Faculty Bibliography

Methotrexate remains a cornerstone in the treatment of rheumatoid arthritis and other rheumatic diseases. Folate antagonism is known to contribute to the antiproliferative effects that are important in the action of methotrexate against malignant diseases, but concomitant administration of folic or folinic acid does not diminish the anti-inflammatory potential of this agent, which suggests that other mechanisms of action might be operative. Although no single mechanism is sufficient to account for all the anti-inflammatory activities of methotrexate, the release of adenosine from cells has been demonstrated both in vitro and in vivo. Methotrexate might also confer anti-inflammatory properties through the inhibition of polyamines. The biological effects on inflammation associated with adenosine release have provided insight into how methotrexate exerts its effects against inflammatory diseases and at the same time causes some of its well-known adverse effects. These activities contribute to the complex and multifaceted mechanisms that make methotrexate efficacious in the treatment of inflammatory disorders

Atherosclerotic cardiovascular disease (ASCVD) contributes to morbidity and mortality in systemic lupus erythematosus (SLE). Immunologic derangements may disrupt cholesterol balance in vessel wall monocytes/macrophages and endothelium. We determined whether lupus plasma impacts expression of cholesterol 27-hydroxylase, an anti-atherogenic cholesterol-degrading enzyme that promotes cellular cholesterol efflux, in THP-1 human monocytes and primary human aortic endothelial cells (HAEC). THP-1 monocytes and HAEC were incubated in medium containing SLE patient plasma or apparently healthy control human plasma (CHP). SLE plasma decreased 27-hydroxylase message in THP-1 monocytes by 47 +/- 8% (p < 0.008) and in HAEC by 51 +/- 5.5% (n = 5, p < 0.001). THP-1 macrophages were incubated in 25% lupus plasma or CHP and cholesterol-loaded (50 microg ml(-1) acetylated low density lipoprotein). Lupus plasma more than doubled macrophage foam cell transformation (74 +/- 3% vs. 35 +/- 3% for CHP, n = 3, p < 0.001). Impaired cholesterol homeostasis in SLE provides further evidence of immune involvement in atherogenesis. Strategies to inhibit or reverse arterial cholesterol accumulation may benefit SLE patients

Skin fibrosis occurs in a variety of human diseases, most notably systemic sclerosis (SSc). The end stage of scleroderma in human skin consists of excess collagen deposition in the dermis with loss of adnexal structures and associated adipose tissue. The initiating factors for this process and the early stages are believed to occur through vascular injury and immune dysfunction with a dysregulated inflammatory response. However, because of the insidious onset of the disease, this stage is rarely observed in humans and remains poorly understood. Animal models have provided a means to examine these early stages and to isolate and understand the effect of perturbations in signaling pathways, chemokines, and cytokines. This article summarizes recent progress in the understanding of the molecular pathogenesis of skin fibrosis in SSc from different animal models, both its initiation and its maintenance phases

Background: Increased production of extra cellular matrix in the skin is the hallmark of Scleroderma. We have previously reported that adenosine, a purine nucleoside produced in ischemic tissue, acting at A2A receptors, enhances dermal collagen production both in vitro and in a murine model of dermal fibrosis, although the mechanism by which adenosine receptor stimulation promotes collagen production is not clear. Fli1 is a known transcriptional repressor of fibrillar collagen genes and connective tissue growth factor (CTGF/CCN2) in dermal fibroblasts. To further clarify the mechanism by which A2A receptor stimulation induces dermal collagen accumulation, we explored the effects of A2A receptor occupancy on Fli1 and downstream mediators of fibroblast matrix production. Methods: Primary human dermal fibroblasts were stimulated with the selective adenosine A2AR agonist CGS21680 (1mM) for varying time periods and message levels (real time-RTPCR) for fli1 and CTGF were quantitated. In addition we measured cell associated and supernatant levels of collagen I and nuclear levels of fli1 by Western Blot. Results: Adenosine A2A receptor stimulation for 4 hours reduced Fli1 mRNA expression by 47+/-18% (4 hrs, p<0.05 vs. control, n=4) and reduced nuclear protein levels of Fli1 by 32+/-13% (24hrs, p<0.05, n=4). Because diminished nuclear fli1 should increase CTGF levels we next examined the effect of A2A receptor stimulation on CTGF mRNA and protein secretion. CTGF mRNA level was increased following A2A receptor stimulation for 8 hours by 3.7 fold. Consistent with the change in CTGF mRNA, CGS21680 stimulated a 4.7 fold increase in CTGF protein secretion at (24 hours) as well (p<0.03, n=4). As expected A2A receptor stimulation increased collagen I secretion (1.8-fold vs. control, p<0.05, n=3) and the increase in collagen production was completely abrogated by an antibody to CTGF (1.1+0.04 fold of control, p<0.05 vs.CGS, n=3) but not by control antiserum (1.6 +0.03fold of control, n=3). Conclusion: A2AR occupancy promotes dermal matrix production by suppressing expression of the transcriptional repressor fli1 leading to an increase in CTGF expression which acts in an autocrine fashion to stimulate collagen production. These findings further suggest that modulation of A2AR function may be a novel therapeutic target for limiting fibrosis in such conditions as scleroderma

Atherosclerosis is a chronic progressive disease that is a major contributor to cardiac death. It is characterized by inflammation and cholesterol deposition in the arterial wall. Excess cholesterol accumulation occurs as a result of an imbalance between delivery and removal and leads to formation of lipid-laden foam cells. Removal of cholesterol through a process known as reverse cholesterol transport requires the coordinated functioning of a number of genes including the P450 27-hydroxylase and the adenosine triphosphate-binding cassette transporter A1 (ABCA1). Reverse cholesterol transport is a key defense against atheroma formation. This review discusses the role of inflammatory processes in impeding reverse cholesterol transport. Particular emphasis is placed on the disruption of cholesterol outflow observed in the presence of cyclooxygenase inhibitors in cultured monocytes/macrophages. These inhibitors, which are used clinically to relieve pain and inflammation, have been associated with increased risk of cardiovascular disease and myocardial infarction. We explore the relationship between suppression of reverse cholesterol transport and harmful cardiac effects of coxibs

Premature atherosclerotic cardiovascular disease (ASCVD) is a common and devastating complication of systemic lupus erythematosus (SLE). It is likely that immunologic derangements contribute to premature ASCVD in these patients, possibly by disrupting homeostatic mechanisms that orchestrate cholesterol balance in monocytes/macrophages in the artery wall. CD36, a macrophage scavenger receptor responsible for recognition and internalization of oxidized lipids, is a major participant in atherosclerotic foam cell formation. We hypothesized that lupus plasma would affect CD36 expression in a pro-atherogenic manner in THP-1 human monocytes and differentiated macrophages. SLE patient plasma markedly stimulated expression of CD36 message in a dose-dependent fashion in THP-1 human monocytes. A 50% volume/volume concentration of plasma derived from SLE patients increased CD36 mRNA by 71 +/- 8% (n = 3, P < 0.001) above 50% normal human plasma. 50% SLE patient plasma increased CD36 mRNA expression to 290 +/- 12% of no-plasma control (n = 3, P < 0.001), compared with only 118 +/- 3.7% of control in the presence of 50% normal human plasma (n = 3, not significant). 50% lupus plasma also upregulated CD36 protein expression by 482.3 +/- 76.2% (n = 4, P < 0.05), whereas the presence of 50% normal human plasma increased the CD36 protein level by only 239.8 +/- 61.9% (n = 4, P < 0.05). To our knowledge, this is the first demonstration that CD36 expression is enhanced by plasma from patients with an autoimmune disorder. Premature atherosclerosis is common in SLE patients. Upregulation of CD36 may contribute to this pathological process by increasing vulnerability to cholesterol overload. Demonstration of disrupted cholesterol homeostasis in this select group of patients provides further evidence of the involvement of the immune system in atherogenesis and may inform us of the role of CD36 in the general atherogenic process. CD36 may provide a novel therapeutic target in the treatment of ASCVD in SLE patients

Purpose: Unlike other DMARDs methotrexate diminishes the risk of Atherosclerotic Cardiovascular Disease (ASCVD) in patients with Rheumatoid Arthritis and adenosine, acting at adenosine A2A receptors, has been shown to mediate the anti-inflammatory effects of methotrexate. Adenosine inhibits the first step in formation of atherosclerotic plaque, foam cell formation in macrophages and this effect appears to be mediated by enhanced expression of cholesterol 27-hydroxylase, an enzyme involved in reverse cholesterol transport. We therefore asked whether the effect of adenosine A2A receptors on foam cell formation in vitro are mediated by apoE or 27-hydroxylase (27OH'ase), proteins involved in reverse cholesterol transport. Method: THP-1 cells, a human monocytoid cell line, were infected with lentiviral vectors expressing siRNA for either apoE or 27OH'ase or scrambled RNA and infected cell lines were selected by incubation with puromycin. Foam cell formation was induced in THP-1 cells by incubation with interferon- (500U/ml) and % foam cells enumerated in 5 high power fields. 3H-Cholesterol efflux was measured after loading with label. Results: Specific lentiviral siRNA infection markedly reduces apoE (p< 0.0001, apoE siRNA vs. control, n=3) or 27OH'ase mRNA (p< 0.0001, 27-hydroxylase siRNA vs. control, n=3) and protein (p< 0.0107, 27-hydroxylase siRNA vs. control n= 3) in THP-1 cells. Despite diminished apoE expression CGS-21680 (1muM), an adenosine A2A receptor agonist, inhibits IFN-induced foam cell formation (p< 0.0002, IFN CGS vs. IFN alone, n= 4) but has no effect on foam cell formation in 27OH'ase KD cells. CGS21680 increases cholesterol efflux in wild type and apoE1 KD cells (from 9.5% to 17.5+2.5% and from 10.0+2% to 17.5 +2%, respectively) but not 27OH'ase KD cells. Conclusion: Adenosine A2A receptor-mediated increases in reverse cholesterol transport leading to diminished foam cell formation explains the anti-atherosclerotic effects of methotrexate

OBJECTIVE: To determine whether methotrexate (MTX) can overcome the atherogenic effects of cyclooxygenase 2 (COX-2) inhibitors and interferon-gamma (IFNgamma), both of which suppress cholesterol efflux protein and promote foam cell transformation in human THP-1 monocyte/macrophages. METHODS: Message and protein levels of the reverse cholesterol transport proteins cholesterol 27-hydroxylase and ATP-binding cassette transporter A1 (ABCA1) in THP-1 cells were evaluated by real-time polymerase chain reaction and immunoblot, respectively. Expression was evaluated in cells incubated in the presence or absence of the COX-2 inhibitor NS398 or IFNgamma, with and without MTX. Foam cell transformation of lipid-laden THP-1 macrophages was detected with oil red O staining and light microscopy. RESULTS: MTX increased 27-hydroxylase message and completely blocked NS398-induced down-regulation of 27-hydroxylase (mean +/- SEM 112.8 +/- 13.1% for NS398 plus MTX versus 71.1 +/- 4.3% for NS398 alone; P < 0.01). MTX also negated COX-2 inhibitor-mediated down-regulation of ABCA1. The ability of MTX to reverse inhibitory effects on 27-hydroxylase and ABCA1 was blocked by the adenosine A2A receptor-specific antagonist ZM241385. MTX also prevented NS398 and IFNgamma from increasing transformation of lipid-laden THP-1 macrophages into foam cells. CONCLUSION: This study provides evidence supporting the notion of an atheroprotective effect of MTX. Through adenosine A2A receptor activation, MTX promotes reverse cholesterol transport and limits foam cell formation in THP-1 macrophages. This is the first reported evidence that any commonly used medication can increase expression of antiatherogenic reverse cholesterol transport proteins and can counteract the effects of COX-2 inhibition. Our results suggest that one mechanism by which MTX protects against cardiovascular disease in rheumatoid arthritis patients is through facilitation of cholesterol outflow from cells of the artery wall

Peripheral blood fibrocytes are a newly identified circulating leukocyte subpopulation that migrates into injured tissue where it may display fibroblast-like properties and participate in wound healing and fibrosis of skin and other organs. Previous studies in our lab demonstrated that A(2A) receptor-deficient and A(2A) antagonist-treated mice were protected from developing bleomycin-induced dermal fibrosis, thus the aim of this study was to determine whether the adenosine A(2A) receptor regulates recruitment of fibrocytes to the dermis in this bleomycin-induced model of dermal fibrosis. Sections of skin from normal mice and bleomycin-treated wild type, A(2A) knockout and A(2A) antagonist-treated mice were stained for Procollagen alpha2 Type I and CD34 and the double stained cells, fibrocytes, were counted in the tissue sections. There were more fibrocytes in the dermis of bleomycin-treated mice than normal mice and the increase was abrogated by deletion or blockade of adenosine A(2A) receptors. Because fibrocytes play a central role in tissue fibrosis these results suggest that diminished adenosine A(2A) receptor-mediated recruitment of fibrocytes into tissue may play a role in the pathogenesis of fibrosing diseases of the skin. Moreover, these results provide further evidence that adenosine A(2A) receptors may represent a new target for the treatment of such fibrosing diseases as scleroderma or nephrogenic fibrosing dermopathy