Hypoxia-induced endothelial CX3CL1 triggers lung smooth muscle cell phenotypic switching and proliferative expansion

Zhang, Jianliang; Hao, Hu; Palma, Nadia L.; Harrison, Jeffrey K.; Mubarak, Kamal K.; Carrie, Robin D.; Alnuaimat, Hassan; Luo, Defang; Patel, Jawaharlal M.

doi:10.1152/ajplung.00014.2012

Cited by 33 publications

(26 citation statements)

References 60 publications

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“…Secondary to hypoxia, increases in the local levels of TNF α , IFN γ , and IL-1 β potentiate the angiogenic action of CX3CL1 that is simply correlated with an increase in the concentration of this chemokine [28, 29, 37]. CX3CL1 stimulates ex vivo and in vivo angiogenesis in a dose- and time-dependent manner and acts on endothelial cells even more strongly than the well-known angiogenic factor VEGF [29].…”

Section: Discussionmentioning

confidence: 99%

Fractalkine (CX3CL1) and Its Receptor CX3CR1 May Contribute to Increased Angiogenesis in Diabetic Placenta

Szukiewicz

Kochanowski

Pyźlak

et al. 2013

Mediators of Inflammation

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Chemokine CX3CL1 is unique, possessing the ability to act as a dual agent: chemoattractant and adhesive compound. Acting via its sole receptor CX3CR1, CX3CL1 participates in many processes in human placental tissue, including inflammation and angiogenesis. Strongly upregulated by hypoxia and/or inflammation-induced inflammatory cytokines secretion, CX3CL1 may act locally as a key angiogenic factor. Both clinical observations and histopathological studies of the diabetic placenta have confirmed an increased incidence of hypoxia and inflammatory reactions with defective angiogenesis. In this study we examined comparatively (diabetes class C complicated versus normal pregnancy) the correlation between CX3CL1 content in placental tissue, the mean CX3CR1 expression, and density of the network of placental microvessels. A sandwich enzyme immunoassay was applied for CX3CL1 measurement in placental tissue homogenates, whereas quantitative immunohistochemical techniques were used for the assessment of CX3CR1 expression and the microvascular density. Significant differences have been observed for all analyzed parameters between the groups. The mean concentration of CX3CL1 in diabetes was increased and accompanied by augmented placental microvessel density as well as a higher expression of CX3CR1. In conclusion, we suggest involvement of CX3CL1/CX3CR1 signaling pathway in the pathomechanism of placental microvasculature remodeling in diabetes class C.

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Section: Discussionmentioning

confidence: 99%

Fractalkine (CX3CL1) and Its Receptor CX3CR1 May Contribute to Increased Angiogenesis in Diabetic Placenta

Szukiewicz

Kochanowski

Pyźlak

et al. 2013

Mediators of Inflammation

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“…Hypoxia [ 82 ], vascular injury [ 83 ], and chronic inflammation accompanied by elevated Type I IFNs [ 84 ] are known to activate EC mobilization for angiogenesis, which in turn leads to the production of adhesion molecules, cytokines, and chemokines. These pro-inflammatory signals stimulate SMC proliferation, migration, and secretion of extracellular matrix, causing neointimal formation [ 85 ].…”

Section: Hypothetical Pathological Roles Of Rnf213 R4810k In MMDmentioning

confidence: 99%

A new horizon of moyamoya disease and associated health risks explored through RNF213

Koizumi

Kobayashi

Hitomi

et al. 2015

Environ Health Prev Med

103

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The cerebrovascular disorder moyamoya disease (MMD) was first described in 1957 in Japan, and is typically considered to be an Asian-specific disease. However, it is globally recognized as one of the major causes of childhood stroke. Although several monogenic diseases are known to be complicated by Moyamoya angiopathy, the ring finger protein 213 gene (RNF213) was identified as a susceptibility gene for MMD. RNF213 is unusual, because (1) it induces MMD with no other recognizable phenotypes, (2) the RNF213 p.R4810K variant is an Asian founder mutation common to Japanese, Korean and Chinese with carrier rates of 0.5–2 % of the general population but a low penetrance, and (3) it encodes a relatively largest proteins with a dual AAA+ ATPase and E3 Ligase activities. In this review, we focus on the genetics and genetic epidemiology of RNF213, the pathology of RNF213 R4810K, and the molecular functions of RNF213, and also address the public health contributions to current unresolved issues of MMD. We also emphasize the importance of a more updated definition for MMD, of qualified cohort studies based on genetic epidemiology and an awareness of the ethical issues associated with genetic testing of carriers.Electronic supplementary materialThe online version of this article (doi:10.1007/s12199-015-0498-7) contains supplementary material, which is available to authorized users.

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“…Hypoxia led to reduced CX3CL1 release of endothelial cells in vitro 43 . Of note, pulmonary endothelial cells responded differently 44 . Receptor internalization after ligand binding could be an alternative explanation for reduced CX3CR1 expression and CX3CL1 at the culprit site, however, our in vitro data do not support this hypothesis.…”

Section: Discussionmentioning

confidence: 99%

Neutrophil extracellular traps and monocyte subsets at the culprit lesion site of myocardial infarction patients

Mangold

Hofbauer

Ondracek

et al. 2019

Sci Rep

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Neutrophils release their chromatin into the extracellular space upon activation. These web-like structures are called neutrophil extracellular traps (NETs) and have potent prothrombotic and proinflammatory properties. In ST-elevation myocardial infarction (STEMI), NETs correlate with increased infarct size. The interplay of neutrophils and monocytes impacts cardiac remodeling. Monocyte subsets are classified as classical, intermediate and non-classical monocytes. In the present study, in vitro stimulation with NETs led to an increase of intermediate monocytes and reduced expression of CX3CR1 in all subsets. Intermediate monocytes have been associated with poor outcome, while non-classical CX3CR1-positive monocytes could have reparative function after STEMI. We characterized monocyte subsets and NET markers at the culprit lesion site of STEMI patients (n = 91). NET surrogate markers were increased and correlated with larger infarct size and with fewer non-classical monocytes. Intermediate and especially non-classical monocytes were increased at the culprit site compared to the femoral site. Low CX3CR1 expression of monocytes correlated with high NET markers and increased infarct size. In this translational system, causality cannot be proven. However, our data suggest that NETs interfere with monocytic differentiation and receptor expression, presumably promoting a subset shift at the culprit lesion site. Reduced monocyte CX3CR1 expression may compromise myocardial salvage.

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Hypoxia-induced endothelial CX3CL1 triggers lung smooth muscle cell phenotypic switching and proliferative expansion

Cited by 33 publications

References 60 publications

Fractalkine (CX3CL1) and Its Receptor CX3CR1 May Contribute to Increased Angiogenesis in Diabetic Placenta

Fractalkine (CX3CL1) and Its Receptor CX3CR1 May Contribute to Increased Angiogenesis in Diabetic Placenta

A new horizon of moyamoya disease and associated health risks explored through RNF213

Neutrophil extracellular traps and monocyte subsets at the culprit lesion site of myocardial infarction patients

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