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ABSTRACT: Abstract Aims: Kaposi's sarcoma (KS), caused by the Kaposi's sarcoma herpesvirus (KSHV), is an AIDS-associated cancer characterized by angiogenesis and proliferation of spindle cells. Rac1-activated reactive oxygen species (ROS) production has been implicated in KS tumorigenesis. We used an animal model of KSHV-induced Kaposi's sarcomagenesis (mECK36) to study the role of ROS in KS and the efficacy of N-acetyl l-cysteine (NAC) in inhibiting or preventing KS. Results: Signaling by the KSHV early lytic gene viral G protein-coupled receptor (vGPCR) activated ROS production in mECK36 cells via a Rac1-NADPH oxidase pathway. Induction of the lytic cycle in KSHV-infected KS spindle cells upregulated ROS along with upregulation of vGPCR expression. We also found that expression of the major latent transcript in 293 cells increased ROS levels. ROS scavenging with NAC halted mECK36 tumor growth in a KSHV-specific manner. NAC inhibited KSHV latent gene expression as well as tumor angiogenesis and lymphangiogenesis. These effects correlated with the reduction of vascular endothelial growth factor (VEGF), c-myc, and cyclin D1, and could be explained on the basis of inhibition of STAT3 tyrosine phosphorylation. NAC prevented mECK36 de novo tumor formation. Molecular analysis of NAC-resistant tumors revealed a strong upregulation of Rac1 and p40(PHOX). Innovation and Conclusion: Our results demonstrate that ROS-induction by KSHV plays a causal role in KS oncogenesis by promoting proliferation and angiogenesis. Our results show that both ROS and their molecular sources can be targeted therapeutically using NAC or other Food and Drug Administration (FDA)-approved inhibitors for prevention and treatment of AIDS-KS. Antioxid. Redox Signal. 00, 000-000.
Antioxidants & Redox Signaling 07/2012; · 8.20 Impact Factor
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ABSTRACT: The close, bidirectional relationship between depression and cardiovascular disease is well established. Major depression is associated with an increased risk of coronary artery disease and acute cardiovascular sequelae, such as myocardial infarction, congestive heart failure, and isolated systolic hypertension. Morbidity and mortality in patients with cardiovascular disease and depression are significantly higher than in patients with cardiovascular disease who are not depressed. Various pathophysiological mechanisms might underlie the risk of cardiovascular disease in patients with depression: increased inflammation; increased susceptibility to blood clotting (owing to alterations in multiple steps of the clotting cascade, including platelet activation and aggregation); oxidative stress; subclinical hypothyroidism; hyperactivity of the sympatho-adrenomedullary system and the hypothalamic-pituitary-adrenal axis; reductions in numbers of circulating endothelial progenitor cells and associated arterial repair processes; decreased heart rate variability; and the presence of genetic factors. Early identification of patients with depression who are at risk of cardiovascular disease, as well as prevention and appropriate treatment of cardiovascular disease in these patients, is an important and attainable goal. However, adequately powered studies are required to determine the optimal treatment regimen for patients with both depression and cardiovascular disorders.
Nature Reviews Cardiology 06/2012; 9(9):526-39. · 8.83 Impact Factor
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Zhao-Jun Liu,
Yurong Tan,
Gary W Beecham,
David M Seo,
Runxia Tian,
Yan Li,
Roberto I Vazquez-Padron,
Margaret Pericak-Vance,
Jeffery M Vance, Pascal J Goldschmidt-Clermont,
Alan S Livingstone,
Omaida C Velazquez
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ABSTRACT: OBJECTIVE: Notch signaling plays pivotal roles in the pathogenesis of vascular disease. However, little is known about its role in atherosclerosis. We sought to investigate the potential involvement of the Notch signaling in atherosclerosis. METHODS: Expression of Notch pathway components in mouse and human aorta with or without atherosclerosis plaque was examined by immunohistochemistry. Expression of Notch target genes in young versus aged human endothelial cells (EC) was examined by PCRArray and immunoblot. In vitro loss- and gain-of-function approaches were utilized to evaluate the role of Notch signaling in inducing EC senescence and secretion of pro-inflammatory cytokines by ProteinArray. Notch gene profile was studied in 1054 blood samples of patients with coronary artery disease (CAD). Genotyping was performed using the Genome-Wide Single Nucleotide Polymorphism (SNP) Array. RESULTS: Notch pathway components were upregulated in luminal EC at atherosclerotic lesions from mouse and human aortas. In addition, the Notch pathway was activated in aged but not young human EC. Enforced Notch activation resulted in EC senescence and significantly upregulated expression of several molecules implicated in the inflammatory response (IL-6/IL-8/IL-1α/RANTES/ICAM-1). The upregulated IL-6 was partially responsible for mediating leukocyte transendothelial migration. Genetic association analysis detected, of 82 SNPs across 6 Notch pathway genes analyzed, 4 SNPs with nominal association with CAD burden. CONCLUSION: Notch pathway is activated in luminal EC at atherosclerotic plaques and results in pro-inflammatory response and senescence of EC. Notch signaling may be linked to human CAD risk. These findings implicate a potential involvement of Notch signaling in atherosclerosis.
Atherosclerosis 05/2012; · 3.79 Impact Factor
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ABSTRACT: Healthcare is indeed a complex service system, one requiring the technobiology approach of systems engineering to underpin
its development as an integrated and adaptive system. In general, healthcare services are carried out with knowledge-intensive
agents or components which work together as providers and consumers to create or co-produce value. Indeed, the engineering
design of a healthcare system must recognize the fact that it is actually a complex integration of human-centered activities
that is increasingly dependent on information technology and knowledge. Like any service system, healthcare can be considered
to be a combination or recombination of three essential components — people (characterized by behaviors, values, knowledge,
etc.), processes (characterized by collaboration, customization, etc.) and products (characterized by software, hardware,
infrastructures, etc.). Thus, a healthcare system is an integrated and adaptive set of people, processes and products. It
is, in essence, a system of systems which objectives are to enhance its efficiency (leading to greater interdependency) and
effectiveness (leading to improved health). Integration occurs over the physical, temporal, organizational and functional
dimensions, while adaptation occurs over the monitoring, feedback, cybernetic and learning dimensions. In sum, such service
systems as healthcare are indeed complex, especially due to the uncertainties associated with the human-centered aspects of
these systems. Moreover, the system complexities can only be dealt with methods that enhance system integration and adaptation.
Journal of Systems Science and Systems Engineering 04/2012; 18(3):257-282. · 0.43 Impact Factor
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ABSTRACT: Atherosclerosis is a peculiar form of inflammation triggered by cholesterol-rich lipoproteins and other noxious factors such as cigarette smoke, diabetes mellitus, and hypertension. Genetics also play an important role in the disease, accounting for about 40% of the risk. Of surprise in recent years of post-human genome sequencing, atherosclerosis-relevant genes discovered by non-biased techniques (ie, genome-wide association studies), did not rehash previously suspected pathways of lipid metabolism, diabetes, or hypertension. Instead these studies highlighted genes relevant to mechanisms of inflammation and stem cell biology. Only a minority of implicated genes were linked to lipid and other cardiac risk factor genes. Although such findings do not contradict the fact that atherosclerosis is triggered and exacerbated by elevated lipids, atherosclerosis "new genes" suggest that the mechanism responsible for the development of arterial lesions is more complex than a simple response to injury, where injury is necessary, but perhaps not sufficient, for disease progression.
Current Atherosclerosis Reports 04/2012; 14(3):201-10. · 2.66 Impact Factor
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ABSTRACT: Maintenance of healthy arteries requires a balance between injuries to the arterial wall and processes of intrinsic arterial repair. Such repair requires the availability of progenitor cells that are local to the wall itself. Progenitor cells from distant reservoirs like the bone marrow may also contribute to repair. Arterial repair seems to degrade over a lifetime, particularly with risk factors such as smoking and diabetes. Hence, a potential preventive/therapeutic strategy for atherosclerosis could be transfusion of competent bone marrow cells (BMCs) to restore effective repair in the face of arterial injury and depleted endogenous repair reservoirs. The challenge with this strategy has been the reliable collection and/or generation of BMCs that support arterial repair. In this study, we describe a set of experiments to elucidate a method of culturing BMCs that robustly retards atherosclerosis development in apolipoprotein E knockout mice. Identifying such a method would represent an important step in developing cell-based treatments for patients with proclivity for developing atherosclerosis.
Antioxidants & Redox Signaling 07/2011; 16(1):85-91. · 8.20 Impact Factor
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Mollie A Minear,
David R Crosslin,
Beth S Sutton,
Jessica J Connelly,
Sarah C Nelson,
Shera Gadson-Watson,
Tianyuan Wang,
David Seo,
Jeffrey M Vance,
Michael H Sketch,
Carol Haynes, Pascal J Goldschmidt-Clermont,
Svati H Shah,
William E Kraus,
Elizabeth R Hauser,
Simon G Gregory
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ABSTRACT: Tenascin-C (TNC) is an extracellular matrix protein implicated in biological processes important for atherosclerotic plaque development and progression, including smooth muscle cell migration and proliferation. Previously, we observed differential expression of TNC in atherosclerotic aortas compared with healthy aortas. The goal of this study was to investigate whether common genetic variation within TNC is associated with risk of atherosclerosis and coronary artery disease (CAD) in three independent datasets. We genotyped 35 single nucleotide polymorphisms (SNPs), including 21 haplotype tagging SNPs, in two of these datasets: human aorta tissue samples (n = 205) and the CATHGEN cardiovascular study (n = 1,325). Eleven of these 35 SNPs were then genotyped in a third dataset, the GENECARD family study of early-onset CAD (n = 879 families). Three SNPs representing a block of linkage disequilibrium, rs3789875, rs12347433, and rs4552883, were significantly associated with atherosclerosis in multiple datasets and demonstrated consistent, but suggestive, genetic effects in all analyses. In combined analysis rs3789875 and rs12347433 were statistically significant after Bonferroni correction for 35 comparisons, p = 2 × 10(-6) and 5 × 10(-6), respectively. The SNP rs12347433 is a synonymous coding SNP and may be biologically relevant to the mechanism by which tenascin-C influences the pathophysiology of CAD and atherosclerosis. This is the first report of genetic association between polymorphisms in TNC and atherosclerosis or CAD.
Human Genetics 02/2011; 129(6):641-54. · 5.07 Impact Factor
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Academic Psychiatry 01/2011; 35(1):4-7. · 0.81 Impact Factor
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Liliana Cesar,
Samuel Vasallo Suarez,
Jennipher Adi,
Nikhil Adi,
Roberto Vazquez-Padron,
Hong Yu,
Qi Ma, Pascal J Goldschmidt-Clermont,
Arthur Agatston,
Paul Kurlansky,
Keith A Webster
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ABSTRACT: Diet and exercise promote cardiovascular health but their relative contributions to atherosclerosis are not fully known. The transition from a sedentary to active lifestyle requires increased caloric intake to achieve energy balance. Using atherosclerosis-prone ApoE-null mice we sought to determine whether the benefits of exercise for arterial disease are dependent on the food source of the additional calories.
Mice were fed a high-fat diet (HF) for 4.5 months to initiate atherosclerosis after which time half were continued on HF while the other half were switched to a high protein/fish oil diet (HP). Half of each group underwent voluntary running. Food intake, running distance, body weight, lipids, inflammation markers, and atherosclerotic plaque were quantified. Two-way ANOVA tests were used to assess differences and interactions between groups. Exercised mice ran approximately 6-km per day with no difference between groups. Both groups increased food intake during exercise and there was a significant main effect of exercise F((1,44) = 9.86, p<0.01) without interaction. Diet or exercise produced significant independent effects on body weight (diet: F(1,52) = 6.85, p = 0.012; exercise: F(1,52) = 9.52, p<0.01) with no significant interaction. The combination of HP diet and exercise produced a greater decrease in total cholesterol (F(1, 46) = 7.9, p<0.01) and LDL (F(1, 46) = 7.33, p<0.01) with a large effect on the size of the interaction. HP diet and exercise independently reduced TGL and VLDL (p<0.05 and 0.001 respectively). Interleukin 6 and C-reactive protein were highest in the HF-sedentary group and were significantly reduced by exercise only in this group. Plaque accumulation in the aortic arch, a marker of cardiovascular events was reduced by the HP diet and the effect was significantly potentiated by exercise only in this group resulting in significant plaque regression (F1, 49 = 4.77, p<0.05).
In this model exercise is beneficial to combat dyslipidemia and protect from atherosclerosis only when combined with diet.
PLoS ONE 01/2011; 6(2):e17263. · 4.09 Impact Factor
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ABSTRACT: Our understanding and treatment of the ST-elevation myocardial infarction (STEMI) has led to a tremendous improvement in the care and preservation of life affecting millions yearly. As the medical community continues to discover novel strategies in therapeutics and innovations in prevention, it is imperative to understand the scientific journey the treatment of STEMI has traveled. Furthermore, the research pillars that led to our understanding of the current paradigm of STEMI will be highlighted in an effort to illuminate the foundation on which we now stand.
Critical pathways in cardiology 12/2010; 9(4):235-42.
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Pascal J Goldschmidt-Clermont,
David M Seo,
Liyong Wang,
Gary W Beecham,
Zhao Jun Liu,
Roberto I Vazquez-Padron,
Chunming Dong,
Joshua M Hare,
Michael S Kapiloff,
Nanette H Bishopric,
Margaret Pericak-Vance,
Jeffery M Vance,
Omaida C Velazquez
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ABSTRACT: Atherosclerosis and its associated complications remain the primary cause of death in humans. Aging is the main contributor to atherosclerosis, compared with any other risk factor, yet the specific manner in which age increases risk (the 'aging-risk' mechanism) remains elusive. A novel concept for atherosclerosis risk implicates a lack of endothelial progenitor cell (EPC)-dependent arterial repair in the development of the disease that is secondary to exhaustion of repair-competent EPCs. Molecular evidence derived from genetic techniques indicates atherosclerotic lesions may begin to form as arterial repair fails, rather than merely following arterial injury. Thus, chronic arterial injury may overwhelm the ability of EPCs to maintain arterial homeostasis, particularly when EPCs capable of arterial repair become exhausted. Recent studies have reported genes identified using non-biased approaches (ie, genetic linkage studies and genome-wide association studies) that are associated with susceptibility for atherosclerosis and related thromboembolic disorders; these genes may be implicated in the control of arterial wall inflammation and EPC-mediated tissue repair. Most of the genes identified by using non-biased genomic techniques are associated with inflammation, immune response and stem cells. This review focuses on new genetic data in the field of atherosclerosis and arterial homeostasis.
Current opinion in molecular therapeutics 12/2010; 12(6):712-23. · 3.68 Impact Factor
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ABSTRACT: Increased mechanical stress/hypertension in the vessel wall triggers the hypertrophic signaling pathway, resulting in structural remodeling of vasculature. Vascular hypertrophy of resistance vessels leads to reduced compliance and elevation of blood pressure. We showed before that increased expression of profilin1 protein in the medial layer of the aorta induces stress fiber formation, triggering the hypertrophic signaling resulting in vascular hypertrophy and, ultimately, hypertension in older mice. Our hypothesis is that profilin1 induced vascular hypertrophy in resistance vessels, which led to elevation of blood pressure, both of which contributed to the modulation of vascular function. Our results showed significant increases in the expression of alpha(1)- and beta(1)-integrins (280 + or - 6.3 and 325 + or - 7.4%, respectively) and the activation of the Rho/Rho-associated kinase (ROCK) II pathway (260 and 350%, respectively, P < 0.05) in profilin1 mesenteric arteries. The activation of Rho/ROCK led to the inhibition of endothelial nitric oxide synthase expression (39 + or - 5.4%; P < 0.05) and phosphorylation (35 + or - 4.5%; P < 0.05) but also an increase in myosin light chain 20 phosphorylation (372%, P < 0.05). There were also increases in hypertrophic signaling pathways in the mesenteric arteries of profilin1 mice such as phospho-extracellular signal-regulated kinase 1/2 and phospho-c-Jun NH(2)-terminal kinase (312.15 and 232.5%, respectively, P < 0.05). Functional analyses of mesenteric arteries toward the vasoactive drugs were assessed using wire-myograph and showed significant increases in the vascular responses of profilin1 mesenteric arteries toward phenylephrine, but significant decreases in response toward ROCK inhibitor Y-27632, ACh, sodium nitrite, and cytochalasin D. The changes in vascular responses in the mesenteric arteries of profilin1 mice are due to vascular hypertrophy and the elevation of blood pressure in the profilin1 transgenic mice.
AJP Heart and Circulatory Physiology 06/2010; 298(6):H2112-20. · 3.71 Impact Factor
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ABSTRACT: Vein graft endothelial damage is a key step in the development of neointimal hyperplasia, leading to vein graft failure. We sought to determine whether exogenous endothelial progenitor cells could promote vein graft re-endothelialization, and thereby ameliorate neointimal hyperplasia.
Carotid artery interposition grafting was performed with syngeneic inferior vena cavae in mice with severe combined immunodeficiency (SCID). Lineage-negative human umbilical cord blood (hUCB) cells (or medium alone) were injected into vein-grafted mice intra-operatively and 2 weeks post-operatively. In vein grafts from hUCB cell-injected mice, we found human HLA-expressing endothelial cells, as well as increased levels of VEGF and FGF-2. Furthermore, hUCB cells secreted VEGF and FGF-2 in vitro. The markedly enhanced endothelial regeneration, likely resulting from both direct engraftment and paracrine actions of hUCB cells, inhibited inflammatory response, diminished intimal cell proliferation, and reduced neointimal hyperplasia in the vein grafts.
hUCB cells may accelerate vein graft re-endothelialization via both direct differentiation into endothelial cells and release of paracrine factors to enhance endothelial regeneration and reduce inflammation. These data highlight a potential therapeutic role for cellular therapy in vessel injury.
Atherosclerosis 04/2010; 212(1):63-9. · 3.79 Impact Factor
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ABSTRACT: Engineering has and will continue to have a critical impact on healthcare; the application of technology-based techniques to biological problems can be defined to be technobiology applications. This paper is primarily focused on applying the technobiology approach of systems engineering to the development of a healthcare service system that is both integrated and adaptive. In general, healthcare services are carried out with knowledge-intensive agents or components which work together as providers and consumers to create or co-produce value. Indeed, the engineering design of a healthcare system must recognize the fact that it is actually a complex integration of human-centered activities that is increasingly dependent on information technology and knowledge. Like any service system, healthcare can be considered to be a combination or recombination of three essential components - people (characterized by behaviors, values, knowledge, etc.), processes (characterized by collaboration, customization, etc.) and products (characterized by software, hardware, infrastructures, etc.). Thus, a healthcare system is an integrated and adaptive set of people, processes and products. It is, in essence, a system of systems which objectives are to enhance its efficiency (leading to greater interdependency) and effectiveness (leading to improved health). Integration occurs over the physical, temporal, organizational and functional dimensions, while adaptation occurs over the monitoring, feedback, cybernetic and learning dimensions. In sum, such service systems as healthcare are indeed complex, especially due to the uncertainties associated with the human-centered aspects of these systems. Moreover, the system complexities can only be dealt with methods that enhance system integration and adaptation.
Studies in health technology and informatics 01/2010; 153:277-97.
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ABSTRACT: With advancements of medical technology and improved diagnostic and treatment options, children with severe birth defects who would otherwise have no chance of surviving post birth survive to go home every day. The average lifespan in the United States has increased substantially over the last century. These successes and many other medical breakthroughs in managing complex illnesses, particularly in frail, elderly patients, have resulted in an increasing percentage of patients with comorbidities. This, coupled with a policy change by Medicare (i.e., Medicare will no longer reimburse hospitals for costs associated with treating preventable errors and injuries that a patient acquires while in the hospital), creates an enormous challenge to health care providers. To meet the challenge, the authors propose a new model of health care--the autonomic care system (ACS)--a concept derived from the intensive care unit and the autonomic computing initiative in the computer industry. Using wound care as an example, the authors examine the necessity, feasibility, design, and challenges related to ACS. Specifically, they discuss the role of the human operator, the potential combination of ACS and existing hospital information technology (e.g., electronic medical records and computerized provider order entry), and the costs associated with ACS. ACS may serve as a roadmap to revamp the health care system, bringing down the barriers among different specialties and improving the quality of care for each problem for all hospitalized patients.
Academic medicine: journal of the Association of American Medical Colleges 12/2009; 84(12):1727-31. · 2.34 Impact Factor
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ABSTRACT: Diabetic retinopathy is characterized by pathological retinal neovascularization. Accumulating evidence has indicated that high levels of circulating endothelial progenitor cells (EPCs) are an important risk factor for neovascularization. Paradoxically, the reduction and dysfunction of circulating EPCs has been extensively reported in diabetic patients. We hypothesized that EPCs are differentially altered in the various vasculopathic complications of diabetes mellitus, exhibiting distinct behaviors in terms of angiogenic response to ischemia and growth factors and potentially playing a potent role in motivating vascular precursors to induce pathological neovascularization. Circulating levels of EPCs from diabetic retinopathy patients were analyzed by flow cytometry and by counting EPC colony-forming units, and serum levels of neurotrophic factors were measured by enzyme-linked immunosorbent assay. We found increased levels of nerve growth factor and brain-derived neurotrophic factor in the blood of diabetic retinopathy patients; this increase was correlated with the levels of circulating EPCs. In addition, we demonstrated that retinal cells released neurotrophic factors under hypoxic conditions to enhance EPC activity in vitro and to increase angiogenesis in a mouse ischemic hindlimb model. These results suggest that neurotrophic factors may induce neoangiogenesis through EPC activation, leading to the pathological retinal neovascularization. Thus, we propose that neovascularization in the ischemic retina might be regulated by overexpression of neurotrophic factors.
American Journal Of Pathology 11/2009; 176(1):504-15. · 4.89 Impact Factor
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Qi Ma,
Lucas E Cavallin,
Bin Yan,
Shoukang Zhu,
Elda Margarita Duran,
Huili Wang,
Laura P Hale,
Chunming Dong,
Ethel Cesarman,
Enrique A Mesri, Pascal J Goldschmidt-Clermont
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ABSTRACT: Kaposi's sarcoma (KS) is the major AIDS-associated malignancy. It is characterized by the proliferation of spindle cells, inflammatory infiltrate, and aberrant angiogenesis caused by Kaposi's sarcoma herpesvirus (KSHV) infection. Small GTPase Rac1, an inflammatory signaling mediator triggering reactive oxygen species (ROS) production by NADPH-oxidases, is implicated in carcinogenesis and tumor angiogenesis. Here, we show that expression of a constitutively active Rac1 (RacCA) driven by the alpha-smooth muscle actin promoter in transgenic mice is sufficient to cause KS-like tumors through mechanisms involving ROS-driven proliferation, up-regulation of AKT signaling, and hypoxia-inducible factor 1-alpha-related angiogenesis. RacCA-induced tumors expressed KS phenotypic markers; displayed remarkable transcriptome overlap with KS lesions; and were, like KS, associated with male gender. The ROS scavenging agent N-acetyl-cysteine inhibited angiogenesis and completely abrogated transgenic RacCA tumor formation, indicating a causal role of ROS in tumorigenesis. Consistent with a pathogenic role in KS, immunohistochemical analysis revealed that Rac1 is overexpressed in KSHV(+) spindle cells of AIDS-KS biopsies. Our results demonstrate the direct oncogenicity of Rac1 and ROS and their contribution to a KS-like malignant phenotype, further underscoring the carcinogenic potential of oxidative stress in the context of chronic infection and inflammation. They define the RacCA transgenic mouse as a model suitable for studying the role of oxidative stress in the pathogenesis and therapy of KS, with relevance to other inflammation-related malignancies. Our findings suggest host and viral genes triggering Rac1 or ROS production as key determinants of KS onset and potential KS chemopreventive or therapeutic targets.
Proceedings of the National Academy of Sciences 06/2009; 106(21):8683-8. · 9.68 Impact Factor
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ABSTRACT: Multiple measures of endothelial progenitor cells (EPCs) have been described, but there has been limited study of the comparability of these assays. We sought to determine the reproducibility of and correlation between alternative EPC assay methodologies.
We simultaneously assessed EPC numbers in 140 patients undergoing cardiac catheterization using the 2 most commonly used culture techniques: endothelial cell outgrowth and colony-forming unit (CFU). In the final 77 patients, EPCs were also identified on the basis of cell surface marker expression (CD133, CD34, and vascular endothelial growth factor receptor-2 [VEGFR-2]) and aldehyde dehydrogenase (ALDH) activity.
Endothelial progenitor cell enumeration based on fluorescence activated cell sorting was more precise than culture assays. There was limited correlation between EPC numbers determined using the 2 common culture-based assays; however, endothelial CFUs correlated with VEGFR-2 and CD34/VEGFR-2-expressing cells. Endothelial progenitor cells defined by expression of CD133, CD34, CD133/CD34, and ALDH activity correlated with each other, but not with VEGFR-2(+) cells.
Endothelial progenitor cells can be broadly classified into 2 classes: VEGFR-2-expressing cells, which give rise to endothelial CFUs, and CD133/CD34 or ALDH(br) cells. These observations underscore the need for better assay standardization and a more precise definition of EPCs in cell therapy research.
American heart journal 03/2009; 157(2):335-44. · 4.65 Impact Factor
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Svati H Shah,
Neil J Freedman,
Lisheng Zhang,
David R Crosslin,
David H Stone,
Carol Haynes,
Jessica Johnson,
Sarah Nelson,
Liyong Wang,
Jessica J Connelly, [......],
David C Crossman,
Christopher J H Jones,
Jeffery Vance,
Michael H Sketch,
Christopher B Granger,
Christopher B Newgard,
Simon G Gregory, Pascal J Goldschmidt-Clermont,
William E Kraus,
Elizabeth R Hauser
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ABSTRACT: Neuropeptide Y (NPY) is a strong candidate gene for coronary artery disease (CAD). We have previously identified genetic linkage to familial CAD in the genomic region of NPY. We performed follow-up genetic, biostatistical, and functional analysis of NPY in early-onset CAD. In familial CAD (GENECARD, N = 420 families), we found increased microsatellite linkage to chromosome 7p14 (OSA LOD = 4.2, p = 0.004) in 97 earliest age-of-onset families. Tagged NPY SNPs demonstrated linkage to CAD of a 6-SNP block (LOD = 1.58-2.72), family-based association of this block with CAD (p = 0.02), and stronger linkage to CAD in the earliest age-of-onset families. Association of this 6-SNP block with CAD was validated in: (a) 556 non-familial early-onset CAD cases and 256 controls (OR 1.46-1.65, p = 0.01-0.05), showing stronger association in youngest cases (OR 1.84-2.20, p = 0.0004-0.09); and (b) GENECARD probands versus non-familial controls (OR 1.79-2.06, p = 0.003-0.02). A promoter SNP (rs16147) within this 6-SNP block was associated with higher plasma NPY levels (p = 0.04). To assess a causal role of NPY in atherosclerosis, we applied the NPY1-receptor-antagonist BIBP-3226 adventitially to endothelium-denuded carotid arteries of apolipoprotein E-deficient mice; treatment reduced atherosclerotic neointimal area by 50% (p = 0.03). Thus, NPY variants associate with atherosclerosis in two independent datasets (with strong age-of-onset effects) and show allele-specific expression with NPY levels, while NPY receptor antagonism reduces atherosclerosis in mice. We conclude that NPY contributes to atherosclerosis pathogenesis.
PLoS Genetics 02/2009; 5(1):e1000318. · 8.69 Impact Factor
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Peter R Sinnaeve,
Mark P Donahue,
Peter Grass,
David Seo,
Jacky Vonderscher,
Salah-Dine Chibout,
William E Kraus,
Michael Sketch,
Charlotte Nelson,
Geoffrey S Ginsburg, Pascal J Goldschmidt-Clermont,
Christopher B Granger
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ABSTRACT: Systemic and local inflammation plays a prominent role in the pathogenesis of atherosclerotic coronary artery disease, but the relationship of whole blood gene expression changes with coronary disease remains unclear. We have investigated whether gene expression patterns in peripheral blood correlate with the severity of coronary disease and whether these patterns correlate with the extent of atherosclerosis in the vascular wall. Patients were selected according to their coronary artery disease index (CADi), a validated angiographical measure of the extent of coronary atherosclerosis that correlates with outcome. RNA was extracted from blood of 120 patients with at least a stenosis greater than 50% (CADi > or = 23) and from 121 controls without evidence of coronary stenosis (CADi = 0). 160 individual genes were found to correlate with CADi (rho > 0.2, P<0.003). Prominent differential expression was observed especially in genes involved in cell growth, apoptosis and inflammation. Using these 160 genes, a partial least squares multivariate regression model resulted in a highly predictive model (r(2) = 0.776, P<0.0001). The expression pattern of these 160 genes in aortic tissue also predicted the severity of atherosclerosis in human aortas, showing that peripheral blood gene expression associated with coronary atherosclerosis mirrors gene expression changes in atherosclerotic arteries. In conclusion, the simultaneous expression pattern of 160 genes in whole blood correlates with the severity of coronary artery disease and mirrors expression changes in the atherosclerotic vascular wall.
PLoS ONE 01/2009; 4(9):e7037. · 4.09 Impact Factor
