Neural Progenitor Cells Treated with EPO Induce Angiogenesis through the Production of Vegf

Wang, Lei; Chopp, Michael; Gregg, Sara R; Zhang, Rui Lan; Hua, Teng; Jiang, Angela; Feng, Yifan; Zhang, Zheng Gang

doi:10.1038/jcbfm.2008.32

Cited by 111 publications

(83 citation statements)

References 37 publications

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“…A recent report BLOOD, 28 JANUARY 2010 ⅐ VOLUME 115, NUMBER 4 For personal use only. on May 12, 2018. by guest www.bloodjournal.org From demonstrated that EPO-induced angiogenesis was via the induction of VEGF in neural progenitor cells 27 ; however, we found that an anti-VEGF antibody added to the human CD34 ϩ EPCs had minimal effect on NO induction ( Figure 3B), even though the concentration of anti-VEGF antibody was able to block stimulation of NO of exogenously added VEGF (data not shown). Thus, EPO stimulation of NO was strictly dependent on the VEGF-R2 receptor.…”

Section: Resultsmentioning

confidence: 49%

Induction of nitric oxide by erythropoietin is mediated by the β common receptor and requires interaction with VEGF receptor 2

Sautina

Sautin

Beem

et al. 2010

Blood

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Section: Resultsmentioning

confidence: 49%

Induction of nitric oxide by erythropoietin is mediated by the β common receptor and requires interaction with VEGF receptor 2

Sautina

Sautin

Beem

et al. 2010

Blood

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“…Indeed, examination of trophic factor levels in the media of OGD-exposed cultured menstrual blood-derived stem cells reveals the up-regulation of VEGF, BDNF, NT-3, but not GDNF. Recent reports have implicated this set of trophic factors as mediating therapeutic benefi ts of transplanted stem cells in a variety of CNS disorders, including stroke [42][43][44][45][46][47]. In view of clinical product development, there may be less safety and toxicity concerns for peptide delivery compared to cell therapy.…”

Section: Figmentioning

confidence: 99%

Menstrual Blood Cells Display Stem Cell–Like Phenotypic Markers and Exert Neuroprotection Following Transplantation in Experimental Stroke

Borlongan

Kaneko

Maki

et al. 2010

Stem Cells and Development

182

172

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Cell therapy remains an experimental treatment for neurological disorders. A major obstacle in pursuing the clinical application of this therapy is fi nding the optimal cell type that will allow benefi t to a large patient population with minimal complications. A cell type that is a complete match of the transplant recipient appears as an optimal scenario. Here, we report that menstrual blood may be an important source of autologous stem cells. Immunocytochemical assays of cultured menstrual blood reveal that they express embryonic-like stem cell phenotypic markers (Oct4, SSEA, Nanog), and when grown in appropriate conditioned media, express neuronal phenotypic markers (Nestin, MAP2). In order to test the therapeutic potential of these cells, we used the in vitro stroke model of oxygen glucose deprivation (OGD) and found that OGD-exposed primary rat neurons that were co-cultured with menstrual blood-derived stem cells or exposed to the media collected from cultured menstrual blood exhibited signifi cantly reduced cell death. Trophic factors, such as VEGF, BDNF, and NT-3, were up-regulated in the media of OGD-exposed cultured menstrual blood-derived stem cells. Transplantation of menstrual blood-derived stem cells, either intracerebrally or intravenously and without immunosuppression, after experimentally induced ischemic stroke in adult rats also signifi cantly reduced behavioral and histological impairments compared to vehicle-infused rats. Menstrual blood-derived cells exemplify a source of "individually tailored" donor cells that completely match the transplant recipient, at least in women. The present neurostructural and behavioral benefi ts afforded by transplanted menstrual blood-derived cells support their use as a stem cell source for cell therapy in stroke.

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“…41 Epo exhibits antiapoptotic and antiinflammatory effects acutely after neonatal brain injury [42][43][44][45][46] and promotes neurogenesis, plasticity, and tissue remodeling after hypoxia-ischemia. 15,[47][48][49][50] In animal models of neonatal stroke, Epo increases proliferation, migration, and differentiation of neuronal precursors, resulting in increased neurogenesis in the injured basal ganglia and cortex. 47,51,52 Although therapeutic hypothermia has improved the outlook of infants with HIE, 53,54 there remains a pressing need for neuroprotective therapies that will further reduce the high rate of neurologic disabilities.…”

Section: Sensitivity Analysesmentioning

confidence: 99%

High-Dose Erythropoietin and Hypothermia for Hypoxic-Ischemic Encephalopathy: A Phase II Trial

Mathur²,

et al. 2016

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OBJECTIVE: To determine if multiple doses of erythropoietin (Epo) administered with hypothermia improve neuroradiographic and short-term outcomes of newborns with hypoxic-ischemic encephalopathy. METHODS:In a phase II double-blinded, placebo-controlled trial, we randomized newborns to receive Epo (1000 U/kg intravenously; n = 24) or placebo (n = 26) at 1, 2, 3, 5, and 7 days of age. All infants had moderate/severe encephalopathy; perinatal depression (10 minute Apgar <5, pH <7.00 or base deficit ≥15, or resuscitation at 10 minutes); and received hypothermia. Primary outcome was neurodevelopment at 12 months assessed by the Alberta Infant Motor Scale and Warner Initial Developmental Evaluation. Two independent observers rated MRI brain injury severity by using an established scoring system. RESULTS:The mean age at first study drug was 16.5 hours (SD, 5.9). Neonatal deaths did not significantly differ between Epo and placebo groups (8% vs 19%, P = .42). Brain MRI at mean 5.1 days (SD, 2.3) showed a lower global brain injury score in Epo-treated infants (median, 2 vs 11, P = .01). Moderate/severe brain injury (4% vs 44%, P = .002), subcortical (30% vs 68%, P = .02), and cerebellar injury (0% vs 20%, P = .05) were less frequent in the Epo than placebo group. At mean age 12.7 months (SD, 0.9), motor performance in Epotreated (n = 21) versus placebo-treated (n = 20) infants were as follows: Alberta Infant Motor Scale (53.2 vs 42.8, P = .03); Warner Initial Developmental Evaluation (28.6 vs 23.8, P = .05).CONCLUSIONS: High doses of Epo given with hypothermia for hypoxic-ischemic encephalopathy may result in less MRI brain injury and improved 1-year motor function.

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Neural Progenitor Cells Treated with EPO Induce Angiogenesis through the Production of Vegf

Cited by 111 publications

References 37 publications

Induction of nitric oxide by erythropoietin is mediated by the β common receptor and requires interaction with VEGF receptor 2

Induction of nitric oxide by erythropoietin is mediated by the β common receptor and requires interaction with VEGF receptor 2

Menstrual Blood Cells Display Stem Cell–Like Phenotypic Markers and Exert Neuroprotection Following Transplantation in Experimental Stroke

High-Dose Erythropoietin and Hypothermia for Hypoxic-Ischemic Encephalopathy: A Phase II Trial

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