Your search keyword '"MAS RECEPTOR"' showing total 737 results

1. The angiotensin‐(1‐7)/MasR axis improves pneumonia caused by Pseudomonas aeruginosa: Extending the therapeutic window for antibiotic therapy.

Author

Zaidan, Isabella, Carvalho, Antônio Felipe Silva, Grossi, Laís C., Souza, Jéssica A. M., Lara, Edvaldo S., Montuori‐Andrade, Ana Clara M., Cardoso, Camila, Carneiro, Fernanda S., Lima, Erick Bryan de Sousa, Monteiro, Adelson Héric Alves, Augusto, Isabella de Lacerda, Caixeta, Rodrigo Severo, Igídio, Carlos Eduardo Dias, de Brito, Camila B., de Oliveira, Leonardo Camilo, Queiroz‐Junior, Celso Martins, Russo, Remo C., Campagnole‐Santos, Maria José, Santos, Robson A. S., and Costa, Vivian V.

Abstract

Pseudomonas aeruginosa is a frequent cause of antimicrobial‐resistant hospital‐acquired pneumonia, especially in critically ill patients. Inflammation triggered by P. aeruginosa infection is necessary for bacterial clearance but must be spatially and temporally regulated to prevent further tissue damage and bacterial dissemination. Emerging data have shed light on the pro‐resolving actions of angiotensin‐(1‐7) [Ang‐(1‐7)] signaling through the G protein‐coupled receptor Mas (MasR) during infections. Herein, we investigated the role of the Ang‐(1‐7)/Mas axis in pneumonia caused by P. aeruginosa by using genetic and pharmacological approach and found that Mas receptor‐deficient animals developed a more severe form of pneumonia showing higher neutrophilic infiltration into the airways, bacterial load, cytokines, and chemokines production and more severe pulmonary damage. Conversely, treatment of pseudomonas‐infected mice with Ang‐(1‐7) was able to decrease neutrophilic infiltration in airways and lungs, local and systemic levels of pro‐inflammatory cytokines and chemokines, and increase the efferocytosis rates, mitigating lung damage/dysfunction caused by infection. Notably, the therapeutic association of Ang‐(1‐7) with antibiotics improved the survival rates of mice subjected to lethal inoculum of P. aeruginosa, extending the therapeutic window for imipenem. Mechanistically, Ang‐(1‐7) increased phagocytosis of bacteria by neutrophils and macrophages to accelerate pathogen clearance. Altogether, harnessing the Ang‐(1‐7) pathway during infection is a potential strategy for the development of host‐directed therapies to promote mechanisms of resistance and resilience to pneumonia. [ABSTRACT FROM AUTHOR]

Published

2024

2. Adipose tissue plasticity mediated by the counterregulatory axis of the renin‐angiotensin system: Role of Mas and MrgD receptors.

Author

Proença, Ana Beatriz, Medeiros, Gabriela Rodrigues, Reis, Guilherme dos Santos, Losito, Luiza da França, Ferraz, Luiza Mazzali, Bargut, Thereza Cristina Lonzetti, Soares, Nícia Pedreira, Alexandre‐Santos, Beatriz, Campagnole‐Santos, Maria Jose, Magliano, D'Angelo Carlo, Nobrega, Antonio Claudio Lucas da, Santos, Robson Augusto Souza, and Frantz, Eliete Dalla Corte

Subjects

*RENIN-angiotensin system, *BROWN adipose tissue, *WHITE adipose tissue, *ADIPOSE tissues, *ENDOCRINE system, *ANGIOTENSIN receptors, *G protein coupled receptors, *ADIPOGENESIS

Abstract

The renin‐angiotensin system (RAS) is an endocrine system composed of two main axes: the classical and the counterregulatory, very often displaying opposing effects. The classical axis, primarily mediated by angiotensin receptors type 1 (AT1R), is linked to obesity‐associated metabolic effects. On the other hand, the counterregulatory axis appears to exert antiobesity effects through the activation of two receptors, the G protein‐coupled receptor (MasR) and Mas‐related receptor type D (MrgD). The local RAS in adipose organ has prompted extensive research into white adipose tissue and brown adipose tissue (BAT), with a key role in regulating the cellular and metabolic plasticity of these tissues. The MasR activation favors the brown plasticity signature in the adipose organ by improve the thermogenesis, adipogenesis, and lipolysis, decrease the inflammatory state, and overall energy homeostasis. The MrgD metabolic effects are related to the maintenance of BAT functionality, but the signaling remains unexplored. This review provides a summary of RAS counterregulatory actions triggered by Mas and MrgD receptors on adipose tissue plasticity. Focus on the effects related to the morphology and function of adipose tissue, especially from animal studies, will be given targeting new avenues for treatment of obesity‐associated metabolic effects. [ABSTRACT FROM AUTHOR]

Published

2024

3. Unraveling the crosstalk between renin‐angiotensin system receptors.

Author

Gironacci, Mariela M. and Bruna‐Haupt, Ezequiel

Subjects

*RENIN-angiotensin system, *REGULATION of blood pressure, *ANGIOTENSIN receptors

Abstract

The renin‐angiotensin system (RAS) plays a key role in blood pressure regulation. The RAS is a complex interconnected system composed of two axes with opposite effects. The pressor arm, represented by angiotensin (Ang) II and the AT1 receptor (AT1R), mediates the vasoconstrictor, proliferative, hypertensive, oxidative, and pro‐inflammatory effects of the RAS, while the depressor/protective arm, represented by Ang‐(1–7), its Mas receptor (MasR) and the AT2 receptor (AT2R), opposes the actions elicited by the pressor arm. The AT1R, AT2R, and MasR belong to the G‐protein‐coupled receptor (GPCR) family. GPCRs operate not only as monomers, but they can also function in dimeric (homo and hetero) or higher‐order oligomeric states. Due to the interaction with other receptors, GPCR properties may change: receptor affinity, trafficking, signaling, and its biological function may be altered. Thus, heteromerization provides a newly recognized means of modulation of receptor function, as well as crosstalk between GPCRs. This review is focused on angiotensin receptors, and how their properties are influenced by crosstalk with other receptors, adding more complexity to an already complex system and potentially opening up new therapeutic approaches. [ABSTRACT FROM AUTHOR]

Published

2024

4. Counter-regulatory RAS peptides: new therapy targets for inflammation and fibrotic diseases?

Author

Ávila-Martínez, Diana V., Mixtega-Ruiz, Wendy K., Hurtado-Capetillo, José M., Lopez-Franco, Oscar, and Flores-Muñoz, Mónica

Subjects

PEPTIDES, INFLAMMATION, RENIN-angiotensin system, BLOOD pressure, IN vivo studies

Abstract

The renin-angiotensin system (RAS) is an important cascade of enzymes and peptides that regulates blood pressure, volume, and electrolytes. Within this complex system of reactions, its counter-regulatory axis has attracted attention, which has been associated with the pathophysiology of inflammatory and fibrotic diseases. This review article analyzes the impact of different components of the counter-regulatory axis of the RAS on different pathologies. Of these peptides, Angiotensin-(1-7), angiotensin-(1-9) and alamandine have been evaluated in a wide variety of in vitro and in vivo studies, where not only they counteract the actions of the classical axis, but also exhibit independent anti-inflammatory and fibrotic actions when binding to specific receptors, mainly in heart, kidney, and lung. Other functional peptides are also addressed, which despite no reports associated with inflammation and fibrosis to date were found, they could represent a potential target of study. Furthermore, the association of agonists of the counter-regulatory axis is analyzed, highlighting their contribution to the modulation of the inflammatory response counteracting the development of fibrotic events. This article shows an overview of the importance of the RAS in the resolution of inflammatory and fibrotic diseases, offering an understanding of the individual components as potential treatments. [ABSTRACT FROM AUTHOR]

Published

2024

5. Modulation of ACE2/Ang1-7/Mas and ACE/AngII/AT1 axes affects anticancer properties of sertraline in MCF-7 breast cancer cells

Author

Reihaneh Fatehi, Mohammad Nouraei, Morteza Panahiyan, Marzieh Rashedinia, and Negar Firouzabadi

Subjects

Renin-angiotensin system, Breast cancer, Sertraline, Losartan, AT1 receptor, Mas receptor, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

The renin–angiotensin system (RAS) is best known for playing a major role in maintaining the physiology of the cardiovascular system. Dysregulation of the RAS pathway has been proposed as a link to some malignancies and contributes to cancer metastasis.Breast cancer is considered as one of the leading causes of cancer death in women and its prevention remains yet a challenge. Elements of RAS are expressed in both normal breast tissue and cancerous cells, signifying the essential role of RAS in breast cancer pathology. Sertraline, a widely used antidepressant, has shown anti-proliferative properties on a variety of malignancies.This study aimed to investigate the effect of sertraline and its combination with agonists and antagonists of RAS (A779, Ang 1–7 and losartan) on viability of MCF-7 cells along with their effect on apoptosis and distribution of cell cycle. Our results indicated that sertraline, losartan and Ang 1–7 significantly decreased cell viability, induced apoptosis and cell cycle arrest. A779 blunted the effect of sertraline on cell viability, ROS generation and cell cycle arrest. Combination treatment of sertraline with losartan as well as Ang 1–7 caused a remarkable decline in cell viability.In conclusion, results of the present study support the anti-cancer properties of sertraline, losartan and Ang 1–7 via induction of apoptosis and cell cycle arrest.

Published

2024

6. BIO101 stimulates myoblast differentiation and improves muscle function in adult and old mice

Author

Maria Serova, Blaise Didry‐Barca, Robin Deloux, Anne‐Sophie Foucault, Stanislas Veillet, René Lafont, Pierre J. Dilda, and Mathilde Latil

Subjects

20‐hydroxyecdysone (20E), Ecdysteroids, MAS receptor, Muscle cell differentiation, Renin–angiotensin–aldosterone system (RAAS), Sarcopenia, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695

Abstract

Abstract Background Muscle aging is associated with a consistent decrease in the ability of muscle tissue to regenerate following intrinsic muscle degradation, injury or overuse. Age‐related imbalance of protein synthesis and degradation, mainly regulated by AKT/mTOR pathway, leads to progressive loss of muscle mass. Maintenance of anabolic and regenerative capacities of skeletal muscles may be regarded as a therapeutic option for sarcopenia and other muscle wasting diseases. Our previous studies have demonstrated that BIO101, a pharmaceutical grade 20‐hydroxyecdysone, increases protein synthesis through the activation of MAS receptor involved in the protective arm of renin‐angiotensin‐aldosterone system. The purpose of the present study was to assess the anabolic and pro‐differentiating properties of BIO101 on C2C12 muscle cells in vitro and to investigate its effects on adult and old mice models in vivo. Methods The effects of BIO101 on C2C12 differentiation were assessed using myogenic transcription factors and protein expression of major kinases of AKT/mTOR pathway by Western blot. The in vivo effects of BIO101 have been investigated in BIO101 orally‐treated (50 mg/kg/day) adult mice (3 months) for 28 days. To demonstrate potential beneficial effect of BIO101 treatment in a sarcopenic mouse model, we use orally treated 22‐month‐old C57Bl6/J mice, for 14 weeks with vehicle or BIO101. Mice body and muscle weight were recorded. Physical performances were assessed using running capacity and muscle contractility tests. Results Anabolic properties of BIO101 were confirmed by the rapid activation of AKT/mTOR, leading to an increase of C2C12 myotubes diameters (+26%, P

Published

2024

7. Preclinical Evidence for the Role of the Yin/Yang Angiotensin System Components in Autism Spectrum Disorder: A Therapeutic Target of Astaxanthin.

Author

Samra, Ayat I., Kamel, Ahmed S., Abdallah, Dalaal M., El Fattah, Mai A. Abd, Ahmed, Kawkab A., and El-Abhar, Hanan S.

Subjects

AUTISM spectrum disorders, ASTAXANTHIN, ANGIOTENSINS, VALPROIC acid, RENIN-angiotensin system

Abstract

Autism spectrum disorder (ASD) prevalence is emerging with an unclear etiology, hindering effective therapeutic interventions. Recent studies suggest potential renin–angiotensin system (RAS) alterations in different neurological pathologies. However, its implications in ASD are unexplored. This research fulfills the critical gap by investigating dual arms of RAS and their interplay with Notch signaling in ASD, using a valproic acid (VPA) model and assessing astaxanthin's (AST) modulatory impacts. Experimentally, male pups from pregnant rats receiving either saline or VPA on gestation day 12.5 were divided into control and VPA groups, with subsequent AST treatment in a subset (postnatal days 34–58). Behavioral analyses, histopathological investigations, and electron microscopy provided insights into the neurobehavioral and structural changes induced by AST. Molecular investigations of male pups' cortices revealed that AST outweighs the protective RAS elements with the inhibition of the detrimental arm. This established the neuroprotective and anti-inflammatory axes of RAS (ACE2/Ang1-7/MasR) in the ASD context. The results showed that AST's normalization of RAS components and Notch signaling underscore a novel therapeutic avenue in ASD, impacting neuronal integrity and behavioral outcomes. These findings affirm the integral role of RAS in ASD and highlight AST's potential as a promising treatment intervention, inviting further neurological research implications. [ABSTRACT FROM AUTHOR]

Published

2023

8. Bibliometric and visual analysis of ACE2/Ang 1–7/MasR axis in diabetes and its microvascular complications from 2000 to 2023

Author

Weiwen Hu, Jian Tan, Yeting Lin, Yulin Tao, and Qiong Zhou

Subjects

Diabetes, Diabetic microvascular complications, Angiotensin-converting enzyme 2, Angiotensin 1-7, Mas receptor, Bibliometric analysis, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: The pathogenesis of diabetes and its microvascular complications are intimately associated with renin angiotensin system dysregulation. Evidence suggests the angiotensin converting enzyme 2 (ACE2)/angiotensin 1-7 (Ang 1–7)/Mas receptor (MasR) axis regulates metabolic imbalances, inflammatory responses, reduces oxidative stress, and sustains microvascular integrity, thereby strengthening defences against diabetic conditions. This study aims to conduct a comprehensive analysis of the ACE2/Ang 1–7/MasR axis in diabetes and its microvascular complications over the past two decades, focusing on key contributors, research hotspots, and thematic trends. Methods: This cross-sectional bibliometric analysis of 349 English-language publications was performed using HistCite, VOSviewer, CiteSpace, and Bibliometrix R for visualization and metric analysis. Primary analytical metrics included publication count and keyword trend dynamics. Results: The United States, contributing 105 articles, emerged as the most productive country, with the University of Florida leading institutions with 18 publications. Benter IF was the most prolific author with 14 publications, and Clinical Science was the leading journal with 13 articles. A total of 151 of the 527 author's keywords with two or more occurrences clustered into four major clusters: diabetic microvascular pathogenesis, metabolic systems, type 2 diabetes, and coronavirus infections. Keywords such as “SARS”, “ACE2”, “coronavirus”, “receptor” and “infection” displayed the strongest citation bursts. The thematic evolution in this field expanded from focusing on the renin angiotensin system (2002–2009) to incorporating ACE2 and diabetes metabolism (2010–2016). The latter period (2017–2023) witnessed a significant surge in diabetes research, reflecting the impact of COVID-19 and associated conditions such as diabetic retinopathy and cardiomyopathy. Conclusions: This scientometric study offers a detailed analysis of the ACE2/Ang 1–7/MasR axis in diabetes and its microvascular complications, providing valuable insights for future research directions.

Published

2024

9. Counter-regulatory RAS peptides: new therapy targets for inflammation and fibrotic diseases?

Author

Diana V. Ávila-Martínez, Wendy K. Mixtega-Ruiz, José M. Hurtado-Capetillo, Oscar Lopez-Franco, and Mónica Flores-Muñoz

Subjects

inflammation, fibrosis, counter-regulatory RAS, angiotensin type 2 receptor, Mas receptor, Therapeutics. Pharmacology, RM1-950

Abstract

The renin-angiotensin system (RAS) is an important cascade of enzymes and peptides that regulates blood pressure, volume, and electrolytes. Within this complex system of reactions, its counter-regulatory axis has attracted attention, which has been associated with the pathophysiology of inflammatory and fibrotic diseases. This review article analyzes the impact of different components of the counter-regulatory axis of the RAS on different pathologies. Of these peptides, Angiotensin-(1–7), angiotensin-(1–9) and alamandine have been evaluated in a wide variety of in vitro and in vivo studies, where not only they counteract the actions of the classical axis, but also exhibit independent anti-inflammatory and fibrotic actions when binding to specific receptors, mainly in heart, kidney, and lung. Other functional peptides are also addressed, which despite no reports associated with inflammation and fibrosis to date were found, they could represent a potential target of study. Furthermore, the association of agonists of the counter-regulatory axis is analyzed, highlighting their contribution to the modulation of the inflammatory response counteracting the development of fibrotic events. This article shows an overview of the importance of the RAS in the resolution of inflammatory and fibrotic diseases, offering an understanding of the individual components as potential treatments.

Published

2024

10. Angiotensin(1-7) attenuates tooth movement and regulates alveolar bone response during orthodontic force application in experimental animal model

Author

Hatem Abuohashish, Suliman Shahin, Abdulaziz Alamri, Zainah Salloot, Hussain Alhawaj, and Omar Omar

Subjects

Renin–angiotensin system, Orthodontic pressure force, Orthodontic tension force, Mas receptor, Bone remodeling, Angiogenesis, Dentistry, RK1-715

Abstract

Abstract Background Renin–angiotensin system and its ACE2/Ang(1-7)/Mas receptor axis regulates skeletal response to multiple physiological and pathological conditions. Recent research suggested a vital role of Ang(1-7) in regulating alveolar bone metabolism and remodeling. In this context, this study evaluated the effects of the Ang(1-7)/Mas receptor axis on orthodontic tooth movement (OTM) and the alveolar bone response to mechanical load. Methods A coil spring was placed between the right maxillary first molar and the anterior tooth of Wistar rats to apply bidirectional mechanical force. Ang(1-7) with or without a specific Mas receptor antagonist (A779) was infused using subcutaneous osmotic pumps (200 and 400 ng/kg/min: respectively). Animals were killed after 5 and 14 days from the OTM procedure after the clinical evaluation of tooth movement and mobility. Morphometric analysis of alveolar bone structure was conducted using micro-CT and the histological picture was evaluated after H&E staining. Moreover, collagen fiber distribution was assessed using Picro-Sirius red stain. In addition, bone samples were collected from the pressure and tension sites around the anterior tooth for gene expression analysis. Results Ang(1-7) infusion suppressed the tooth movement and mobility after 14 days of the orthodontic force application. Additionally, Ang(1-7) infusion preserved the morphometric and histological structure of the alveolar bone at pressure and tension sides. These effects were abolished by adding A779 infusion. Collagen fiber distribution was dysregulated mainly by the A779 Mas receptor blockage. Ang(1-7) affected the bone formation, remodeling- and vascularity-related genes in the pressure and tension sides, suggesting a prominent suppression of osteoclastogenesis. Ang(1-7) also improved osteoblasts-related genes on the tension side, whereas the osteoclasts-related genes were augmented by A779 on the pressure side. Conclusion Collectively, the activation of Ang(1-7)/Mas receptor axis appears to hinder tooth movement and regulates alveolar bone remodeling in response to mechanical force. Graphical abstract

Published

2023

11. Activation of angiotensin-converting enzyme 2 produces an antidepressant-like effect via MAS receptors in mice

Author

Osamu Nakagawasai, Kohei Takahashi, Taisei Koyama, Ryota Yamagata, Wataru Nemoto, and Koichi Tan-No

Subjects

Antidepressant, Angiotensin-converting enzyme 2, Ang (1–7), Diminazene, MAS receptor, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Angiotensin (Ang)-converting-enzyme (ACE) 2 converts Ang II into Ang (1–7), which in turn acts on MAS receptors (ACE2/Ang (1–7)/MAS receptors pathway). This pathway has neuroprotective properties, making it a potential therapeutic target for psychiatric disorders such as depression. Thus, we examined the effects of diminazene aceturate (DIZE), an ACE2 activator, on depressive-like behavior using behavioral, pharmacological, and biochemical assays. To determine whether DIZE or Ang (1–7) produce antidepressant-like effects, we measured the duration of immobility of mice in the tail suspension test following their intracerebroventricular administration. Next, we measured the levels of ACE2 activation in the cerebral cortex, prefrontal cortex, hippocampus, and amygdala after DIZE injection, and examined which cell types, including neurons, microglia, and astrocytes, express ACE2 in the hippocampus using immunofluorescence. Administration of DIZE or Ang (1–7) significantly shortened the duration of immobility time in the tail suspension test, while this effect was inhibited by the co-administration of the MAS receptor antagonist A779. DIZE activated ACE2 in the hippocampus. ACE2 was localized to neurons, astrocytes, and microglia in the hippocampus. In conclusion, these results suggest that DIZE may act on ACE2-positive cells in the hippocampus where it increases the activity of ACE2, thereby enhancing signaling of the ACE2/Ang (1–7)/MAS receptor pathway and resulting in antidepressant-like effects.

Published

2023

12. PDZK1 improves ventricular remodeling in hypertensive rats by regulating the stability of the Mas receptor.

Author

Chi, Jinyu, Li, Wanlin, Xu, Yang, Li, Xiuzhi, Zhang, Xiaohui, Shi, Zhiyu, Liu, Chunnan, Liu, Wenxiu, Zhao, Meng, Meng, Yan, and Zhao, Dechao

Subjects

*VENTRICULAR remodeling, *CARDIAC hypertrophy, *HYPERTENSION, *POST-translational modification, *RATS, *PROTEASOME inhibitors, *PROTEOLYSIS

Abstract

Ventricular remodeling is one of the main causes of mortality from heart failure due to hypertension. Exploring its mechanism and finding therapeutic targets have become urgent scientific problems to be solved. A number of studies have shown that Mas, as an Ang-(1-7) specific receptor, was significantly reduced in myocardial tissue of rats undergoing hypertensive ventricular remodeling. It has been reported that Mas receptor levels are significantly downregulated in myocardium undergoing ventricular remodeling, but studies focused on intracellular and post-translational modifications of Mas are lacking. The results of this research are as follows: (1) PDZK1 interacts with the carboxyl terminus of Mas through its PDZ1 domain; (2) the expression of PDZK1 and Mas is decreased in rats undergoing hypertensive ventricular remodeling, and PDZK1 upregulation can ameliorate hypertensive myocardial fibrosis and myocardial hypertrophy; (3) PDZK1 enhances the stability of Mas protein through the proteasome pathway, and the proteasome inhibitor MG132 promotes hypertensive ventricular remodeling. PDZK1 improves ventricular remodeling in hypertensive rats by regulating Mas receptor stability. This study provides a scientific basis for the prevention and treatment of ventricular remodeling. [ABSTRACT FROM AUTHOR]

Published

2023

13. The effect of zofenopril on the cardiovascular system of spontaneously hypertensive rats treated with the ACE2 inhibitor MLN-4760.

Author

Cacanyiova, Sona, Cebova, Martina, Simko, Fedor, Baka, Tomas, Bernatova, Iveta, Kluknavsky, Michal, Zorad, Stefan, Krskova, Katarina, Shaman, Ezgi, Zemancikova, Anna, Barta, Andrej, Aydemir, Basak G., and Berenyiova, Andrea

Subjects

HEART, CARDIOVASCULAR system, ANGIOTENSIN converting enzyme, SYSTOLIC blood pressure, THORACIC aorta, ACE inhibitors, ESSENTIAL hypertension

Abstract

Background: Angiotensin converting enzyme 2 (ACE2) plays a crucial role in the infection cycle of SARS-CoV-2 responsible for formation of COVID-19 pandemic. In the cardiovascular system, the virus enters the cells by binding to the transmembrane form of ACE2 causing detrimental effects especially in individuals with developed hypertension or heart disease. Zofenopril, a H2S-releasing angiotensin-converting enzyme inhibitor (ACEI), has been shown to be effective in the treatment of patients with essential hypertension; however, in conditions of ACE2 inhibition its potential beneficial effect has not been investigated yet. Therefore, the aim of the study was to determine the effect of zofenopril on the cardiovascular system of spontaneously hypertensive rats, an animal model of human essential hypertension and heart failure, under conditions of ACE2 inhibition induced by the administration of the specific inhibitor MLN-4760 (MLN). Results: Zofenopril reduced MLN-increased visceral fat to body weight ratio although no changes in systolic blood pressure were recorded. Zofenopril administration resulted in a favorable increase in left ventricle ejection fraction and improvement of diastolic function regardless of ACE2 inhibition, which was associated with increased H2S levels in plasma and heart tissue. Similarly, the acute hypotensive responses induced by acetylcholine, L-NAME (NOsynthase inhibitor) and captopril (ACEI) were comparable after zofenopril administration independently from ACE2 inhibition. Although simultaneous treatment with zofenopril and MLN led to increased thoracic aorta vasorelaxation, zofenopril increased the NO component equally regardless of MLN treatment, which was associated with increased NO-synthase activity in aorta and left ventricle. Moreover, unlike in control rats, the endogenous H2S participated in maintaining of aortic endothelial function in MLN-treated rats and the treatment with zofenopril had no impact on this effect. Conclusions: Zofenopril treatment reduced MLN-induced adiposity and improved cardiac function regardless of ACE2 inhibition. Although the concomitant MLN and zofenopril treatment increased thoracic aorta vasorelaxation capacity, zofenopril increased the participation of H2S and NO in the maintenance of endothelial function independently from ACE2 inhibition. Our results confirmed that the beneficial effects of zofenopril were not affected by ACE2 inhibition, moreover, we assume that ACE2 inhibition itself can lead to the activation of cardiovascular compensatory mechanisms associated with Mas receptor, nitrous and sulfide signaling. [ABSTRACT FROM AUTHOR]

Published

2023

14. Angiotensin(1-7) attenuates tooth movement and regulates alveolar bone response during orthodontic force application in experimental animal model.

Author

Abuohashish, Hatem, Shahin, Suliman, Alamri, Abdulaziz, Salloot, Zainah, Alhawaj, Hussain, and Omar, Omar

Subjects

ALVEOLAR process, ANIMAL mechanics, TOOTH eruption, LABORATORY animals, BONE metabolism, ANGIOTENSINS, BONE remodeling, TOOTH socket, NEPRILYSIN

Abstract

Background: Renin–angiotensin system and its ACE2/Ang(1-7)/Mas receptor axis regulates skeletal response to multiple physiological and pathological conditions. Recent research suggested a vital role of Ang(1-7) in regulating alveolar bone metabolism and remodeling. In this context, this study evaluated the effects of the Ang(1-7)/Mas receptor axis on orthodontic tooth movement (OTM) and the alveolar bone response to mechanical load. Methods: A coil spring was placed between the right maxillary first molar and the anterior tooth of Wistar rats to apply bidirectional mechanical force. Ang(1-7) with or without a specific Mas receptor antagonist (A779) was infused using subcutaneous osmotic pumps (200 and 400 ng/kg/min: respectively). Animals were killed after 5 and 14 days from the OTM procedure after the clinical evaluation of tooth movement and mobility. Morphometric analysis of alveolar bone structure was conducted using micro-CT and the histological picture was evaluated after H&E staining. Moreover, collagen fiber distribution was assessed using Picro-Sirius red stain. In addition, bone samples were collected from the pressure and tension sites around the anterior tooth for gene expression analysis. Results: Ang(1-7) infusion suppressed the tooth movement and mobility after 14 days of the orthodontic force application. Additionally, Ang(1-7) infusion preserved the morphometric and histological structure of the alveolar bone at pressure and tension sides. These effects were abolished by adding A779 infusion. Collagen fiber distribution was dysregulated mainly by the A779 Mas receptor blockage. Ang(1-7) affected the bone formation, remodeling- and vascularity-related genes in the pressure and tension sides, suggesting a prominent suppression of osteoclastogenesis. Ang(1-7) also improved osteoblasts-related genes on the tension side, whereas the osteoclasts-related genes were augmented by A779 on the pressure side. Conclusion: Collectively, the activation of Ang(1-7)/Mas receptor axis appears to hinder tooth movement and regulates alveolar bone remodeling in response to mechanical force. [ABSTRACT FROM AUTHOR]

Published

2023

15. PNA6, a Lactosyl Analogue of Angiotensin-(1-7), Reverses Pain Induced in Murine Models of Inflammation, Chemotherapy-Induced Peripheral Neuropathy, and Metastatic Bone Disease.

Author

Sulaiman, Maha I., Alabsi, Wafaa, Szabo, Lajos, Hay, Meredith, Polt, Robin, Largent-Milnes, Tally M., and Vanderah, Todd W.

Subjects

*BONE metastasis, *PERIPHERAL neuropathy, *BREAST, *CHEMOTHERAPY complications, *CANCER pain, *PEPTIDE synthesis

Abstract

Pain is the most significant impairment and debilitating challenge for patients with bone metastasis. Therefore, the primary objective of current therapy is to mitigate and prevent the persistence of pain. Thus, cancer-induced bone pain is described as a multifaceted form of discomfort encompassing both inflammatory and neuropathic elements. We have developed a novel non-addictive pain therapeutic, PNA6, that is a derivative of the peptide Angiotensin-(1-7) and binds the Mas receptor to decrease inflammation-related cancer pain. In the present study, we provide evidence that PNA6 attenuates inflammatory, chemotherapy-induced peripheral neuropathy (CIPN) and cancer pain confined to the long bones, exhibiting longer-lasting efficacious therapeutic effects. PNA6, Asp-Arg-Val-Tyr-Ile-His-Ser-(O-β-Lact)-amide, was successfully synthesized using solid phase peptide synthesis (SPPS). PNA6 significantly reversed inflammatory pain induced by 2% carrageenan in mice. A second murine model of platinum drug-induced painful peripheral neuropathy was established using oxaliplatin. Mice in the oxaliplatin-vehicle treatment groups demonstrated significant mechanical allodynia compared to the oxaliplatin-PNA6 treatment group mice. In a third study modeling a complex pain state, E0771 breast adenocarcinoma cells were implanted into the femur of female C57BL/6J wild-type mice to induce cancer-induced bone pain (CIBP). Both acute and chronic dosing of PNA6 significantly reduced the spontaneous pain behaviors associated with CIBP. These data suggest that PNA6 is a viable lead candidate for treating chronic inflammatory and complex neuropathic pain. [ABSTRACT FROM AUTHOR]

Published

2023

16. The Renin Angiotensin System as a Therapeutic Target in Traumatic Brain Injury.

Author

Villapol, Sonia, Janatpour, Zachary C., Affram, Kwame O., and Symes, Aviva J.

Abstract

Traumatic brain injury (TBI) is a major public health problem, with limited pharmacological options available beyond symptomatic relief. The renin angiotensin system (RAS) is primarily known as a systemic endocrine regulatory system, with major roles controlling blood pressure and fluid homeostasis. Drugs that target the RAS are used to treat hypertension, heart failure and kidney disorders. They have now been used chronically by millions of people and have a favorable safety profile. In addition to the systemic RAS, it is now appreciated that many different organ systems, including the brain, have their own local RAS. The major ligand of the classic RAS, Angiotensin II (Ang II) acts predominantly through the Ang II Type 1 receptor (AT1R), leading to vasoconstriction, inflammation, and heightened oxidative stress. These processes can exacerbate brain injuries. Ang II receptor blockers (ARBs) are AT1R antagonists. They have been shown in several preclinical studies to enhance recovery from TBI in rodents through improvements in molecular, cellular and behavioral correlates of injury. ARBs are now under consideration for clinical trials in TBI. Several different RAS peptides that signal through receptors distinct from the AT1R, are also potential therapeutic targets for TBI. The counter regulatory RAS pathway has actions that oppose those stimulated by AT1R signaling. This alternative pathway has many beneficial effects on cells in the central nervous system, bringing about vasodilation, and having anti-inflammatory and anti-oxidative stress actions. Stimulation of this pathway also has potential therapeutic value for the treatment of TBI. This comprehensive review will provide an overview of the various components of the RAS, with a focus on their direct relevance to TBI pathology. It will explore different therapeutic agents that modulate this system and assess their potential efficacy in treating TBI patients. [ABSTRACT FROM AUTHOR]

Published

2023

17. Role of Melatonin in Attenuation of Vascular Ang 1-7 Reactivity via Oxidative Stress Enzymes and PI3K/AKT/eNOS Signalling Pathways in Induced Diabetic Rats.

Author

Shareef Mahmood, Nazar M., Mahmud, Almas M. R., and Maulood, Ismail M.

Subjects

*MELATONIN, *OXIDATIVE stress, *VASCULAR endothelial cells, *ANTIOXIDANTS, *NAD (Coenzyme)

Abstract

Diabetes mellitus (DM) is considered as the main complication of the cardiovascular system leading to vascular endothelial dysfunction (VED). Besides, melatonin (MEL) has been known to improve the vascular tone directly or indirectly with MEL receptors (MT1R and MT2R) and antioxidant properties, respectively. The rings were extracted from three groups including non-diabetes (non-DM), streptozotocin induced diabetes (STZ-induced DM) and STZ-induced DM treated with MEL (DM+MEL) in male albino rats. The experimental procedure includes thoracic aortic vascular reactivity of angiotensin 1-7 (Ang 1-7) and histological examination. The vascular reactivity was conducted across eight distinct groups, encompassing RO-31-8220 (5 µM), protein kinase C (PKC) inhibitor, Apocyanin [(APO, 10 micromolar (µM)], the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase inhibitor, rotenone (ROT 50 µM), mitochondrial complex I electron transport chain inhibitor, oxypurinol (OXY, 100 µM), xanthine oxidase inhibitor, PI-3065 (1 µM), phosphoinositide 3-kinases (PI3K) inhibitor, Ipatasertib (1 µM), protein kinase B (AKT) inhibitor, A779 (1 µM), the Mas receptor blocker and N(?)-nitro-L-arginine methyl ester (L-NAME 200 µM), the nitric oxide (NO) inhibitor pre-incubation. However, it is worth noting that the pre-incubation with OXY resulted in a notably significant rightward shift in this response. Conversely, in the STZ-induced DM group, there was a notable significant rightward shift observed in response to each of APO, ROT, and OXY. MEL appeared to regulate the vascular tone within Ang 1-7 modulation in STZ-induced DM rats. Therefore, MEL could offer many vascular benefits within Ang 1-7 under diabetic condition. [ABSTRACT FROM AUTHOR]

Published

2023

18. Activation of angiotensin-converting enzyme 2 produces an antidepressant-like effect via MAS receptors in mice.

Author

Nakagawasai, Osamu, Takahashi, Kohei, Koyama, Taisei, Yamagata, Ryota, Nemoto, Wataru, and Tan-No, Koichi

Subjects

*ENZYME activation, *CEREBRAL cortex, *PREFRONTAL cortex, *ANGIOTENSIN I, *HIPPOCAMPUS (Brain), *MICE, *ANGIOTENSIN receptors, *ANGIOTENSIN converting enzyme

Abstract

Angiotensin (Ang)-converting-enzyme (ACE) 2 converts Ang II into Ang (1–7), which in turn acts on MAS receptors (ACE2/Ang (1–7)/MAS receptors pathway). This pathway has neuroprotective properties, making it a potential therapeutic target for psychiatric disorders such as depression. Thus, we examined the effects of diminazene aceturate (DIZE), an ACE2 activator, on depressive-like behavior using behavioral, pharmacological, and biochemical assays. To determine whether DIZE or Ang (1–7) produce antidepressant-like effects, we measured the duration of immobility of mice in the tail suspension test following their intracerebroventricular administration. Next, we measured the levels of ACE2 activation in the cerebral cortex, prefrontal cortex, hippocampus, and amygdala after DIZE injection, and examined which cell types, including neurons, microglia, and astrocytes, express ACE2 in the hippocampus using immunofluorescence. Administration of DIZE or Ang (1–7) significantly shortened the duration of immobility time in the tail suspension test, while this effect was inhibited by the co-administration of the MAS receptor antagonist A779. DIZE activated ACE2 in the hippocampus. ACE2 was localized to neurons, astrocytes, and microglia in the hippocampus. In conclusion, these results suggest that DIZE may act on ACE2-positive cells in the hippocampus where it increases the activity of ACE2, thereby enhancing signaling of the ACE2/Ang (1–7)/MAS receptor pathway and resulting in antidepressant-like effects. [ABSTRACT FROM AUTHOR]

Published

2023

19. Novel Potential Targets for Function-Promoting Therapies: Orphan Nuclear Receptors, Anti-inflammatory Drugs, Troponin Activators, Mas Receptor Agonists, and Urolithin A.

Author

Dioh, Waly, Narkar, Vihang, Singh, Anurag, Malik, Fady, Ferrucci, Luigi, Tourette, Cendrine, Mariani, Jean, Maanen, Rob van, and Fielding, Roger A

Subjects

*TROPONIN, *ORPHANS, *ANTI-inflammatory agents, *PHYSICAL mobility, *SKELETAL muscle

Abstract

In recent years, several new classes of therapies have been investigated with their potential for restoring or improving physical functioning in older adults. These have included Mas receptor agonists, regulators of mitophagy, skeletal muscle troponin activators, anti-inflammatory compounds, and targets of orphan nuclear receptors. The present article summarizes recent developments of the function-promoting effects of these exciting new compounds and shares relevant preclinical and clinical data related to their safety and efficacy. The development of novel compounds in this area is expanding and likely will need the advent of a new treatment paradigm for age-associated mobility loss and disability. [ABSTRACT FROM AUTHOR]

Published

2023

20. Effects of intrarenal angiotensin 1–7 infusion on renal haemodynamic and excretory function in anaesthetised two‐kidney one‐clip and deoxycorticosterone acetate‐salt hypertensive rats

Author

Elaine F. Barry, Mohammed H. Abdulla, Julie O'Neill, Sara AlMarabeh, Julie Beshara, Erin Parna‐Gile, and Edward J. Johns

Subjects

2K1C, angiotensin (1–7), AT1 receptor, deoxycorticosterone acetate, Mas receptor, Physiology, QP1-981

Abstract

Abstract This study investigated the action of angiotensin 1–7 (Ang (1–7)) on renal haemodynamic and excretory function in the two‐kidney one‐clip (2K1C) and deoxycorticosterone acetate (DOCA)‐salt rat models of hypertension, in which the endogenous renin–angiotensin system (RAS) activity was likely to be raised or lowered, respectively. Rats were anaesthetised and prepared for the measurement of mean arterial pressure and kidney function during renal interstitial infusion of Ang (1–7) or saline. Kidney tissue concentrations of angiotensin II (Ang II) and Ang (1–7) were determined. Intrarenal infusion of Ang (1–7) into the clipped kidney of 2K1C rats increased urine flow (UV), absolute (UNaV) and fractional sodium (FENa) excretions by 110%, 214% and 147%, respectively. Renal Ang II concentrations of the clipped kidney were increased with no major changes in Ang (1–7) concentration. By contrast, Ang (1–7) infusion decreased UV, UNaV, and FENa by 27%, 24% and 21%, respectively in the non‐clipped kidney in which tissue Ang (1–7) concentrations were increased, but renal Ang II concentrations were unchanged compared to sham animals. Ang (1–7) infusion in DOCA‐salt rats had minimal effects on glomerular filtration rate but significantly decreased UV, UNaV and FENa by ∼30%. Renal Ang (1–7) concentrations were higher and Ang II concentrations were lower in DOCA‐salt rats compared to sham rats. These findings demonstrate that the intrarenal infusion of exogenous Ang (1–7) elicits different renal excretory responses the magnitude of which is dependent on the balance between the endogenous renal Ang II–AT1 receptor axis and Ang (1–7)–Mas receptor axis.

Published

2023

21. Central angiotensin 1–7 triggers brown fat thermogenesis.

Author

Evangelista, F. S. and Bartness, T. J.

Subjects

*BROWN adipose tissue, *BODY temperature regulation, *ANGIOTENSINS, *CELL receptors, *BLOOD sugar

Abstract

We tested the hypothesis that third ventricular (3V) injections of angiotensin 1–7 (Ang 1–7) increases thermogenesis in brown adipose tissue (BAT), and whether the Mas receptor mediates this response. First, in male Siberian hamsters (n = 18), we evaluated the effect of Ang 1–7 in the interscapular BAT (IBAT) temperature and, using selective Mas receptor antagonist A‐779, the role of Mas receptor in this response. Each animal received 3V injections (200 nL), with 48 h intervals: saline; Ang 1–7 (0.03, 0.3, 3, and 30 nmol); A‐779 (3 nmol); and Ang 1–7 (0.3 nmol) + A‐779 (3 nmol). IBAT temperature increased after 0.3 nmol Ang 1–7 compared with Ang 1–7 + A‐779 at 20, 30, and 60 min. Also, 0.3 nmol Ang 1–7 increased IBAT temperature at 10 and 20 min, and decreased at 60 min compared with pretreatment. IBAT temperature decreased after A‐779 at 60 min and after Ang 1–7 + A‐779 at 30 and 60 min compared with the respective pretreatment. A‐779 and Ang 1–7 + A‐779 decreased core temperature at 60 min compared with 10 min. Then, we evaluated blood and tissue Ang 1–7 levels, and the expression of hormone‐sensitive lipase (HSL) and adipose triglyceride lipase (ATGL) in IBAT. Male Siberian hamsters (n = 36) were killed 10 min after one of the injections. No changes were observed in blood glucose, serum and IBAT Ang 1–7 levels, and ATGL. Ang 1–7 (0.3 nmol) increased p‐HSL expression compared with A‐779 and increased p‐HSL/HSL ration compared with other injections. Ang 1–7 and Mas receptor immunoreactive cells were found in brain regions that coincide with the sympathetic nerves outflow to BAT. In conclusion, 3V injection of Ang 1–7 induced thermogenesis in IBAT in a Mas receptor‐dependent manner. [ABSTRACT FROM AUTHOR]

Published

2023

22. Blockade of endothelial Mas receptor restores the vasomotor response to phenylephrine in human resistance arterioles pretreated with captopril and exposed to propofol

Author

Mary E. Schulz, Joseph C. Hockenberry, Boran Katunaric, Paul S. Pagel, and Julie K. Freed

Subjects

Angiotensin converting enzyme inhibitor, Ang 1–7, Mas receptor, Propofol, Vasodilation, Resistance arterioles, Anesthesiology, RD78.3-87.3

Abstract

Abstract Background Hypotension that is resistant to phenylephrine is a complication that occurs in anesthetized patients treated with angiotensin converting enzyme (ACE) inhibitors. We tested the hypothesis that Ang 1–7 and the endothelial Mas receptor contribute to vasodilation produced by propofol in the presence of captopril. Methods The internal diameters of human adipose resistance arterioles were measured before and after administration of phenylephrine (10–9 to 10–5 M) in the presence and absence of propofol (10–6 M; added 10 min before the phenylephrine) or the Mas receptor antagonist A779 (10–5 M; added 30 min before phenylephrine) in separate experimental groups. Additional groups of arterioles were incubated for 16 to 20 h with captopril (10–2 M) or Ang 1–7 (10–9 M) before experimentation with phenylephrine, propofol, and A779. Results Propofol blunted phenylephrine-induced vasoconstriction in normal vessels. Captopril pretreatment alone did not affect vasoconstriction, but the addition of propofol markedly attenuated the vasomotor response to phenylephrine. A779 alone did not affect vasoconstriction in normal vessels, but it restored vasoreactivity in arterioles pretreated with captopril and exposed to propofol. Ang 1–7 reduced the vasoconstriction in response to phenylephrine. Addition of propofol to Ang 1–7-pretreated vessels further depressed phenylephrine-induced vasoconstriction to an equivalent degree as the combination of captopril and propofol, but A779 partially reversed this effect. Conclusions Mas receptor activation by Ang 1–7 contributes to phenylephrine-resistant vasodilation in resistance arterioles pretreated with captopril and exposed to propofol. These data suggest an alternative mechanism by which refractory hypotension may occur in anesthetized patients treated with ACE inhibitors.

Published

2022

23. Renin-Angiotensin System: A Review of Historical Perspectives

Author

Olga Kovalyova, Anna Zhuravlyova, and Svitlana Ivanchenko

Subjects

renin-angiotensin system, angiotensin-converting enzyme 2, angiotensin-(1–7), mas receptor, Medicine

Abstract

The article is a review of publications concerning historical perspectives of the renin-angiotensin system. The discovery of its components is presented in chronological order, beginning with the initial identification of renin and proceeding to the subsequent discoveries of angiotensin-converting enzyme 2, angiotensin- (1-7), Mas receptor. This paper presents a modern classification of the renin-angiotensin system, dividing it into classical and non-classical branches, based on the determination of the biological effects of its components. Significant attention is devoted to elucidating the biochemical cascade of the renin-angiotensin system, its physiological transformations, and its implications in human body processes. The detrimental cardiac effects of the classical renin-angiotensin system are highlighted, along with the crucial role played by its alternative axis in counteracting the development of cardiovascular diseases. The article presents data on the involvement of angiotensin-converting enzyme 2 and its receptors in coronavirus infections, susceptibility to infection, and disease progression.

Published

2023

24. Central angiotensin 1–7 triggers brown fat thermogenesis

Author

F. S. Evangelista and T. J. Bartness

Subjects

brown adipose tissue, central angiotensin 1–7, lipolysis and thermogenesis, Mas receptor, Physiology, QP1-981

Abstract

Abstract We tested the hypothesis that third ventricular (3V) injections of angiotensin 1–7 (Ang 1–7) increases thermogenesis in brown adipose tissue (BAT), and whether the Mas receptor mediates this response. First, in male Siberian hamsters (n = 18), we evaluated the effect of Ang 1–7 in the interscapular BAT (IBAT) temperature and, using selective Mas receptor antagonist A‐779, the role of Mas receptor in this response. Each animal received 3V injections (200 nL), with 48 h intervals: saline; Ang 1–7 (0.03, 0.3, 3, and 30 nmol); A‐779 (3 nmol); and Ang 1–7 (0.3 nmol) + A‐779 (3 nmol). IBAT temperature increased after 0.3 nmol Ang 1–7 compared with Ang 1–7 + A‐779 at 20, 30, and 60 min. Also, 0.3 nmol Ang 1–7 increased IBAT temperature at 10 and 20 min, and decreased at 60 min compared with pretreatment. IBAT temperature decreased after A‐779 at 60 min and after Ang 1–7 + A‐779 at 30 and 60 min compared with the respective pretreatment. A‐779 and Ang 1–7 + A‐779 decreased core temperature at 60 min compared with 10 min. Then, we evaluated blood and tissue Ang 1–7 levels, and the expression of hormone‐sensitive lipase (HSL) and adipose triglyceride lipase (ATGL) in IBAT. Male Siberian hamsters (n = 36) were killed 10 min after one of the injections. No changes were observed in blood glucose, serum and IBAT Ang 1–7 levels, and ATGL. Ang 1–7 (0.3 nmol) increased p‐HSL expression compared with A‐779 and increased p‐HSL/HSL ration compared with other injections. Ang 1–7 and Mas receptor immunoreactive cells were found in brain regions that coincide with the sympathetic nerves outflow to BAT. In conclusion, 3V injection of Ang 1–7 induced thermogenesis in IBAT in a Mas receptor‐dependent manner.

Published

2023

25. Effects of intrarenal angiotensin 1–7 infusion on renal haemodynamic and excretory function in anaesthetised two‐kidney one‐clip and deoxycorticosterone acetate‐salt hypertensive rats.

Author

Barry, Elaine F., Abdulla, Mohammed H., O'Neill, Julie, AlMarabeh, Sara, Beshara, Julie, Parna‐Gile, Erin, and Johns, Edward J.

Subjects

*ANGIOTENSINS, *ANGIOTENSIN II, *RENIN-angiotensin system, *HEMODYNAMICS, *RATS

Abstract

New Findings: What is the central question of this study?Are renal functional responses to intrarenal angiotensin 1–7 (Ang (1–7)) infusion dependent on the level of the endogenous renin–angiotensin system (RAS) in the two‐kidney one‐clip (2K1C) and deoxycorticosterone acetate (DOCA)‐salt animal models of hypertension?What is the main finding and its importance?The renal actions of Ang (1–7) are dependent on the relative endogenous levels of each arm of the classical angiotensin II–angiotensin II type 1 receptor (AT1R) axis and those of the Ang (1–7)–Mas receptor axis. These findings support the hypothesis that a balance exists between the intrarenal classical and novel arms of the RAS, and in particular the relative abundance of AT1R to Mas receptor, which may to a large extent determine the renal excretory response to Ang (1–7) infusion. This study investigated the action of angiotensin 1–7 (Ang (1–7)) on renal haemodynamic and excretory function in the two‐kidney one‐clip (2K1C) and deoxycorticosterone acetate (DOCA)‐salt rat models of hypertension, in which the endogenous renin–angiotensin system (RAS) activity was likely to be raised or lowered, respectively. Rats were anaesthetised and prepared for the measurement of mean arterial pressure and kidney function during renal interstitial infusion of Ang (1–7) or saline. Kidney tissue concentrations of angiotensin II (Ang II) and Ang (1–7) were determined. Intrarenal infusion of Ang (1–7) into the clipped kidney of 2K1C rats increased urine flow (UV), absolute (UNaV) and fractional sodium (FENa) excretions by 110%, 214% and 147%, respectively. Renal Ang II concentrations of the clipped kidney were increased with no major changes in Ang (1–7) concentration. By contrast, Ang (1–7) infusion decreased UV, UNaV, and FENa by 27%, 24% and 21%, respectively in the non‐clipped kidney in which tissue Ang (1–7) concentrations were increased, but renal Ang II concentrations were unchanged compared to sham animals. Ang (1–7) infusion in DOCA‐salt rats had minimal effects on glomerular filtration rate but significantly decreased UV, UNaV and FENa by ∼30%. Renal Ang (1–7) concentrations were higher and Ang II concentrations were lower in DOCA‐salt rats compared to sham rats. These findings demonstrate that the intrarenal infusion of exogenous Ang (1–7) elicits different renal excretory responses the magnitude of which is dependent on the balance between the endogenous renal Ang II–AT1 receptor axis and Ang (1–7)–Mas receptor axis. [ABSTRACT FROM AUTHOR]

Published

2023

26. Lisinopril prevents bullous pemphigoid induced by dipeptidyl peptidase 4 inhibitors via the Mas receptor pathway.

Author

Keisuke Nozawa, Takahide Suzuki, Gen Kayanuma, Hiroki Yamamoto, Kazuki Nagayasu, Hisashi Shirakawa, and Shuji Kaneko

Subjects

CD26 antigen, BULLOUS pemphigoid, LISINOPRIL, DRUG side effects, MONONUCLEAR leukocytes, ACE inhibitors

Abstract

Recent studies have suggested that dipeptidyl peptidase 4 (DPP4) inhibitors increase the risk of development of bullous pemphigoid (BP), which is the most common autoimmune blistering skin disease; however, the associated mechanisms remain unclear, and thus far, no therapeutic targets responsible for drug-induced BP have been identified. Therefore, we used clinical data mining to identify candidate drugs that can suppress DPP4 inhibitor-associated BP, and we experimentally examined the underlying molecular mechanisms using human peripheral blood mononuclear cells (hPBMCs). A search of the US Food and Drug Administration Adverse Event Reporting System and the IBM® MarketScan® Research databases indicated that DPP4 inhibitors increased the risk of BP, and that the concomitant use of lisinopril, an angiotensin-converting enzyme inhibitor, significantly decreased the incidence of BP in patients receiving DPP4 inhibitors. Additionally, in vitro experiments with hPBMCs showed that DPP4 inhibitors upregulated mRNA expression of MMP9 and ACE2, which are responsible for the pathophysiology of BP in monocytes/ macrophages. Furthermore, lisinopril and Mas receptor (MasR) inhibitors suppressed DPP4 inhibitor-induced upregulation of MMP9. These findings suggest that the modulation of the renin-angiotensin system, especially the angiotensin1-7/MasR axis, is a therapeutic target in DPP4 inhibitorassociated BP. [ABSTRACT FROM AUTHOR]

Published

2023

27. Activation of Angiotensin-converting Enzyme 2 Protects Against Lipopolysaccharide-induced Glial Activation by Modulating Angiotensin-converting Enzyme 2/Angiotensin (1–7)/Mas Receptor Axis.

Author

Tiwari, Priya, Tiwari, Virendra, Gupta, Shivangi, Shukla, Shubha, and Hanif, Kashif

Abstract

Neuroinflammation is associated with activation of glial cells and pro-inflammatory arm of the central Renin Angiotensin System (RAS) namely, Angiotensin-Converting Enzyme/Angiotensin II/Angiotensin Type 1 Receptor (ACE/Ang II/AT1R) axis. Apart from this, another axis of RAS also exists, Angiotensin-Converting Enzyme 2/Angiotensin (1–7)/Mas Receptor (ACE2/Ang (1–7)/MasR), which counters ACE/Ang II/AT1R axis by showing anti-inflammatory properties. However, the role of ACE2/Ang (1–7)/MasR axis has not been explored in glial activation and neuroinflammation. Hence, the present study tries to unveil the role of ACE2/Ang (1–7)/MasR axis in lipopolysaccharide (LPS)-induced neuroinflammation using diminazene aceturate (DIZE), an ACE2 activator, in astroglial (C6) and microglial (BV2) cells as well as male SD rats. We found that ACE2 activation efficiently prevented LPS-induced changes by decreasing glial activation, inflammatory signaling, cell migration, ROS generation via upregulation of ACE2/Ang (1–7)/MasR signaling. In addition, activation of ACE2/Ang (1–7)/MasR axis by DIZE significantly suppressed the pro-inflammatory ACE/Ang II/AT1R axis by reducing Ang II level in neuroinflammatory conditions induced by LPS in both in vitro and in vivo. ACE2/Ang (1–7)/MasR axis activation further decreased mitochondrial depolarization and apoptosis, hence providing neuroprotection. Furthermore, to validate that the beneficial effect of the ACE2 activator was indeed through MasR, a selective MasR antagonist (A779) was used that significantly blocked the anti-inflammatory effect of ACE2 activation by DIZE. Hence, our study demonstrated that ACE2 activation imparted neuroprotection by enhancing ACE2/Ang (1–7)/MasR signaling which in turn decreased glial activation, neuroinflammation, and apoptosis and improved mitochondrial health. [ABSTRACT FROM AUTHOR]

Published

2023

28. Mitigating Cardiotoxicity of Dendrimers: Angiotensin-(1-7) via Its Mas Receptor Ameliorates PAMAM-Induced Cardiac Dysfunction in the Isolated Mammalian Heart.

Author

Akhtar, Saghir, Babiker, Fawzi, Akhtar, Usman A., and Benter, Ibrahim F.

Subjects

*HEART diseases, *DENDRIMERS, *CARDIOTOXICITY, *POLYAMIDOAMINE dendrimers, *HEART injuries, *HEART, *POISONS, *ANGIOTENSIN receptors, *HEMODYNAMICS

Abstract

Aim: The influence of the physiochemical properties of dendrimer nanoparticles on cardiac contractility and hemodynamics are not known. Herein, we investigated (a) the effect of polyamidoamine (PAMAM) dendrimer generation (G7, G6, G5, G4 and G3) and surface chemistry (-NH2, -COOH and -OH) on cardiac function in mammalian hearts following ischemia-reperfusion (I/R) injury, and (b) determined if any PAMAM-induced cardiotoxicity could be mitigated by Angiotensin-(1-7) (Ang-(1-7), a cardioprotective agent. Methods: Hearts isolated from male Wistar rats underwent regional I/R and/or treatment with different PAMAM dendrimers, Ang-(1-7) or its MAS receptors antagonists. Thirty minutes of regional ischemia through ligation of the left anterior descending coronary artery was followed by 30 min of reperfusion. All treatments were initiated 5 min prior to reperfusion and maintained during the first 10 min of reperfusion. Cardiac function parameters for left ventricular contractility, hemodynamics and vascular dynamics data were acquired digitally, whereas cardiac enzymes and infarct size were used as measures of cardiac injury. Results: Treatment of isolated hearts with increasing doses of G7 PAMAM dendrimer progressively exacerbated recovery of cardiac contractility and hemodynamic parameters post-I/R injury. Impairment of cardiac function was progressively less on decreasing dendrimer generation with G3 exhibiting little or no cardiotoxicity. Cationic PAMAMs (-NH2) were more toxic than anionic (-COOH), with neutral PAMAMs (-OH) exhibiting the least cardiotoxicity. Cationic G7 PAMAM-induced cardiac dysfunction was significantly reversed by Ang-(1-7) administration. These cardioprotective effects of Ang-(1-7) were significantly revoked by administration of the MAS receptor antagonists, A779 and D-Pro7-Ang-(1-7). Conclusions: PAMAM dendrimers can impair the recovery of hearts from I/R injury in a dose-, dendrimer-generation-(size) and surface-charge dependent manner. Importantly, PAMAM-induced cardiotoxicity could be mitigated by Ang-(1-7) acting through its MAS receptor. Thus, this study highlights the activation of Ang-(1-7)/Mas receptor axis as a novel strategy to overcome dendrimer-induced cardiotoxicity. [ABSTRACT FROM AUTHOR]

Published

2022

29. ANGIOTENSIN-(1-7) CAN PROMOTE CELL MIGRATION AND TUMOR GROWTH OF CLEAR CELL RENAL CELL CARCINOMA.

Author

SOBCZUK, P., TRZCINSKA-DANIELEWICZ, J., KOPERSKI, L., GIRSTUN, A., and CUDNOCH-JEDRZEJEWSKA, A.

Subjects

CELL migration, TUMOR growth, RENAL cell carcinoma, CELL growth, RENIN-angiotensin system, CARDIOVASCULAR system

Abstract

Renal cell carcinoma (RCC) is the most common kidney malignancy, accounting for 3% of all cancers. Despite significant advances in targeted therapies and immunotherapy, many patients with RCC develop resistance to available drugs. Angiotensin-(1-7) (Ang-(1-7)) is a heptapeptide and a member of the renin-angiotensin system which regulates the cardiovascular and the renal system. It has been proposed as a potential anticancer agent for the treatment of various types of cancers, but data regarding its efficiency against RCC are conflicting. The aim of our study was to evaluate the effects of Ang-(1-7) in RCC models in vitro and in vivo. We performed a series of in vitro experiments investigating the effects of Ang-(1-7) on cell viability and migration in Caki-1 and Caki-2 cell lines. In addition, we carried out an in vivo study in xenografts of Caki-1 cells in nude mice. In results: Ang-(1-7) or A779, an antagonist of its receptor MasR (Mas receptor), showed no effect on cell viability. Ang-(1-7) promoted cell migration in a dose-dependent manner by inducing the activation of MasR. It also promoted tumor growth in vivo, and this effect was not inhibited by the blockade of MasR. No effects on cell proliferation or tumor vessel density were observed. The results suggest that Ang-(1-7) can exert protumorigenic activity in RCC, however, further research on other RCC models is needed to better recapitulate the heterogeneity of the disease. [ABSTRACT FROM AUTHOR]

Published

2022

30. Alamandine, a protective component of the renin-angiotensin system, reduces cellular proliferation and interleukin-6 secretion in human macrophages through MasR–MrgDR heteromerization.

Author

Rukavina Mikusic, Natalia L., Silva, Mauro G., Erra Díaz, Fernando A., Pineda, Angélica M., Ferragut, Fátima, Gómez, Karina A., Mazzitelli, Luciana, Gonzalez Maglio, Daniel H., Nuñez, Myriam, Santos, Robson A.S., Grecco, Hernán E., and Gironacci, Mariela M.

Subjects

*CELL proliferation, *RENIN-angiotensin system, *ARCHAEOLOGICAL human remains, *THERAPEUTICS, *MACROPHAGES

Abstract

[Display omitted] Alamandine (ALA) exerts protective effects similar to angiotensin (Ang) (1–7) through Mas-related G protein-coupled receptor type D receptor (MrgDR) activation, distinct from Mas receptor (MasR). ALA induces anti-inflammatory effects in mice but its impact in human macrophages remains unclear. We aimed to investigate the anti-inflammatory effects of ALA in human macrophages. Interleukin (IL)-6 and IL-1β were measured by ELISA in human THP-1 macrophages and human monocyte-derived macrophages exposed to lipopolysaccharide (LPS). Consequences of MasR–MrgDR heteromerization were investigated in transfected HEK293T cells. ALA decreased IL-6 and IL-1β secretion in LPS-activated THP-1 macrophages. The ALA-induced decrease in IL-6 but not in IL-1β was prevented by MasR blockade and MasR downregulation, suggesting MasR–MrgDR interaction. In human monocyte-derived M1 macrophages, ALA decreased IL-1β secretion independently of MasR. MasR–MrgDR interaction was confirmed in THP-1 macrophages, human monocyte-derived macrophages, and transfected HEK293T cells. MasR and MrgDR formed a constitutive heteromer that was not influenced by ALA. ALA promoted Akt and ERK1/2 activation only in cells expressing MasR–MrgDR heteromers, and this effect was prevented by MasR blockade. While Ang-(1–7) reduced cellular proliferation in MasR −but not MrgDR- expressing cells, ALA antiproliferative effect was elicited in cells expressing MasR–MrgDR heteromers. ALA also induced an antiproliferative response in THP-1 cells and this effect was abolished by MasR blockade, reinforcing MasR–MrgDR interaction. MasR–MrgDR heteromerization is crucial for ALA-induced anti-inflammatory and antiproliferative responses in human macrophages. This study broaden our knowledge of the protective axis of the RAS, thus enabling novel therapeutic approaches in inflammatory-associated diseases. [ABSTRACT FROM AUTHOR]

Published

2024

31. Interaction of Angiotensin-(1−7) with kinins in the kidney circulation: Role of B1 receptors.

Author

Mendes, Elizabeth Pereira, Ianzer, Danielle, Peruchetti, Diogo Barros, Santos, Robson Augusto Souza, and Vieira, Maria Aparecida Ribeiro

Subjects

*RENAL circulation, *KININS, *VASCULAR resistance, *KIDNEY physiology, *CHO cell, *BRADYKININ receptors, *SUBSTANCE P receptors

Abstract

Changes in renal hemodynamics impact renal function during physiological and pathological conditions. In this context, renal vascular resistance (RVR) is regulated by components of the Renin-Angiotensin System (RAS) and the Kallikrein-Kinin System (KKS). However, the interaction between these vasoactive peptides on RVR is still poorly understood. Here, we studied the crosstalk between angiotensin-(1−7) and kinins on RVR. The right kidneys of Wistar rats were isolated and perfused in a closed-circuit system. The perfusion pressure and renal perfusate flow were continuously monitored. Ang-(1−7) (1.0–25.0 nM) caused a sustained, dose-dependent reduction of relative RVR (rRVR). This phenomenon was sensitive to 10 nM A-779, a specific Mas receptor (MasR) antagonist. Bradykinin (BK) promoted a sustained and transient reduction in rRVR at 1.25 nM and 125 nM, respectively. The transient effect was abolished by 4 μM des-Arg9-Leu8-bradykinin (DALBK), a specific kinin B 1 receptor (B 1 R) antagonist. Accordingly, des-Arg9-bradykinin (DABK) 1 μM (a B 1 R agonist) increased rRVR. Interestingly, pre-perfusion of Ang-(1−7) changed the sustained reduction of rRVR triggered by 1.25 nM BK into a transient effect. On the other hand, pre-perfusion of Ang-(1−7) primed and potentiated the DABK response, this mechanism being sensitive to A-779 and DALBK. Binding studies performed with CHO cells stably transfected with MasR, B 1 R, and kinin B2 receptor (B 2 R) showed no direct interaction between Ang-(1−7) with B 1 R or B 2 R. In conclusion, our findings suggest that Ang-(1−7) differentially modulates kinin's effect on RVR in isolated rat kidneys. These results help to expand the current knowledge regarding the crosstalk between the RAS and KKS complex network in RVR. • Vasoactive peptides modulate renal hemodynamics and renal function. • Ang-(1−7)/MasR pathway induced sustained vasorelaxation in isolated rat kidneys. • Kinins differentially modulated renal vascular resistance in isolated rat kidneys. • Ang-(1−7) attenuated the sustained BK-mediated vasorelaxation. • Ang-(1−7)/MasR pathway potentiated the DABK/B1R pathway-induced vasoconstriction. [ABSTRACT FROM AUTHOR]

Published

2024

32. PNA6, a Lactosyl Analogue of Angiotensin-(1-7), Reverses Pain Induced in Murine Models of Inflammation, Chemotherapy-Induced Peripheral Neuropathy, and Metastatic Bone Disease

Author

Maha I. Sulaiman, Wafaa Alabsi, Lajos Szabo, Meredith Hay, Robin Polt, Tally M. Largent-Milnes, and Todd W. Vanderah

Subjects

PNA6, Angiotensin-(1-7), mas receptor, breast, cancer, pain, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Pain is the most significant impairment and debilitating challenge for patients with bone metastasis. Therefore, the primary objective of current therapy is to mitigate and prevent the persistence of pain. Thus, cancer-induced bone pain is described as a multifaceted form of discomfort encompassing both inflammatory and neuropathic elements. We have developed a novel non-addictive pain therapeutic, PNA6, that is a derivative of the peptide Angiotensin-(1-7) and binds the Mas receptor to decrease inflammation-related cancer pain. In the present study, we provide evidence that PNA6 attenuates inflammatory, chemotherapy-induced peripheral neuropathy (CIPN) and cancer pain confined to the long bones, exhibiting longer-lasting efficacious therapeutic effects. PNA6, Asp-Arg-Val-Tyr-Ile-His-Ser-(O-β-Lact)-amide, was successfully synthesized using solid phase peptide synthesis (SPPS). PNA6 significantly reversed inflammatory pain induced by 2% carrageenan in mice. A second murine model of platinum drug-induced painful peripheral neuropathy was established using oxaliplatin. Mice in the oxaliplatin-vehicle treatment groups demonstrated significant mechanical allodynia compared to the oxaliplatin-PNA6 treatment group mice. In a third study modeling a complex pain state, E0771 breast adenocarcinoma cells were implanted into the femur of female C57BL/6J wild-type mice to induce cancer-induced bone pain (CIBP). Both acute and chronic dosing of PNA6 significantly reduced the spontaneous pain behaviors associated with CIBP. These data suggest that PNA6 is a viable lead candidate for treating chronic inflammatory and complex neuropathic pain.

Published

2023

33. Effects of different routes and forms of vitamin D administration on CD4+ T cell homeostasis and renin-angiotensin system-associated lung injury in obese mice complicated with polymicrobial sepsis

Author

Chiu-Li Yeh, Jin-Ming Wu, Kuen-Yuan Chen, Ming-Hsun Wu, Po-Jen Yang, Po-Chu Lee, Po-Da Chen, Sung-Ling Yeh, and Ming-Tsan Lin

Subjects

Cholecalciferol, Calcitriol, T helper, T regulatory cell, Angiotensin receptor, Mas receptor, Therapeutics. Pharmacology, RM1-950

Abstract

This study investigated the impacts of enteral cholecalciferol and/or intravenous calcitriol administration on the balance of cluster of differentiation 4-positive T cell subsets, the renin-angiotensin system (RAS), and the severity of acute lung injury (ALI) in obese mice with sepsis. Mice were fed a high-fat diet and then cecal ligation and puncture (CLP) was performed. Obese mice were divided into four sepsis groups: without vitamin D (VD) (S), with oral cholecalciferol 1 d before CLP (G), with intravenous calcitriol 1 h after CLP (V), and with both cholecalciferol before and intravenous calcitriol after CLP (GV). Mice were euthanized after CLP. The V and GV groups showed higher blood T helper (Th)1/Th2 and lower Th17/T regulatory (Treg) ratios than did the S and G groups. In the lungs, The V group had the lowest nuclear factor-κB and interleukin-1β gene expressions among all groups 24 h post-CLP. In parallel, gene expressions of angiotensin type 2 receptor (AT2R), angiotensin-converting enzyme 2 (ACE2), and Mas receptor (MasR) were highest in the V group compared to other groups. The protein levels of MasR in the GV group and the AT2R/AT1R ratio in the V group were higher than those in the G and/or S groups. All of the VD-treated groups had lower injury scores than the S group. These findings suggest that calcitriol administration had more-pronounced impacts on regulating the homeostasis of Th/Treg cells and is prone to RAS-associated anti-inflammatory pathway in the lungs. However, both forms of VD attenuated sepsis-induced ALI in obese animals.

Published

2022

34. Altered heart cytokine profile and action potential modulation in cardiomyocytes from Mas-deficient mice.

Author

Coutinho, Danielle Carvalho Oliveira, Joviano-Santos, Julliane V., Santos-Miranda, Artur, Martins-Júnior, Paulo Antônio, Da Silva, Analina, Santos, Robson Augusto Souza, and Ferreira, Anderson José

Subjects

*ACTION potentials, *RENIN-angiotensin system, *HEART, *CYTOKINES, *KNOCKOUT mice, *CYTOKINE receptors, *ENERGY metabolism, *MICE

Abstract

The renin-angiotensin system (RAS) is a key hormonal system. In recent years, the functional analysis of the novel axis of the RAS (ACE2/Ang-(1–7)/Mas receptor) revealed that its activation can become protective against several pathologies, including cardiovascular diseases. Mas knockout mice (Mas-KO) represent an important tool for new investigations. Indeed, extensive biological research has focused on investigating the functional implications of Mas receptor deletion. However, although the Mas receptor was identified in neonatal cardiomyocytes and also in adult ventricular myocytes, only few reports have explored the Ang-(1–7)/Mas signaling directly in cardiomyocytes to date. This study investigated the implication of Mas receptor knockout to the cytokine profile, energy metabolism, and electrical properties of mice-isolated cardiomyocytes. Here, we demonstrated that Mas-KO mice have modulation in some cytokines, such as G-CSF, IL-6, IL-10, and VEGF in the left ventricle. This model also presents increased mitochondrial number in cardiomyocytes and a reduction in the myocyte diameter. Finally, Mas-KO cardiomyocytes have altered action potential modulation after diazoxide challenge. Such electrical finding was different from the data showed for the TGR(A1-7)3292 (TGR) model, which overexpresses Ang-(1–7) in the plasma by 4.5, used by us as a control. Collectively, our findings exemplify the importance of understanding the ACE2/Ang-(1–7)/Mas pathway in cardiomyocytes and heart tissue. The Mas-KO mice model can be considered an important tool for new RAS investigations. • Mas knockout mice (Mas-KO) have modulation in cytokines from the left ventricle. • Mas-KO animals present increased mitochondrial number in cardiomyocytes. • Mas-KO cardiomyocytes have altered action potential modulation. [ABSTRACT FROM AUTHOR]

Published

2022

35. Involvement of Renin-Angiotensin system (RAS) components in mild traumatic brain injury.

Author

Machado CA, Oliveira BDS, de Barros JLVM, Fernandes HB, de Brito Toscano EC, Kangussu LM, Guimarães PPG, Simões E Silva AC, Teixeira AL, and de Miranda AS

Abstract

The Renin Angiotensin System (RAS) plays a pathophysiological role in traumatic brain injury (TBI) but the evidence of its involvement in mild TBI (mTBI) is still limited. We aimed at investigating the levels of components from both the classical and counter-regulatory axis of the RAS in a mTBI animal model. Mice with mTBI displayed enhanced ACE/Ang II/AT 1 R axis ipsilateral- and contralaterally to the trauma in the hippocampus and prefrontal cortex during acute (24 and 72 h) and later (30 days) timepoints. Increase in Ang-(1-7) levels alongside reduction in Mas receptor expression in hippocampus and prefrontal cortex was also observed after injury. Conversely, mTBI-mice presented higher expression of AT 2 receptor in the contralateral hippocampus and the ipsilateral prefrontal cortex. Importantly, treatment with telmisartan, an AT 1 R blocker, and perindopril, an ACE inhibitor, were able to prevent mTBI-associated locomotor activity impairment and anxiety-like behavior, corroborating the involvement of RAS in the pathophysiology of mTBI. We provided original evidence that components of classical and alternative RAS axes undergo alterations in key brain areas following a mTBI in a time and hemisphere dependent manner. Our findings also open new avenues for investigating the therapeutic potential of RAS components in mTBI., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

36. Therapeutic opportunities in targeting the protective arm of the renin-angiotensin system to improve insulin sensitivity: a mechanistic review.

Author

Dominici FP, Gironacci MM, and Narvaez Pardo JA

Abstract

In recent years, the knowledge of the physiological and pathophysiological roles of the renin-angiotensin system (RAS) in glucose metabolism has advanced significantly. It is now well-established that blockade of the angiotensin AT 1 receptor (AT 1 R) improves insulin sensitivity. Activation of the AT 2 receptor (AT 2 R) and the MAS receptor are significant contributors to this beneficial effect. Elevated availability of angiotensin (Ang) II) for interaction with the AT 2 R and increased Ang-(1-7) formation during AT 1 R blockade mediate these effects. The ongoing development of selective AT 2 R agonists, such as compound 21 and the novel Ang III peptidomimetics, has significantly advanced the exploration of the role of AT 2 R in metabolism and its potential as a therapeutic target. These agents show promise, particularly when RAS inhibition is contraindicated. Additionally, other RAS peptides, including Ang IV, des-Asp-Ang I, Ang-(1-9), and alamandine, hold therapeutic capability for addressing metabolic disturbances linked to type 2 diabetes. The possibility of AT 2 R heteromerization with either AT 1 R or MAS receptor offers an exciting area for future research, particularly concerning therapeutic strategies to improve glycemic control. This review focuses on therapeutic opportunities to improve insulin sensitivity, taking advantage of the protective arm of the RAS., (© 2024. The Author(s), under exclusive licence to The Japanese Society of Hypertension.)

Published

2024

37. Angiotensin-(1-7) improves cognitive function and reduces inflammation in mice following mild traumatic brain injury.

Author

Bruhns, Ryan P., Sulaiman, Maha Ibrahim, Gaub, Michael, Bae, Esther H., Knapp, Rachel B. Davidson, Larson, Anna R., Smith, Angela, Coleman, Deziree L., Staatz, William D., Sandweiss, Alexander J., Joseph, Bellal, Hay, Meredith, Largent-Milnes, Tally M., and Vanderah, Todd W.

Subjects

BRAIN injuries, G protein coupled receptors, COGNITIVE ability, TOTAL body irradiation, INFLAMMATORY mediators, CRASH injuries, APRAXIA

Abstract

Introduction: Traumatic brain injury (TBI) is a leading cause of disability in the US. Angiotensin 1-7 (Ang-1-7), an endogenous peptide, acts at the G protein coupled MAS1 receptors (MASR) to inhibit inflammatory mediators and decrease reactive oxygen species within the CNS. Few studies have identified whether Ang-(1-7) decreases cognitive impairment following closed TBI. This study examined the therapeutic eect of Ang-(1-7) on secondary injury observed in a murine model of mild TBI (mTBI) in a closed skull, single injury model. Materials and methods: Male mice (n = 108) underwent a closed skull, controlled cortical impact injury. Two hours after injury, mice were administered either Ang-(1-7) (n = 12) or vehicle (n = 12), continuing through day 5 post-TBI, and tested for cognitive impairment on days 1-5 and 18. pTau, Tau, GFAP, and serum cytokines were measured at multiple time points. Animals were observed daily for cognition and motor coordination via novel object recognition. Brain sections were stained and evaluated for neuronal injury. Results: Administration of Ang-(1-7) daily for 5 days post-mTBI significantly increased cognitive function as compared to saline control-treated animals. Cortical and hippocampal structures showed less damage in the presence of Ang-(1-7), while Ang-(1-7) administration significantly changed the expression of pTau and GFAP in cortical and hippocampal regions as compared to control. Discussion: These are among the first studies to demonstrate that sustained administration of Ang-(1-7) following a closed-skull, single impact mTBI significantly improves neurologic outcomes, potentially oering a novel therapeutic modality for the prevention of long-term CNS impairment following such injuries. [ABSTRACT FROM AUTHOR]

Published

2022

38. Blockade of endothelial Mas receptor restores the vasomotor response to phenylephrine in human resistance arterioles pretreated with captopril and exposed to propofol.

Author

Schulz, Mary E., Hockenberry, Joseph C., Katunaric, Boran, Pagel, Paul S., and Freed, Julie K.

Subjects

*ENDOTHELIAL cells, *PROPOFOL, *BLOOD vessels, *PHENYLEPHRINE, *CELL receptors, *DRUG resistance, *VASODILATION, *COMPARATIVE studies, *CAPTOPRIL, *VASOCONSTRICTION, *ANGIOTENSIN converting enzyme, *CHEMICAL inhibitors

Abstract

Background: Hypotension that is resistant to phenylephrine is a complication that occurs in anesthetized patients treated with angiotensin converting enzyme (ACE) inhibitors. We tested the hypothesis that Ang 1–7 and the endothelial Mas receptor contribute to vasodilation produced by propofol in the presence of captopril. Methods: The internal diameters of human adipose resistance arterioles were measured before and after administration of phenylephrine (10–9 to 10–5 M) in the presence and absence of propofol (10–6 M; added 10 min before the phenylephrine) or the Mas receptor antagonist A779 (10–5 M; added 30 min before phenylephrine) in separate experimental groups. Additional groups of arterioles were incubated for 16 to 20 h with captopril (10–2 M) or Ang 1–7 (10–9 M) before experimentation with phenylephrine, propofol, and A779. Results: Propofol blunted phenylephrine-induced vasoconstriction in normal vessels. Captopril pretreatment alone did not affect vasoconstriction, but the addition of propofol markedly attenuated the vasomotor response to phenylephrine. A779 alone did not affect vasoconstriction in normal vessels, but it restored vasoreactivity in arterioles pretreated with captopril and exposed to propofol. Ang 1–7 reduced the vasoconstriction in response to phenylephrine. Addition of propofol to Ang 1–7-pretreated vessels further depressed phenylephrine-induced vasoconstriction to an equivalent degree as the combination of captopril and propofol, but A779 partially reversed this effect. Conclusions: Mas receptor activation by Ang 1–7 contributes to phenylephrine-resistant vasodilation in resistance arterioles pretreated with captopril and exposed to propofol. These data suggest an alternative mechanism by which refractory hypotension may occur in anesthetized patients treated with ACE inhibitors. [ABSTRACT FROM AUTHOR]

Published

2022

39. Etiopathophysiological role of the renin–angiotensin–aldosterone system in age‐related muscular weakening: RAAS‐independent beneficial role of ACE2 in muscle weakness.

Author

Fuloria, Shivkanya, Subramaniyan, Vetriselvan, Meenakshi, Dhanalekshmi U., Sekar, Mahendran, Chakravarthi, Srikumar, Kumar, Darnal H., Kumari, Usha, Vanteddu, Venkata G., Patel, Tulsi D., Narra, Kishore, Sharma, Pradeep K., and Fuloria, Neeraj K.

Subjects

MUSCLE weakness, RENIN-angiotensin system, ENDOPLASMIC reticulum, GLUCOSE-regulated proteins, ANGIOTENSIN converting enzyme, BODY composition, ANGIOTENSIN II

Abstract

Aging is accompanied by major changes in body composition that can negatively affect functional status in older adults, including a progressive decrease in muscle mass, strength, and quality. The prevalence of sarcopenia has varied considerably, depending on the definition used and the population surveyed—a 2014 meta‐analysis across several countries found estimates ranging from 1% to 29% for people aged 60 years or older, who live independently. The potentially relevant studies were retrieved from the ScienceDirect/Medline/PubMed/Public library of science/Mendeley/Springer link and Google Scholar. Multiple keywords were used for the literature search both alone and in combination. Some of the important keywords used for literature search were as follows: "Epidemiology of muscle weakness/muscle disorders," "Pathogenesis of RAAS in muscle weakness," "Role of Angiotensin 1–7/ACE‐2/Mas R axis in muscle weakness," and "Correction pathophysiology of muscle weakness via ACE2." The renin–angiotensin system (RAAS), a major blood pressure regulatory system, is a candidate mediator that may promote aging‐associated muscle weakness. Previously, studies explored the proof concept for RAAS inhibition as a therapeutic target. Furthermore, in RAAS, angiotensin II, and angiotensin‐converting enzyme 2 (ACE2) have been reported to induce endoplasmic reticulum (ER) stress via glucose‐regulated protein 78/eukaryotic translation initiation factor 2α (eIF2α)/activating transcription factor 4 (ATF4)/CHOP axis in the liver. In addition, other mitochondria and ER physical interactions contribute to skeletal muscle dysfunction. However, very few studies have investigated the relationship between RAAS and ER stress‐associated pathophysiological events and ACE2‐mediated biological consequences in muscle weakness. Thus, the study has been designed to investigate the RAAS‐independent beneficial role of ACE2 in muscle weakness. [ABSTRACT FROM AUTHOR]

Published

2022

40. CoQ10 augments candesartan protective effect against tourniquet-induced hind limb ischemia-reperfusion: Involvement of non-classical RAS and ROS pathways

Author

Azza S. Awad, Mahmoud Nour El-Din, and Rehab Kamel

Subjects

Candesartan, CoQ10, ACE-2, Renin angiotensin system, Tourniquet, Mas receptor, Therapeutics. Pharmacology, RM1-950

Abstract

Tourniquet is a well-established model of hind limb ischemia–reperfusion (HLI/R) in rats. Nevertheless, measures should be taken to alleviate the expected injury from ischemia/ reperfusion (I/R). In the present study, 30 adult male Sprague-Dawley rats were randomly divided into 5 groups (n = 6): control, HLI/R, HLI/R given candesartan (1 mg/kg, P.O); HLI/R given Coenzyme Q10 (CoQ10) (10 mg/kg, P.O); HLI/R given candesartan (0.5 mg/kg) and CoQ10 (5 mg/kg). The drugs were administered for 7 days starting one hour after reperfusion. Candesartan and CoQ10 as well as their combination suppressed gastrocnemius content of angiotensin II while they raised angiotensin-converting enzyme 2 (ACE2) activity, angiotensin (1–7) expression, and Mas receptor mRNA level. Consequently, candesartan and/or CoQ10 reversed the oxidative stress and inflammatory changes that occurred following HLI/R as demonstrated by the rise of SOD activity and the decline of MDA, TNF-α, and IL-6 skeletal muscle content. Additionally, candesartan and/or CoQ10 diminished gastrocnemius active caspase-3 level and phospho-p38 MAPK protein expression. Our study proved that CoQ10 enhanced the beneficial effect of candesartan in a model of tourniquet-induced HLI/R by affecting classical and non-classical renin-angiotensin system (RAS) pathway. To our knowledge, this is the first study showing the impact of CoQ10 on skeletal muscle RAS in rats.

Published

2021

41. Angiotensin-(1-7) and Mas receptor in the brain

Author

Natalia L. Rukavina Mikusic, Angélica M. Pineda, and Mariela M. Gironacci

Subjects

angiotensin-(1-7), mas receptor, brain, neuroprotection, Other systems of medicine, RZ201-999

Abstract

The renin-angiotensin system (RAS) is a key regulator of blood pressure and electrolyte homeostasis. Besides its importance as regulator of the cardiovascular function, the RAS has also been associated to the modulation of higher brain functions, including cognition, memory, depression and anxiety. For many years, angiotensin II (Ang II) has been considered the major bioactive component of the RAS. However, the existence of many other biologically active RAS components has currently been recognized, with similar, opposite, or distinct effects to those exerted by Ang II. Today, it is considered that the RAS is primarily constituted by two opposite arms. The pressor arm is composed by Ang II and the Ang II type 1 (AT1) receptor (AT1R), which mediates the vasoconstrictor, proliferative, hypertensive, oxidative and pro-inflammatory effects of the RAS. The depressor arm is mainly composed by Ang-(1-7), its Mas receptor (MasR) which mediates the depressor, vasodilatory, antiproliferative, antioxidant and anti-inflammatory effects of Ang-(1-7) and the AT2 receptor (AT2R), which opposes to the effects mediated by AT1R activation. Central Ang-(1-7) is implicated in the control of the cardiovascular function, thus participating in the regulation of blood pressure. Ang-(1-7) also exerts neuroprotective actions through MasR activation by opposing to the harmful effects of the Ang II/AT1R axis. This review is focused on the expression and regulation of the Ang-(1-7)/MasR axis in the brain, its main neuroprotective effects and the evidence regarding its involvement in the pathophysiology of several diseases at cardiovascular and neurological level.

Published

2021

42. Targeting renal damage: The ACE2/Ang-(1–7)/mas axis in chronic kidney disease.

Author

Zheng, Jian and Hao, Hua

Subjects

*RENAL fibrosis, *CHRONIC kidney failure, *KIDNEY physiology, *ANGIOTENSIN converting enzyme, *ANIMAL models in research

Abstract

The renin–angiotensin system (RAS) is a crucial factor in chronic kidney disease (CKD) progression, affecting renal function and contributing significantly to renal tissue inflammation and fibrosis. Activation of the classical ACE/Ang II/AT1 axis exacerbates renal damage, while the ACE2/Ang-(1–7)/Mas axis has shown promise in reducing CKD progression in numerous animal models. Recently, the ACE2/Ang-(1–7)/Mas axis has emerged as a promising target for CKD interventions. This review provides a comprehensive review of the pivotal role of this axis in CKD pathogenesis and systematically examines various molecules and pharmaceutical agents targeting this pathway. This review aims to elucidate potential strategies for delaying or halting CKD progression, offering patients more effective treatment options. • The ACE2/Ang-(1–7)/MasR axis shows renoprotection, contrasting classical RAS. • The ACE2/Ang-(1–7)/MasR axis curbs inflammation and fibrosis, slowing CKD progression. • Targeting the ACE2/Ang-(1–7)/MasR axis in CKD treatment is a promising strategy. [ABSTRACT FROM AUTHOR]

Published

2024

43. Angiotensin-(1-7) improves cognitive function and reduces inflammation in mice following mild traumatic brain injury

Author

Ryan P. Bruhns, Maha Ibrahim Sulaiman, Michael Gaub, Esther H. Bae, Rachel B. Davidson Knapp, Anna R. Larson, Angela Smith, Deziree L. Coleman, William D. Staatz, Alexander J. Sandweiss, Bellal Joseph, Meredith Hay, Tally M. Largent-Milnes, and Todd W. Vanderah

Subjects

traumatic brain injury, angiotensin 1-7, Mas receptor, cognitive impairment, pTau, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionTraumatic brain injury (TBI) is a leading cause of disability in the US. Angiotensin 1-7 (Ang-1-7), an endogenous peptide, acts at the G protein coupled MAS1 receptors (MASR) to inhibit inflammatory mediators and decrease reactive oxygen species within the CNS. Few studies have identified whether Ang-(1-7) decreases cognitive impairment following closed TBI. This study examined the therapeutic effect of Ang-(1-7) on secondary injury observed in a murine model of mild TBI (mTBI) in a closed skull, single injury model.Materials and methodsMale mice (n = 108) underwent a closed skull, controlled cortical impact injury. Two hours after injury, mice were administered either Ang-(1-7) (n = 12) or vehicle (n = 12), continuing through day 5 post-TBI, and tested for cognitive impairment on days 1–5 and 18. pTau, Tau, GFAP, and serum cytokines were measured at multiple time points. Animals were observed daily for cognition and motor coordination via novel object recognition. Brain sections were stained and evaluated for neuronal injury.ResultsAdministration of Ang-(1-7) daily for 5 days post-mTBI significantly increased cognitive function as compared to saline control-treated animals. Cortical and hippocampal structures showed less damage in the presence of Ang-(1-7), while Ang-(1-7) administration significantly changed the expression of pTau and GFAP in cortical and hippocampal regions as compared to control.DiscussionThese are among the first studies to demonstrate that sustained administration of Ang-(1-7) following a closed-skull, single impact mTBI significantly improves neurologic outcomes, potentially offering a novel therapeutic modality for the prevention of long-term CNS impairment following such injuries.

Published

2022

44. Cross-Talk between CB 1 , AT 1 , AT 2 and Mas Receptors Responsible for Blood Pressure Control in the Paraventricular Nucleus of Hypothalamus in Conscious Spontaneously Hypertensive Rats and Their Normotensive Controls.

Author

Mińczuk, Krzysztof, Schlicker, Eberhard, and Malinowska, Barbara

Subjects

*BLOOD pressure, *PARAVENTRICULAR nucleus, *HYPERTENSION, *REGULATION of blood pressure, *ANGIOTENSIN II, *CANNABINOID receptors, *HYPOTHALAMUS

Abstract

We have previously shown that in urethane-anaesthetized rats, intravenous injection of the angiotensin II (Ang II) AT1 receptor antagonist losartan reversed the pressor effect of the cannabinoid CB1 receptor agonist CP55940 given in the paraventricular nucleus of hypothalamus (PVN). The aim of our study was to determine the potential interactions in the PVN between CB1 receptors and AT1 and AT2 receptors for Ang II and Mas receptors for Ang 1–7 in blood pressure regulation in conscious spontaneously hypertensive (SHR) and normotensive Wistar Kyoto (WKY) rats. The pressor effects of Ang II, Ang 1–7 and CP55940 microinjected into the PVN were stronger in SHRs than in WKYs. Increases in blood pressure in response to Ang II were strongly inhibited by antagonists of AT1 (losartan), AT2 (PD123319) and CB1 (AM251) receptors, to Ang 1–7 by a Mas antagonist (A-779) and AM251 and to CP55940 by losartan, PD123319 and A-779. Higher (AT1 and CB1) and lower (AT2 and Mas) receptor expression in the PVN of SHR compared to WKY may partially explain the above differences. In conclusion, blood pressure control in the PVN depends on the mutual interaction of CB1, AT1, AT2 and Mas receptors in conscious spontaneously hypertensive rats and their normotensive controls. [ABSTRACT FROM AUTHOR]

Published

2022

45. Glycosylated Ang-(1-7) MasR Agonist Peptide Poly Lactic-co-Glycolic Acid (PLGA) Nanoparticles and Microparticles in Cognitive Impairment: Design, Particle Preparation, Physicochemical Characterization, and In Vitro Release.

Author

Encinas-Basurto, David, Konhilas, John P., Polt, Robin, Hay, Meredith, and Mansour, Heidi M.

Subjects

*BIODEGRADABLE nanoparticles, *PEPTIDES, *COGNITION disorders, *MOLECULAR spectroscopy, *DNA fingerprinting, *ETHYLCELLULOSE, *ALZHEIMER'S disease

Abstract

Heart failure (HF) causes decreased brain perfusion in older adults, and increased brain and systemic inflammation increases the risk of cognitive impairment and Alzheimer's disease (AD). Glycosylated Ang-(1-7) MasR agonists (PNA5) has shown improved bioavailability, stability, and brain penetration compared to Ang-(1-7) native peptide. Despite promising results and numerous potential applications, clinical applications of PNA5 glycopeptide are limited by its short half-life, and frequent injections are required to ensure adequate treatment for cognitive impairment. Therefore, sustained-release injectable formulations of PNA5 glycopeptide are needed to improve its bioavailability, protect the peptide from degradation, and provide sustained drug release over a prolonged time to reduce injection administration frequency. Two types of poly(D,L-lactic-co-glycolic acid) (PLGA) were used in the synthesis to produce nanoparticles (≈0.769–0.35 µm) and microparticles (≈3.7–2.4 µm) loaded with PNA5 (ester and acid-end capped). Comprehensive physicochemical characterization including scanning electron microscopy, thermal analysis, molecular fingerprinting spectroscopy, particle sizing, drug loading, encapsulation efficiency, and in vitro drug release were conducted. The data shows that despite the differences in the size of the particles, sustained release of PNA5 was successfully achieved using PLGA R503H polymer with high drug loading (% DL) and high encapsulation efficiency (% EE) of >8% and >40%, respectively. While using the ester-end PLGA, NPs showed poor sustained release as after 72 h, nearly 100% of the peptide was released. Also, lower % EE and % DL values were observed (10.8 and 3.4, respectively). This is the first systematic and comprehensive study to report on the successful design, particle synthesis, physicochemical characterization, and in vitro glycopeptide drug release of PNA5 in PLGA nanoparticles and microparticles. [ABSTRACT FROM AUTHOR]

Published

2022

46. Kidney

Author

Simões e Silva, Ana Cristina, Santos, Robson Augusto Souza, and Santos, Robson Augusto Souza, editor

Published

2019

47. Blood Vessels : Ang-(1-7) and Vessels

Author

Sampaio, Walyria O., Touyz, Rhian M., and Santos, Robson Augusto Souza, editor

Published

2019

48. Brain

Author

Campagnole-Santos, Maria Jose, Gironacci, Mariela M., Fontes, Marco Antônio Peliky, and Santos, Robson Augusto Souza, editor

Published

2019

49. Angiotensin-(1-7): Role in the Endocrine System

Author

Santos, Sérgio Henrique Sousa and Santos, Robson Augusto Souza, editor

Published

2019

50. Activation of the angiotensin II receptor promotes autophagy in renal proximal tubular cells and affords protection from ischemia/reperfusion injury

Author

Hirohito Sugawara, Norihito Moniwa, Atsushi Kuno, Wataru Ohwada, Arata Osanami, Satoru Shibata, Yukishige Kimura, Koki Abe, Yufu Gocho, Masaya Tanno, and Tetsuji Miura

Subjects

Acute kidney injury, AT1 receptor, Autophagy, Ischemia-reperfusion injury, Mas receptor, Therapeutics. Pharmacology, RM1-950

Abstract

Roles of the renin-angiotensin system in autophagy and ischemia/reperfusion (I/R) injury in the kidney have not been fully characterized. Here we examined the hypothesis that modest activation of the angiotensin II (Ang II) receptor upregulates autophagy and increases renal tolerance to I/R injury. Sprague–Dawley rats were assigned to treatment with a vehicle or a non-pressor dose of Ang II (200 ng/kg/min) for 72 h before 30-min renal I/R. LC3-immunohistochemistry showed that Ang II treatment increased autophagosomes in proximal tubular cells by 2.7 fold. In Ang II-pretreated rats, autophagosomes were increased by 2.5 fold compared to those in vehicle-treated rats at 4 h after I/R, when phosphorylation of Akt and S6 was suppressed and ULK1-Ser555 phosphorylation was increased. Serum creatinine and urea nitrogen levels, incidence of oliguria, and histological score of tubular necrosis at 24 h after I/R were attenuated by Ang II-pretreatment. In NRK-52E cells, Ang II induced LC3-II upregulation, which was inhibited by losartan but not by A779. The results indicate that a non-pressor dose of Ang-II promotes autophagy via ULK1-mediated signaling in renal tubular cells and attenuates renal I/R injury. The AT1 receptor, but not the Mas receptor, contributes to Ang–II–induced autophagy and presumably also to the renoprotection.

Published

2021