Heparin Cofactor II Protects Against Angiotensin II-Induced Cardiac Remodeling Via Attenuation of Oxidative Stress in Mice

Sumitomo-Ueda, Yuka; Aihara, Ken‐ichi; Ise, Takayuki; Yoshida, Sumiko; Ikeda, Yasumasa; Uemoto, Ryoko; Yagi, Shusuke; Igarashi, Takashi; Ishikawa, Kazue; Hirata, Yoichiro; Akiyama, Masashi; Sata, Masataka; Kato, Shigeaki; Matsumoto, Toshio

doi:10.1161/hypertensionaha.110.152207

Cited by 25 publications

(23 citation statements)

References 36 publications

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“…Another beneficial effect of paricalcitol is that it activates both antihypertrophic and antifibrotic activity in a murine model of cardiac hypertrophy and fibrosis generated by chronic infusion of ANG II (7,15,43). Accordingly, in our model, animals given paricalcitol showed significant reductions in heart/body weight ratios compared with other diabetic animals.…”

Section: Discussionmentioning

confidence: 64%

Paricalcitol modulates ACE2 shedding and renal ADAM17 in NOD mice beyond proteinuria

Riera

Anguiano

Clotet

et al. 2016

American Journal of Physiology-Renal Physiology

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-Circulating and renal activity of angiotensin-converting enzyme 2 (ACE2) is increased in non-obese diabetic (NOD) mice. Because paricalcitol has been reported to protect against diabetic nephropathy, we investigated the role of paricalcitol in modulating ACE2 in these mice. In addition, renal ADAM17, a metalloprotease implied in ACE2 shedding, was assessed. NOD female and non-diabetic control mice were studied for 21 days after diabetes onset and divided into various treatment groups. Diabetic animals received either vehicle; 0.4 or 0.8 g/kg paricalcitol, aliskiren, or a combination of paricalcitol and aliskiren. We then studied the effect of paricalcitol on ACE2 expression in proximal tubular epithelial cells. Paricalcitol alone or in combination with aliskiren resulted in significantly reduced circulating ACE2 activity in NOD mice but there were no changes in urinary albumin excretion. Serum renin activity was significantly decreased in mice that received aliskiren but no effect was found when paricalcitol was used alone. Renal content of ADAM17 was significantly decreased in animals that received a high dose of paricalcitol. Renal and circulating oxidative stress (quantified by plasma H 2O2 levels and immunolocalization of nitrotyrosine) were reduced in high-dose paricalcitol-treated mice compared with non-treated diabetic mice. In culture, paricalcitol incubation resulted in a significant increase in ACE2 expression compared with nontreated cells. In NOD mice with type 1 diabetes, paricalcitol modulates ACE2 activity, ADAM17, and oxidative stress renal content independently from the glycemic profile and urinary albumin excretion. In tubular cells, paricalcitol may modulate ACE2 by blocking its shedding. In the early stage of diabetic nephropathy, paricalcitol treatment counterbalances the effect of diabetes on circulating ACE2 activity. Our results suggest that additional use of paricalcitol may be beneficial in treating patients with diabetes under standard therapeutic strategies. diabetic nephropathy; renin-angiotensin system; angiotensin-converting enzyme 2; animal model DIABETIC NEPHROPATHY IS THE leading cause of end-stage renal disease in the developed world (34). Previous studies have suggested that the renin-angiotensin system (RAS) is a major mediator of progressive renal injury in diabetic nephropathy. Drugs that target the RAS, including angiotensin-converting enzyme inhibitors and ANG II type 1 receptor blockers, have been shown to reduce the progression of glomerulosclerosis, tubulointerstitial fibrosis, and proteinuria (1, 4, 6, 21, 31). The systemic components of the RAS are altered in diabetes mellitus (32) and the intrarenal RAS is thought to play the major damaging role (25). The angiotensin-converting enzyme 2 (ACE2) has been identified in humans and differs from angiotensin-converting enzyme (ACE) in that it preferentially removes carboxy-terminal hydrophobic or basic amino acids (5, 12). Whereas ACE forms ANG II from ANG I, ACE2 is a major route of ANG II metabolism to ANG 1-7 (5, 39). ...

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Section: Discussionmentioning

confidence: 64%

Paricalcitol modulates ACE2 shedding and renal ADAM17 in NOD mice beyond proteinuria

Riera

Anguiano

Clotet

et al. 2016

American Journal of Physiology-Renal Physiology

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“…In experimental animal studies, we and Vicente et al revealed that HCII-deficient mice showed more prominent intimal hyperplasia after vascular injury than did in wild-type (WT) littermates (11,12). In addition, plasma HCII activity is inversely associated with acceleration of human and murine cardiac remodeling including atrial enlargement and left ventricular concentric alteration (13,14). These findings revealed that HCII plays a protective role in the development of vascular remodeling and cardiac remodeling in humans and mice.…”

Section: Heparin Cofactor II (Hcii)mentioning

confidence: 79%

“…HCII ϩ/Ϫ mice were backcrossed for 10 generations with the C57BL/6J strain (12). Because our homozygote HCIIdeficient mice were embryonically lethal, we used male heterozygote HCII-deficient (HCII ϩ/Ϫ ) mice and male littermate WT (HCII ϩ/ϩ ) mice in all experiments of this study as in our previous studies (12,14). Our HCII ϩ/Ϫ mice showed approximately half of the plasma HCII activity of littermate WT mice, and there is no obviously different phenotype in either HCII ϩ/ϩ mice or HCII ϩ/Ϫ mice at base line (12).…”

Section: Methodsmentioning

confidence: 99%

Heparin Cofactor II, a Serine Protease Inhibitor, Promotes Angiogenesis via Activation of the AMP-activated Protein Kinase-Endothelial Nitric-oxide Synthase Signaling Pathway

Ikeda

Aihara

Yoshida

et al. 2012

Journal of Biological Chemistry

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“…41 In that study, infusion of angiotensin II prominently accelerated cardiac remodeling, including concentric LV changes, enlargement of LAV and exaggeration of cardiac fibrosis in HCII-deficient mice when compared with littermate wild-type mice. 41 The study using HCII-deficient mice demonstrated that HCII protects against angiotensin II-induced cardiac remodeling through the suppression of the NAD(P)H oxidase-TGF-b1 pathway. 41 Therefore, we speculate that HCII is also capable of attenuating oxidative stress in the human heart, as well as in the murine heart through suppression of the NAD(P)H oxidase-TGF-b1 pathway.…”

Section: Discussionmentioning

confidence: 87%

“…41 The study using HCII-deficient mice demonstrated that HCII protects against angiotensin II-induced cardiac remodeling through the suppression of the NAD(P)H oxidase-TGF-b1 pathway. 41 Therefore, we speculate that HCII is also capable of attenuating oxidative stress in the human heart, as well as in the murine heart through suppression of the NAD(P)H oxidase-TGF-b1 pathway.…”

Section: Discussionmentioning

confidence: 99%

Plasma heparin cofactor II activity is inversely associated with left atrial volume and diastolic dysfunction in humans with cardiovascular risk factors

et al. 2010

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Thrombin has a crucial role in cardiac remodeling through protease-activated receptor-1 activation in cardiac fibroblasts and cardiomyocytes. As heparin cofactor II (HCII) inhibits the action of tissue thrombin in the cardiovascular system, it is possible that HCII counteracts the development of cardiac remodeling. We investigated the relationships between plasma HCII activity and surrogate markers of cardiac geometry, including left atrial volume index (LAVI), relative wall thickness (RWT) and left ventricular mass index, and deceleration time (DcT) and the ratio of peak E velocity to early diastolic mitral annulus velocity (E/e' ratio) as surrogate markers of left ventricular diastolic dysfunction measured using echocardiography in 304 Japanese elderly individuals without systolic heart failure (169 men and 135 women; mean age: 65.4±11.8 years). Mean plasma HCII activity in all participants was 95.8±17.0% and there was no difference between the mean plasma HCII activities in males and females. Multiple regression analysis revealed that there were significant inverse relationships between plasma HCII activity and LAVI (coefficient: À0.2302, Po0.001), between HCII activity and RWT (coefficient: À0.0007, Po0.05), between HCII activity and DcT (coefficient: À0.5189, Po0.05) and between HCII activity and E/e' ratio (coefficient: À0.0558, Po0.01). Plasma HCII activity was independently and inversely associated with the development of cardiac remodeling, including cardiac concentric change, left atrial enlargement and left ventricular diastolic dysfunction. These findings suggest that cardiac tissue thrombin inactivation by HCII is a novel therapeutic target for cardiac remodeling and atherosclerosis.

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Heparin Cofactor II Protects Against Angiotensin II-Induced Cardiac Remodeling Via Attenuation of Oxidative Stress in Mice

Cited by 25 publications

References 36 publications

Paricalcitol modulates ACE2 shedding and renal ADAM17 in NOD mice beyond proteinuria

Paricalcitol modulates ACE2 shedding and renal ADAM17 in NOD mice beyond proteinuria

Heparin Cofactor II, a Serine Protease Inhibitor, Promotes Angiogenesis via Activation of the AMP-activated Protein Kinase-Endothelial Nitric-oxide Synthase Signaling Pathway

Plasma heparin cofactor II activity is inversely associated with left atrial volume and diastolic dysfunction in humans with cardiovascular risk factors

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