Role of the plasma membrane ROS-generating NADPH oxidase in CD34+ progenitor cells preservation by hypoxia

Fan, Jinli; Cai, Haibo; Tan, Wen‐Song

doi:10.1016/j.jbiotec.2007.05.023

Cited by 55 publications

(40 citation statements)

References 34 publications

(33 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…9 We previously reported that Nox2-derived ROS play an important role in VEGF signaling linked to EC migration and proliferation, as well as reparative angiogenesis in response to hindlimb ischemia in vivo. 11,12 Increasing evidence suggests that ROS are generated by NADPH oxidase in EPCs and stem/progenitor cells, [13][14][15] which are involved in differentiation, proliferation, senescence, or apoptosis depending on cell types and amount of ROS. However, the role of Nox2-based NADPH oxidase in BM and EPCs/progenitor cell function linked to postnatal vasculogenesis remains unknown.…”

mentioning

confidence: 99%

Role of Nox2-Based NADPH Oxidase in Bone Marrow and Progenitor Cell Function Involved in Neovascularization Induced by Hindlimb Ischemia

Urao

Inomata

Razvi

et al. 2008

Circulation Research

169

176

View full text Add to dashboard Cite

Abstract-Bone marrow (BM) is the major reservoir for endothelial progenitor cells (EPCs). Postnatal neovascularization depends on not only angiogenesis but also vasculogenesis, which is mediated through mobilization of EPCs from BM and their recruitment to the ischemic sites. Reactive oxygen species (ROS) derived from Nox2-based NADPH oxidase play an important role in postnatal neovascularization; however, their role in BM and EPC function is unknown. Here we show that hindlimb ischemia of mice significantly increases Nox2 expression and ROS production in BMmononuclear cells (BMCs), which is associated with an increase in circulating EPC-like cells. Mice lacking Nox2 show reduction of ischemia-induced flow recovery, ROS levels in BMCs, as well as EPC mobilization from BM. Transplantation of wild-type (WT)-BM into Nox2-deficient mice rescues the defective neovascularization, whereas WT mice transplanted with Nox2-deficient BM show reduced flow recovery and capillary density compared to WT-BM transplanted control. Intravenous infusion of WT-and Nox2-deficient BMCs into WT mice reveals that neovascularization and homing capacity are impaired in Nox2-deficient BMCs in vivo. In vitro, Nox2-deficient c-kit ϩ Lin Ϫ BM stem/progenitor cells show impaired chemotaxis and invasion as well as polarization of actins in response to stromal derived factor (SDF), which is associated with blunted SDF-1-mediated phosphorylation of Akt. In conclusion, Nox2-derived ROS in BM play a critical role in mobilization, homing, and angiogenic capacity of EPCs and BM stem/progenitor cells, thereby promoting revascularization of ischemic tissue. Thus, NADPH oxidase in BM and EPCs is potential therapeutic targets for promoting neovascularization in ischemic cardiovascular diseases. (Circ Res. 2008;103:212-220.)

show abstract

mentioning

confidence: 99%

Role of Nox2-Based NADPH Oxidase in Bone Marrow and Progenitor Cell Function Involved in Neovascularization Induced by Hindlimb Ischemia

Urao

Inomata

Razvi

et al. 2008

Circulation Research

169

176

View full text Add to dashboard Cite

show abstract

“…DCFH 2 has also been used as a general indicator of the redox status of HSCs and HPCs (Abbas et al, 2010;Chen et al, 2008a;Chuikov et al, 2010;Fan et al, 2007;Hosokawa et al, 2007;Jang and Sharkis, 2007;Jung et al, 2013;Juntilla et al, 2010;Liu et al, 2009;Pazhanisamy et al, 2011;Piccoli et al, 2007a;Shao et al, 2014;Yahata et al, 2011) (Table 1) (Folkes et al, 2009). Second, the efficiency of oxidation of the intermediate DCFH 2 probe radical into the final product depends on the environmental oxygen concentration (Wrona and Wardman, 2006).…”

Section: Non-specific Detection Of Ros and Rns: Dcfhmentioning

confidence: 99%

“…Second, the efficiency of oxidation of the intermediate DCFH 2 probe radical into the final product depends on the environmental oxygen concentration (Wrona and Wardman, 2006). This issue is of particular importance when DCFH 2 is used as a probe to study the effect of the O 2 concentration on ROS generation in HSCs and HPCs (Fan et al, 2007;Hao et al, 2011). Third, cellular conditions may also alter the oxidation efficiency of DCFH 2 .…”

Section: Non-specific Detection Of Ros and Rns: Dcfhmentioning

confidence: 99%

Reliability of ROS and RNS detection in hematopoietic stem cells − potential issues with probes and target cell population

Vlaski‐Lafarge

Ivanović

2015

Journal of Cell Science

View full text Add to dashboard Cite

Many studies have provided evidence for the crucial role of the reactive oxygen species (ROS) and reactive nitrogen species (RNS) in the regulation of differentiation and/or self-renewal, and the balance between quiescence and proliferation of hematopoietic stem cells (HSCs). Several metabolic regulators have been implicated in the maintenance of HSC redox homeostasis; however, the mechanisms that are regulated by ROS and RNS, as well as their downstream signaling are still elusive. This is partially owing to a lack of suitable methods that allow unequivocal and specific detection of ROS and RNS. In this Opinion, we first discuss the limitations of the commonly used techniques for detection of ROS and RNS, and the problem of heterogeneity of the cell population used in redox studies, which, together, can result in inaccurate conclusions regarding the redox biology of HSCs. We then propose approaches that are based on single-cell analysis followed by a functional test to examine ROS and RNS levels specifically in HSCs, as well as methods that might be used in vivo to overcome these drawbacks, and provide a better understanding of ROS and RNS function in stem cells.

show abstract

“…15 In particular, the coexistence in EPCs of different types of ROS generators with different modalities of activation may result in a sophisticated mechanism of redox signaling that can control the balance among cell growth, proliferation and differentiation. 17,18 The NADP + -Noxs, multisubunit membrane-associated enzymes that catalyze the one-electron reduction of oxygen using NADH or NADPH as the electron donor represent an important source of ROS for EPCs. 18,19 The Noxs, including the isoform containing the gp91phox or Nox2 isoform, are sensitively modulated by a wide range of factors, 20,21 including angiotensin-II (AngII), 21 the main effector of the renin-Ang system, which modulates vascular functions and arterial pressure.…”

Section: Introductionmentioning

confidence: 99%

“…17,18 The NADP + -Noxs, multisubunit membrane-associated enzymes that catalyze the one-electron reduction of oxygen using NADH or NADPH as the electron donor represent an important source of ROS for EPCs. 18,19 The Noxs, including the isoform containing the gp91phox or Nox2 isoform, are sensitively modulated by a wide range of factors, 20,21 including angiotensin-II (AngII), 21 the main effector of the renin-Ang system, which modulates vascular functions and arterial pressure. AngII seems to accelerate the onset of senescence in EPCs isolated from healthy individuals via stimulation of gp91phox expression and ROS production.…”

Section: Introductionmentioning

confidence: 99%

Circulating progenitor cells are increased in newly diagnosed untreated hypertensive patients with arterial stiffening but normal carotid intima-media thickness

et al. 2011

View full text Add to dashboard Cite

Circulating progenitor cells (CPCs), including endothelial progenitor cells (EPCs), have a key role in endothelium repair. Cellular NADPH oxidase (Nox) enzymes, including Nox-containing gp91phox, represent a source of reactive oxygen species (ROS); ROS trigger protective signals but may also have detrimental effects. Cellular defenses against ROS include the enzymes manganese superoxide dismutase (MnSOD), catalase (CAT) and glutathione peroxidase type-1 (GPx-1). We investigated the relationships of CPCs with cellular gp91phox, MnSOD, CAT, GPx-1 and ROS levels and with carotid intima-media thickness (cIMT) and stiffness in hypertensives without additional risk factors for cardiovascular disease. CPCs from 53 newly diagnosed, untreated hypertensives and from 29 controls were isolated and identified by flow cytometry. gp91phox, MnSOD, CAT, and GPx-1 mRNA and protein expression and ROS generation were evaluated in enriched samples of CD34 + cells; cIMT and stiffness were assessed. Hypertensives showed higher arterial stiffness (Po0.001) but no difference in cIMT with respect to controls. ROS generation was slightly increased (P¼0.04), whereas gp91phox, MnSOD, CAT and GPx-1 were significantly higher (Po0.001) with respect to controls, as was CPC number (Po0.001), but EPCs were no different. CPC and EPC numbers correlated with gp91phox, ROS and fibrinogen (Po0.001); moreover, gp91phox, MnSOD, CAT and GPx-1 were correlated with CPC number. In early phases of arterial hypertension, before the development of wall thickening and even in the presence of arterial mechanical impairment, CPC number may be increased to maintain an adequate number of EPCs in peripheral blood.

show abstract

Role of the plasma membrane ROS-generating NADPH oxidase in CD34+ progenitor cells preservation by hypoxia

Cited by 55 publications

References 34 publications

Role of Nox2-Based NADPH Oxidase in Bone Marrow and Progenitor Cell Function Involved in Neovascularization Induced by Hindlimb Ischemia

Role of Nox2-Based NADPH Oxidase in Bone Marrow and Progenitor Cell Function Involved in Neovascularization Induced by Hindlimb Ischemia

Reliability of ROS and RNS detection in hematopoietic stem cells − potential issues with probes and target cell population

Circulating progenitor cells are increased in newly diagnosed untreated hypertensive patients with arterial stiffening but normal carotid intima-media thickness

Contact Info

Product

Resources

About