Journal of the American College of Cardiology

2006

DOI: 10.1016/j.jacc.2006.01.073

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Increased Activity of the Ubiquitin-Proteasome System in Patients With Symptomatic Carotid Disease Is Associated With Enhanced Inflammation and May Destabilize the Atherosclerotic Plaque

Raffaele Marfella

¹

,

Michele D’Amico

²

,

Clara Di Filippo

³

et al.

Abstract: Ubiquitin-proteasome overactivity is associated with enhanced inflammatory reaction in symptomatic plaques. The inhibition of ubiquitin-proteasome activity in lesions of symptomatic patients by rosiglitazone is associated with plaque stabilization, possibly by down-regulating NFkB-mediated inflammatory pathways.

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Cited by 78 publications

(60 citation statements)

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“…We reported previously that oxidative stress-dependent UPS overactivity contributes to the clinical instability of atherosclerotic plaques in hypertensive, 15 diabetic, 16 and symptomatic patients 17 by promoting plaque rupture induced by NF-B-dependent inflammation. Now, in the present report, we provide evidence for the critical involvement of UPS in the process of plaque stabilization realized by HRT in postmenopausal women.…”

Section: Discussionmentioning

confidence: 97%

Proteasome Activity as a Target of Hormone Replacement Therapy–Dependent Plaque Stabilization in Postmenopausal Women

et al. 2008

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Abstract-The molecular mechanisms of the atheroprotective effect evoked by hormone replacement therapy in postmenopausal women is not well known. Recently, we have demonstrated enhanced activity of the ubiquitinproteasome system in human atherosclerotic plaques and evidenced that it is associated with inflammatory-induced plaque rupture. Therefore, we hypothesized that hormone replacement therapy may exert the cardioprotective effects modulating the ubiquitin-proteasome activity. To investigate this possibility, this study examined the differences in inflammatory infiltration, as well as ubiquitin-proteasome activity, between asymptomatic carotid plaques of postmenopausal women with and without concomitant hormone replacement therapy. Plaques were obtained from 20 postmenopausal women treated with hormone replacement therapy (current users) and 32 nontreated women (never-users) enlisted to undergo carotid endarterectomy for extracranial high-grade (Ͼ70%) internal carotid artery stenosis. Plaques were analyzed for macrophages, T lymphocytes, human leukocyte antigen-DRϩ cells, ubiquitinproteasome system, nuclear factor B, inhibitor of nuclear factor B␤, tumor necrosis factor-␣, nitrotyrosine, matrix metalloproteinase-9, and collagen content (immunohistochemistry and ELISA). Compared with plaques from current users, plaques from never-users had more macrophages, T lymphocytes, and human leukocyte antigen-DRϩ cells (PϽ0.001); more ubiquitin-proteasome activity, tumor necrosis factor-␣, and nuclear factor B (PϽ0.001); and more nitrotyrosine and matrix metalloproteinase-9 (PϽ0.001), along with a lesser collagen content and inhibitor of nuclear factor B␤ levels (PϽ0.001). This study supports the hypothesis that hormone replacement therapy inhibits plaque ubiquitin-proteasome activity by decreasing oxidative stress generation in postmenopausal women. This effect, in turn, might contribute to plaque stabilization by inhibiting the activation of nuclear factor B-dependent inflammation, responsible for plaque rupture. Key Words: hormone replacement therapy Ⅲ atherosclerotic plaque Ⅲ inflammation Ⅲ ubiquitin-proteasome activity C ardiovascular disease is the leading cause of death in postmenopausal women. 1,2 There is a strong link between menopause and an increased incidence of cardiovascular disease, and observational studies suggest that postmenopausal hormone therapy, including various estrogen preparations with or without a progestin (most commonly a synthetic progestin), reduces cardiovascular disease risk by about half. 2,3 Hormone replacement therapy (HRT) use was also associated with a lesser extent of angiographically assessed coronary atherosclerosis. 4,5 An atheroprotective effect of estrogens is plausible and is especially attributed to a direct effect on the arterial wall, an antioxidant action, and a favorable effect on inflammation. 6 In prospective studies, administration of ovarian hormones to postmenopausal women has been shown to decrease oxidative stress markers, such as superoxide anion and peroxynitri...

“…We reported previously that oxidative stress-dependent UPS overactivity contributes to the clinical instability of atherosclerotic plaques in hypertensive, 15 diabetic, 16 and symptomatic patients 17 by promoting plaque rupture induced by NF-B-dependent inflammation. Now, in the present report, we provide evidence for the critical involvement of UPS in the process of plaque stabilization realized by HRT in postmenopausal women.…”

Section: Discussionmentioning

confidence: 97%

Proteasome Activity as a Target of Hormone Replacement Therapy–Dependent Plaque Stabilization in Postmenopausal Women

et al. 2008

Self Cite

View full text Add to dashboard Cite

Abstract-The molecular mechanisms of the atheroprotective effect evoked by hormone replacement therapy in postmenopausal women is not well known. Recently, we have demonstrated enhanced activity of the ubiquitinproteasome system in human atherosclerotic plaques and evidenced that it is associated with inflammatory-induced plaque rupture. Therefore, we hypothesized that hormone replacement therapy may exert the cardioprotective effects modulating the ubiquitin-proteasome activity. To investigate this possibility, this study examined the differences in inflammatory infiltration, as well as ubiquitin-proteasome activity, between asymptomatic carotid plaques of postmenopausal women with and without concomitant hormone replacement therapy. Plaques were obtained from 20 postmenopausal women treated with hormone replacement therapy (current users) and 32 nontreated women (never-users) enlisted to undergo carotid endarterectomy for extracranial high-grade (Ͼ70%) internal carotid artery stenosis. Plaques were analyzed for macrophages, T lymphocytes, human leukocyte antigen-DRϩ cells, ubiquitinproteasome system, nuclear factor B, inhibitor of nuclear factor B␤, tumor necrosis factor-␣, nitrotyrosine, matrix metalloproteinase-9, and collagen content (immunohistochemistry and ELISA). Compared with plaques from current users, plaques from never-users had more macrophages, T lymphocytes, and human leukocyte antigen-DRϩ cells (PϽ0.001); more ubiquitin-proteasome activity, tumor necrosis factor-␣, and nuclear factor B (PϽ0.001); and more nitrotyrosine and matrix metalloproteinase-9 (PϽ0.001), along with a lesser collagen content and inhibitor of nuclear factor B␤ levels (PϽ0.001). This study supports the hypothesis that hormone replacement therapy inhibits plaque ubiquitin-proteasome activity by decreasing oxidative stress generation in postmenopausal women. This effect, in turn, might contribute to plaque stabilization by inhibiting the activation of nuclear factor B-dependent inflammation, responsible for plaque rupture. Key Words: hormone replacement therapy Ⅲ atherosclerotic plaque Ⅲ inflammation Ⅲ ubiquitin-proteasome activity C ardiovascular disease is the leading cause of death in postmenopausal women. 1,2 There is a strong link between menopause and an increased incidence of cardiovascular disease, and observational studies suggest that postmenopausal hormone therapy, including various estrogen preparations with or without a progestin (most commonly a synthetic progestin), reduces cardiovascular disease risk by about half. 2,3 Hormone replacement therapy (HRT) use was also associated with a lesser extent of angiographically assessed coronary atherosclerosis. 4,5 An atheroprotective effect of estrogens is plausible and is especially attributed to a direct effect on the arterial wall, an antioxidant action, and a favorable effect on inflammation. 6 In prospective studies, administration of ovarian hormones to postmenopausal women has been shown to decrease oxidative stress markers, such as superoxide anion and peroxynitri...

“…These findings may also be attributed to the fact that proteins are subjected to regulations apart from gene transcription; for example, iNOS protein levels depend on degradation by the ubiquitin-proteasome pathway (45), which is known to be altered in cardiovascular diseases such as cardiac hypertrophy (46) and atherosclerosis (47). Furthermore, our findings of an upregulation of iNOS on the protein level in ETϩ/ϩ mice are supported by previous studies of our group indicating a vital role for iNOS in counterregulating the effects of ET-1 overexpression in ETϩ/ϩ mice (26).…”

Section: Discussionmentioning

confidence: 99%

Lack of Endothelial Nitric Oxide Synthase Promotes Endothelin-Induced Hypertension

¹

,

²

,

³

et al. 2007

Journal of the American Society of Nephrology

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Endothelin-1 (ET-1) is one of the most potent biologic vasoconstrictors. Nevertheless, transgenic mice that overexpress ET-1 exhibit normal BP. It was hypothesized that vascular effects of ET-1 may be antagonized by an increase of the endothelial counterpart of ET-1, nitric oxide (NO), which is produced by the endothelial NO synthase (eNOS). Therefore, cross-bred animals of ET transgenic mice (ET؉/؉) and eNOS knockout (eNOS؊/؊) mice and were generated, and BP and endothelial function were evaluated in these animals. Endothelium-dependent and -independent vascular function was assessed as relaxation/contraction of isolated preconstricted aortic rings. The tissue ET and NO system was determined in aortic rings by quantitative real-time PCR and Western blotting. Systolic BP was similar in ET؉/؉ and wild-type (WT) mice but was significantly elevated in eNOS؊/؊ mice (117 ؎ 4 mmHg versus 94 ؎ 6 mmHg in WT mice; P < 0.001) and even more elevated in ET؉/؉ eNOS؊/؊ cross-bred mice (130 ؎ 4 mmHg; P < 0.05 versus eNOS؊/؊). Maximum endothelium-dependent relaxation was enhanced in ET؉/؉ mice (103 ؎ 6 versus 87 ؎ 4% of preconstriction in WT littermates; P < 0.05) and was completely blunted in eNOS؊/؊ (؊3 ؎ 4%) and ET؉/؉ eNOS؊/؊ mice (؊4 ؎ 4%), respectively. Endothelium-independent relaxation was comparable among all groups. T he intact endothelium produces a variety of vasoactive substances, such as nitric oxide (NO), thromboxane, and the 21-amino acid peptide endothelin-1 (ET-1). ET-1 is a potent vasoconstrictor (1) and mitogen in vivo and in vitro and exerts its biologic effects via activation of specific receptors: Whereas on vascular smooth muscle cells the predominant ET receptor is the ET A receptor (ET A R) subtype (2,3), contributing to long-lasting vasoconstriction, endothelial cells express the ET B receptor (ET B R), mediating the formation of NO (4) and prostacyclin (5) and featuring the pulmonary clearance of circulating ET-1 (6) as well as the reuptake of ET-1 by endothelial cells (7).Correspondingly, intravenous administration of ET-1 causes a rapid and transient vasodilation followed by a sustained increase in BP (8). In addition to the negative feedback loop via ET B R, ET-1 production in the vascular wall is inhibited by NO (9) and prostacyclin (10) via cGMP-dependent mechanisms. Therefore, the NO system may be considered as the functional counterpart of the ET system (11-16), thus warranting the sub-

“…Recently, increased proteasome activity was associated with enhanced inflammation in patients with symptomatic carotid disease (32) and with a role in the response to microbial stimuli such as LPS, bacterial DNA, and peptidoglycan (33,34). Whether reduced 11␤-HSD2 protein stability as a result of increased proteasome activity might contribute to glucocorticoid-dependent activation of corticosteroid receptors in kidneys and colon during inflammation or in placenta during maternal stress remains to be elucidated.…”

Section: Discussionmentioning

confidence: 99%

Impaired Protein Stability of 11β-Hydroxysteroid Dehydrogenase Type 2

¹

,

²

,

³

et al. 2007

Journal of the American Society of Nephrology

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Apparent mineralocorticoid excess (AME) is a severe form of hypertension that is caused by impaired activity of 11␤-hydroxysteroid dehydrogenase type 2 (11␤-HSD2), which converts biologically active cortisol into inactive cortisone. Mutations in HSD11B2 result in cortisol-induced activation of mineralocorticoid receptors and cause hypertension with hypokalemia, metabolic alkalosis, and suppressed circulating renin and aldosterone concentrations. This study uncovered the first patient with AME who was described in the literature, identified the genetic defect in HSD11B2, and provided evidence for a novel mechanism of reduced 11␤-HSD2 activity. This study identified a cluster of amino acids (335 to 339) in the C-terminus of 11␤-HSD2 that are essential for protein stability. His and wild-type 11␤-HSD2 occurs through the proteasome pathway. Therefore, impaired 11␤-HSD2 protein stability rather than reduced gene expression or loss of catalytic activity seems to be responsible for the development of hypertension in some individuals with AME.

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