointestinal digestion, food processing or by enzymatic and bacterial fermentation and are considered to promote diverse beneficial effects such as lipid lowering, antihypertensive, immnomodulating, anti-inflammatory and antithrombotic effects. In this review, an overview of the diverse biological effects of these compounds is given, particularly focusing on their beneficial properties on cardiovascular disease and proposing novel mechanisms of action responsible for their bioactivity. Attempts to prevent cardiovascular diseases target modifications of several risk factors such as high blood pressure, obesity, high blood concentrations of lipids or insulin resistance. Milk-derived bioactive peptides are a source of health-enhancing components and the potential health benefit of these compounds has a growing commercial potential. Consequently, they have been incorporated as ingredients in functional foods, as dietary supplements and as pharmaceuticals to promote health and reduce risk of chronic diseases.

Atheroprotective effects of conjugated linoleic acid.

Atherosclerosis, the underlying cause of heart attack and strokes, is a progressive dyslipidaemic and inflammatory disease where monocyte-derived macrophage cells play a pivotal role. Although most of the mechanisms that contribute to the progression of atherosclerosis have been identified, there is limited information on those governing regression. Conjugated linoleic acid (CLA) is a generic term denoting a group of naturally occurring isomers of linoleic acid (18:2, n6) that differ in the position or geometry (i.e. cis or trans) of their double bonds. The most predominant isomers in ruminant fats are cis-9, trans-11 CLA (c9,t11-CLA), which accounts for more than 80% of CLA isomers in dairy products and trans-10, cis-12 CLA (t10,c12-CLA). Dietary administration of a blend of the two most abundant isomers of CLA has been shown to inhibit the progression and induce the regression of pre-established atherosclerosis. Studies investigating the mechanisms involved in CLA-induced atheroprotective effects are continually emerging. The purpose of this review is to discuss comprehensively the effects of CLA on monocyte/macrophage function in atherosclerosis and to identify possible mechanisms through which CLA mediates its atheroprotective effects.

IL-10 mediates the immunoregulatory response in conjugated linoleic acid-induced regression of atherosclerosis.

Conjugated linoleic acid (CLA) induces regression of preestablished atherosclerosis in the ApoE(-/-) mouse. Understanding the mechanisms involved may help in identifying novel pathways associated with the regression of human disease. Animals were administered a 1% cholesterol diet for 12 wk, with 1% CLA supplementation from wk 8 to 12. ApoE(-/-) mice fed only the 1% cholesterol diet for 12 wk were employed as controls. Transcriptomic analysis of mouse aorta showed that many of the components of the IL-10 signaling pathway were modified during CLA-induced regression. Real-time PCR and Western blot analysis showed increased IL-10 receptor expression, phosphorylation of STAT3, and downstream target gene expression in the aorta, alongside an increase in serum IL-10 (79.8 ± 22.4 vs. 41.9 ± 5.5 pg/ml, n = 10; P < 0.01). CLA -supplementation also increased IL-10 production in bone marrow-derived macrophages (143.6 ± 28.6 vs. 94 ± 5.6 pg/ml, n = 5; P < 0.05). To explore the mechanisms for altered IL-10 production, we examined the profile of monocyte/macrophage phenotype in the vessel wall, bone marrow, and spleen. CLA increased macrophage polarization toward an anti-inflammatory M2 phenotype in vivo, increasing the population of Ly6C(lo) monocytes (29 vs. 77 ± 14, n=5, P < 0.05) in the aorta. CLA had similar effects on monocytes/macrophages differentiated from marrow-derived progenitor cells and on splenocytes. The induction of IL-10 on CLA supplementation in this model may reflect a systemic alteration toward an anti-inflammatory phenotype, which, in turn promotes increased vascular infiltration by Ly6C(lo) monocytes. These cells may contribute to CLA-induced disease regression.

SorLA modulates atheroprotective properties of CLA by regulating monocyte migration.

OBJECTIVE: We have previously shown that CLA induces regression of pre-established atherosclerotic lesions in apoE(-/-) mice. CLA is a known ligand of peroxisome proliferator activated receptors (PPARs) and it is postulated that CLA mediates its atheroprotective effects through activation of PPARs. Earlier work in our group identified the monocyte/macrophage cell as the primary cellular target of CLA. In this study we identified novel genes regulated by CLA during the regression of atherosclerosis and characterised a role for one of these, SorLA. SorLA is a member of the vacuolar protein sorting 10 protein (Vps10p) domain receptor family, which has structural homology with the LDLR family. METHODS AND RESULTS: Expression of SorLA was identified with its Vps10p family member Sort1 by transcriptomic analysis of murine aorta following CLA-induced regression of atherosclerosis. Decreased expression of both receptors was confirmed by real-time PCR in the aorta of CLA-supplemented mice. SorLA protein expression was predominantly localised to monocyte/macrophage cells in the vasculature by immunohistochemistry. CLA and the PPAR-γ agonists, troglitazone, and 15-deoxy-prostaglandin (PG) J(2), decreased protein and RNA expression of SorLA in THP-1 monocytes; while pre-treatment with a PPAR-γ antagonist established a PPAR-γ dependent role for CLA regulation of SorLA. CLA inhibits monocyte migration. Consistent with a role for SorLA in mediating this response, overexpression of SorLA increased migration of THP-1 monocytes to monocyte chemoattractant protein-1 with a coincident increase in UPAR expression. CONCLUSION: CLA may mediate its atheroprotective effects in part through reduced expression of SorLA and a resulting inhibition of monocyte migration in vitro.

Profound resolution of early atherosclerosis with conjugated linoleic acid.

Conjugated linoleic acid (CLA) refers to a group of positional and geometric isomers of linoleic acid and has been shown to suppress the development of atherosclerosis in experimental models. However, the mechanism involved is unclear although it is believed it may act as a cyclooxygenase inhibitor or as an agonist of the nuclear receptors, peroxisome proliferator activated receptors (PPARs). In this study, we examined the effect of cis-9,trans-11:trans-10,cis-12-CLA (80:20 blend) on the regression of pre-established atherosclerosis. ApoE(-/-) mice fed a 1% cholesterol diet were randomized at 8 weeks to continue receiving the diet supplemented with 1% control saturated fat or 1% CLA blend for a further 8 weeks. CLA supplementation did not simply prevent progression but induced almost complete resolution of atherosclerosis. Although CLA inhibited platelet deposition, as detected by staining of platelet glycoprotein alpha11b beta111a, it did not inhibit COX-mediated generation of prostaglandins in this model. However, PPARalpha and PPARgamma expression was increased in the aorta of the CLA-treated animals. This was coincident with decreased macrophage accumulation and decreased expression of the macrophage scavenger receptor CD36 and increased apoptosis in the aorta in vivo. CLA induces the resolution of atherosclerosis by negatively regulating the expression of pro-inflammatory genes and inducing apoptosis in the atherosclerotic lesion.

Inhibition of PGE2 production by nimesulide compared with diclofenac in the acutely inflamed joint of patients with arthritis.

OBJECTIVE: Cyclo-oxygenase (COX) exists in two isoforms, COX-1 and COX-2. COX-1 is responsible for homeostatic functions, whereas COX-2 is inducible and responsible for the inflammatory effects of prostaglandins. Nimesulide, a selective inhibitor of COX-2, has been shown to relieve pain rapidly in arthritis. We examined the effect of nimesulide on prostaglandin formation in arthritis, to evaluate if this compound gains access to the site of inflammation and whether this is required for analgesia. STUDY DESIGN: This was a single-dose, double-blind, double-dummy, parallel group study of nimesulide 100mg compared with diclofenac 50mg. METHODS: Serial sampling of synovial fluid, whole blood and plasma was performed at baseline and 0.5, 1, 2, 3 and 4 hours after drug administration. Synovial tissue was obtained by needle biopsy at completion of the study period. Synovial fluid prostaglandin E2 (PGE2) was measured by enzyme immunoassay. COX-1 and COX-2 activities in whole blood were estimated by serum thromboxane B2 (TxB2) and endotoxin-induced PGE2 concentrations respectively. Synovial tissue COX-1 and COX-2 mRNA and protein expression were studied by reverse transcriptase polymerase chain reaction and immunohistochemistry respectively. Twenty patients with acute knee inflammation on a background of arthritis of all types completed the study. RESULTS: Patients were allocated randomly to groups to receive nimesulide (n = 10) or diclofenac (n = 10). The mean (+/- SEM) plasma concentration of PGE2 in the nimesulide group decreased from 24.45 +/- 2.71 ng/mL at baseline to 1.74 +/- 2.71 ng/ mL at 2 hours. Diclofenac also inhibited PGE2, but at a later time point (28.15 +/- 2.86 ng/mL at baseline and 0.85 +/- 2.86 ng/mL at 4 hours). The mean (+/- SEM) synovial fluid concentration of PGE2 was 319 +/- 89 pg/mL before treatment; it remained unaltered over 4 hours after the administration of nimesulide or diclofenac (235 +/- 72 pg/mL). In contrast, in six patients receiving long-term treatment with nimesulide or a non-selective NSAID, synovial PGE2 was 61 +/- 24 pg/ mL, suggesting that inhibition of synovial prostaglandin formation is delayed compared with that in plasma. Nimesulide caused partial inhibition of serum TxB2 (a decrease from a mean of 268 +/- 24 ng/mL to one of 164 +/- 27 ng/mL at 2 hours), whereas diclofenac had a greater effect (a decrease from 224 +/- 33 ng/mL, to 76 +/- 27 ng/mL at 3 hours). CONCLUSIONS: Nimesulide, a COX-2 selective inhibitor, has a rapid onset of action in the blood compartment, with early inhibition of PGE2 generation, an index of COX-2 activity. In contrast, it exhibits a delay in achieving therapeutic concentrations in the synovial fluid. Thus factors other than local inhibition of prostaglandins may explain the rapid onset of analgesia that is associated with nimesulide, including a possible central mechanism of pain relief.