Your search keyword '"ANGIOTENSIN II"' showing total 4 results

1. p53 Modulates the Fate of Cardiac Progenitor Cells Ex Vivo and in the Diabetic Heart In Vivo

Author

Kannappan, Ramaswamy, Matsuda, Alex, Ferreira-Martins, João, Zhang, Eric, Palano, Giorgia, Czarna, Anna, Cabral-Da-Silva, Mauricio Castro, Bastos-Carvalho, Adriana, Sanada, Fumihiro, Ide, Noriko, Rota, Marcello, Blasco, Maria A., Serrano, Manuel, Anversa, Piero, and Leri, Annarosa

Subjects

CPC, cardiac progenitor cell, DDR, DNA damage response, WT, wild type, LV, left ventricle, p53-tg, super-p53 transgenic mouse, Aogen, angiotensinogen, Ang II, angiotensin II, AT1R, Ang II type-1 receptor, PDT, population doubling time, ROS, reactive oxygen species, Doxo, doxorubicin, Stem cell engraftment, Diabetes, DNA repair, Stem cell fate

Abstract

p53 is an important modulator of stem cell fate, but its role in cardiac progenitor cells (CPCs) is unknown. Here, we tested the effects of a single extra-copy of p53 on the function of CPCs in the presence of oxidative stress mediated by doxorubicin in vitro and type-1 diabetes in vivo. CPCs were obtained from super-p53 transgenic mice (p53-tg), in which the additional allele is regulated in a manner similar to the endogenous protein. Old CPCs with increased p53 dosage showed a superior ability to sustain oxidative stress, repair DNA damage and restore cell division. With doxorubicin, a larger fraction of CPCs carrying an extra-copy of the p53 allele recruited γH2A.X reestablishing DNA integrity. Enhanced p53 expression resulted in a superior tolerance to oxidative stress in vivo by providing CPCs with defense mechanisms necessary to survive in the milieu of the diabetic heart; they engrafted in regions of tissue injury and in three days acquired the cardiomyocyte phenotype. The biological advantage provided by the increased dosage of p53 in CPCs suggests that this genetic strategy may be translated to humans to increase cellular engraftment and growth, critical determinants of successful cell therapy for the failing heart.

Published

2017

2. Vascular Smooth Muscle Sirtuin-1 Protects Against Aortic Dissection During Angiotensin II–Induced Hypertension

Author

Fry, Jessica L, Shiraishi, Yasunaga, Turcotte, Raphaël, Yu, Xunjie, Gao, Yuan Z, Akiki, Rachid, Bachschmid, Markus, Zhang, Yanhang, Morgan, Kathleen G, Cohen, Richard A, and Seta, Francesca

Subjects

angiotensin II, aortic dissection, sirtuin-1, vascular smooth muscle

Abstract

Background: Sirtuin-1 (SirT1), a nicotinamide adenine dinucleotide+–dependent deacetylase, is a key enzyme in the cellular response to metabolic, inflammatory, and oxidative stresses; however, the role of endogenous SirT1 in the vasculature has not been fully elucidated. Our goal was to evaluate the role of vascular smooth muscle SirT1 in the physiological response of the aortic wall to angiotensin II, a potent hypertrophic, oxidant, and inflammatory stimulus. Methods and Results: Mice lacking SirT1 in vascular smooth muscle (ie, smooth muscle SirT1 knockout) had drastically high mortality (70%) caused by aortic dissection after angiotensin II infusion (1 mg/kg per day) but not after an equipotent dose of norepinephrine, despite comparable blood pressure increases. Smooth muscle SirT1 knockout mice did not show any abnormal aortic morphology or blood pressure compared with wild-type littermates. Nonetheless, in response to angiotensin II, aortas from smooth muscle SirT1 knockout mice had severely disorganized elastic lamellae with frequent elastin breaks, increased oxidant production, and aortic stiffness compared with angiotensin II–treated wild-type mice. Matrix metalloproteinase expression and activity were increased in the aortas of angiotensin II–treated smooth muscle SirT1 knockout mice and were prevented in mice overexpressing SirT1 in vascular smooth muscle or with use of the oxidant scavenger tempol. Conclusions: Endogenous SirT1 in aortic smooth muscle is required to maintain the structural integrity of the aortic wall in response to oxidant and inflammatory stimuli, at least in part, by suppressing oxidant-induced matrix metalloproteinase activity. SirT1 activators could potentially be a novel therapeutic approach to prevent aortic dissection and rupture in patients at risk, such as those with hypertension or genetic disorders, such as Marfan’s syndrome.

Published

2015

3. Angiotensin II-induced TLR4 mediated abdominal aortic aneurysm in apolipoprotein E knockout mice is dependent on STAT3

Author

Qin, Zhexue, Bagley, Jessamyn, Sukhova, Galina K., Baur, Wendy E., Park, Ho-Jin, Beasley, Debbie, Libby, Peter, Zhang, Yali, and Galper, Jonas B.

Subjects

Abdominal aortic aneurysm, Toll-like receptor 4, STAT3, Angiotensin II

Abstract

Abdominal Aortic Aneurysm (AAA) is a major cause of mortality and morbidity in men over 65 years of age. Male apolipoprotein E knockout (ApoE−/−) mice infused with angiotensin II (AngII) develop AAA. Although AngII stimulates both JAK/STAT and Toll-like receptor 4 (TLR4) signaling pathways, their involvement in AngII mediated AAA formation is unclear. Here we used the small molecule STAT3 inhibitor, S3I-201, the TLR4 inhibitor Eritoran and ApoE−/−TLR4−/− mice to evaluate the interaction between STAT3 and TLR4 signaling in AngII-induced AAA formation. ApoE−/− mice infused for 28 days with AngII developed AAAs and increased STAT3 activation and TLR4 expression. Moreover, AngII increased macrophage infiltration and the ratio of M1 (pro-inflammatory)/M2 (healing) macrophages in aneurysmal tissue as early as 7–10 days after AngII infusion. STAT3 inhibition with S3I-201 decreased the incidence and severity of AngII-induced AAA formation and decreased MMP activity and the ratio of M1/M2 macrophages. Furthermore, AngII-mediated AAA formation, MMP secretion, STAT3 phosphorylation and the ratio of M1/M2 macrophages were markedly decreased in ApoE−/−TLR4−/− mice, and in Eritoran-treated ApoE−/− mice. TLR4 and pSTAT3 levels were also increased in human aneurysmal tissue. These data support a role of pSTAT3 in TLR4 dependent AAA formation and possible therapeutic roles for TLR4 and/or STAT3 inhibition in AAA.

Published

2015

4. Remote control of macrophage production by cancer

Author

Cortez-Retamozo, Virna, Engblom, Camilla, and Pittet, Mikael J.

Subjects

Angiotensin II, NSCLC, cancer, hematopoietic stem cell, lung adenocarcinoma, macrophage, monocyte

Abstract

The communication between tumor and host cells involves signals that act across extended distances in the body. Recent evidence indicates that the hormone angiotensin II is overproduced by lung adenocarcinoma to remotely expand bone marrow-derived hematopoietic stem cells. This process amplifies the supply of tumor-associated macrophages, which promote disease progression.

Published

2013