ACE2/Ang-(1–7)/Mas axis stimulates vascular repair-relevant functions of CD34<sup>+</sup>cells

Singh, Neha; Joshi, Shrinidh; Guo, Lirong; Baker, Matthew B.; Li, Yan; Castellano, Ronald K.; Raizada, Mohan K.; Jarajapu, Yagna

doi:10.1152/ajpheart.00854.2014

Cited by 39 publications

(40 citation statements)

References 55 publications

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“…4 C ). In agreement with this and our previous studies in human CD34 + cells (19), SDF- or VEGF-induced migration of LSK cells in vitro was attenuated by Y-27632, a ROCK inhibitor ( P < 0.05, vs. SDF) (Fig. 4 E ).…”

Section: Resultssupporting

confidence: 92%

Reversal of Bone Marrow Mobilopathy and Enhanced Vascular Repair by Angiotensin-(1-7) in Diabetes

et al. 2016

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The angiotensin (ANG)-(1-7)/Mas receptor (MasR) pathway activates vascular repair–relevant functions of bone marrow progenitor cells. We tested the effects of ANG-(1-7) on mobilization and vasoreparative functions of progenitor cells that are impaired in diabetes. The study was performed in streptozotocin-induced diabetic (db/db) mice. Diabetes resulted in a decreased number of Lineage−Sca-1+c-Kit+ (LSK) cells in the circulation, which was normalized by ANG-(1-7). Diabetes-induced depletion of LSK cells in the bone marrow was reversed by ANG-(1-7). ρ-Kinase (ROCK) activity was increased specifically in bone marrow LSK cells by ANG-(1-7) in diabetes, and the beneficial effects of ANG-(1-7) were prevented by fasudil. ANG-(1-7) increased Slit3 levels in the bone marrow supernatants, which activated ROCK in LSK cells and sensitized them for stromal-derived factor-1α (SDF)–induced migration. Diabetes prevented the mobilization of LSK cells in response to ischemia and impaired the recovery of blood flow, both of which were reversed by ANG-(1-7) in both models of diabetes. Genetic ablation of MasR prevented ischemia-induced mobilization of LSK cells and impaired blood flow recovery, which was associated with decreased proliferation and migration of LSK cells in response to SDF or vascular endothelial growth factor. These results suggest that MasR is a promising target for the treatment of diabetic bone marrow mobilopathy and vascular disease.

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Section: Resultssupporting

confidence: 92%

Reversal of Bone Marrow Mobilopathy and Enhanced Vascular Repair by Angiotensin-(1-7) in Diabetes

et al. 2016

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“…Recent studies showed that local RAS modulate hematopoietic and cardiovascular reparative functions of BMSPCs (Rodgers and diZerega, 2013). We and others have shown evidence for the expression of mRNA and protein of ACE or ACE2 in human and mouse BMSPCs (Abali et al, 2002; Oliveira et al, 2010; Thatcher et al, 2011; Jarajapu et al, 2013; Singh et al, 2015). …”

Section: Introductionmentioning

confidence: 78%

Angiotensin converting enzyme versus angiotensin converting enzyme-2 selectivity of MLN-4760 and DX600 in human and murine bone marrow-derived cells

Joshi

Balasubramanian

Vasam

et al. 2016

European Journal of Pharmacology

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Angiotensin-converting enzymes, ACE and ACE2, are key members of renin angiotensin system. Activation of ACE2/Ang-(1-7) pathway enhances cardiovascular protective functions of bone marrow-derived stem/progenitor cells. The current study evaluated the selectivity of ACE2 inhibitors, MLN-4760 and DX-600, and ACE and ACE2 activities in human (hu) and murine (mu) bone marrow cells. Assays were carried out in hu and mu mononuclear cells (MNCs) and huCD34+ cells or mu-lineage-depleted (muLin-) cells, human-recombinant (rh) enzymes, and mu-heart with enzyme-specific substrates. ACE or ACE2 inhibition by racemic MLN-4760, its isomers MLN-4760-A and MLN-4760-B, DX600 and captopril were characterized. MLN-4760-B is relatively less efficacious and less-selective than the racemate or MLN-4760-A at hu-rhACE2, and all three of them inhibited 43% rhACE. In huMNCs, MLN-4760-B detected 63% ACE2 with 28-fold selectivity over ACE. In huCD34+ cells, MLN-4760-B detected 38% of ACE2 activity with 63-fold selectivity. In mu-heart and muMNCs, isomer B was 100- and 228-fold selective for ACE2, respectively. In muLin- cells, MLN-4760-B detected 25% ACE2 activity with a pIC50 of 6.3. The racemic mixture and MLN-4760-A showed lower efficacy and poor selectivity for ACE2 in MNCs and mu-heart. ACE activity detected by captopril was 32 and 19%, respectively, in huCD34+ and muLin- cells. DX600 was less efficacious, and more selective for ACE2 compared to MLN-4760-B in all samples tested. These results suggest that MLN-4760-B is a better antagonist of ACE2 than DX600 at 10μM concentration in human and murine bone marrow cells, and that these cells express more functional ACE2 than ACE.

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“…XNT adminstration also prevented the increase in right ventricular systolic pressure and hypertrophy in a monocrotaline-induced pulmonary hypertension model (169) and attenuated thrombus formation in SHR (190). Numerous protective effects have been reported with diminazene aceturate (DIZE), another putative ACE2 activator (102,118,119,184,186,335,341,357,429,445,511,513,535,566). It should be pointed out, however, that the beneficial effects of these small-molecule activators might also depend on ACE2-independent mechanisms (234).…”

Section: Pharmacological Toolsmentioning

confidence: 99%

The ACE2/Angiotensin-(1–7)/MAS Axis of the Renin-Angiotensin System: Focus on Angiotensin-(1–7)

Santos

Sampaio

Alzamora

et al. 2018

Physiological Reviews

887

906

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The renin-angiotensin system (RAS) is a key player in the control of the cardiovascular system and hydroelectrolyte balance, with an influence on organs and functions throughout the body. The classical view of this system saw it as a sequence of many enzymatic steps that culminate in the production of a single biologically active metabolite, the octapeptide angiotensin (ANG) II, by the angiotensin converting enzyme (ACE). The past two decades have revealed new functions for some of the intermediate products, beyond their roles as substrates along the classical route. They may be processed in alternative ways by enzymes such as the ACE homolog ACE2. One effect is to establish a second axis through ACE2/ANG-(1-7)/MAS, whose end point is the metabolite ANG-(1-7). ACE2 and other enzymes can form ANG-(1-7) directly or indirectly from either the decapeptide ANG I or from ANG II. In many cases, this second axis appears to counteract or modulate the effects of the classical axis. ANG-(1-7) itself acts on the receptor MAS to influence a range of mechanisms in the heart, kidney, brain, and other tissues. This review highlights the current knowledge about the roles of ANG-(1-7) in physiology and disease, with particular emphasis on the brain.

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ACE2/Ang-(1–7)/Mas axis stimulates vascular repair-relevant functions of CD34⁺cells

Cited by 39 publications

References 55 publications

Reversal of Bone Marrow Mobilopathy and Enhanced Vascular Repair by Angiotensin-(1-7) in Diabetes

Reversal of Bone Marrow Mobilopathy and Enhanced Vascular Repair by Angiotensin-(1-7) in Diabetes

Angiotensin converting enzyme versus angiotensin converting enzyme-2 selectivity of MLN-4760 and DX600 in human and murine bone marrow-derived cells

The ACE2/Angiotensin-(1–7)/MAS Axis of the Renin-Angiotensin System: Focus on Angiotensin-(1–7)

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ACE2/Ang-(1–7)/Mas axis stimulates vascular repair-relevant functions of CD34+cells

Cited by 39 publications

References 55 publications

Reversal of Bone Marrow Mobilopathy and Enhanced Vascular Repair by Angiotensin-(1-7) in Diabetes

Reversal of Bone Marrow Mobilopathy and Enhanced Vascular Repair by Angiotensin-(1-7) in Diabetes

Angiotensin converting enzyme versus angiotensin converting enzyme-2 selectivity of MLN-4760 and DX600 in human and murine bone marrow-derived cells

The ACE2/Angiotensin-(1–7)/MAS Axis of the Renin-Angiotensin System: Focus on Angiotensin-(1–7)

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ACE2/Ang-(1–7)/Mas axis stimulates vascular repair-relevant functions of CD34⁺cells