Treatment with hypoxia‐mimetics protects cultured rat Schwann cells against oxidative stress‐induced cell death

David, Brian T.; Curtin, Jessica J; Brown, Jennifer; Coutts, David J C; Boles, Nathan C.; Hill, Caitlin E.

doi:10.1002/glia.24019

Cited by 7 publications

(20 citation statements)

References 88 publications

(201 reference statements)

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“…1 F exhibited cell viability of RSCs on the membrane at 24 h. The viability of RSCs on PDPLA/DFO electrospun films was significantly improved, which may be attributed to the pharmacological induction of hypoxia adaptation to promote the survival of transplanted RSCs [ 36 ]. The results showed that both PDPLA and PDPLA/DFO were suitable for adhesion and growth of Schwann cell and possessed good cyto-compatibility.…”

Section: Resultsmentioning

confidence: 99%

Enhanced sciatic nerve regeneration by relieving iron-overloading and organelle stress with the nanofibrous P(MMD-co-LA)/DFO conduits

Han

Dong

Qiu

et al. 2022

Materials Today Bio

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Section: Resultsmentioning

confidence: 99%

Enhanced sciatic nerve regeneration by relieving iron-overloading and organelle stress with the nanofibrous P(MMD-co-LA)/DFO conduits

Han

Dong

Qiu

et al. 2022

Materials Today Bio

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“…The oxygen deprivation model (OGD) was performed using the human neuroblastoma SH-SY5Y cell line. We chose adaptaquin as a control compound for the group of branched oxyquinolines since it showed neuroprotection in the post-treatment of hemorrhagic stroke in vivo model [ 20 ] and oxidative stress in vitro model at 1 μM concentration [ 21 , 22 ]. The experimental design was the same as we used before for the drugs targeting HIF PHD, Nrf2, and HDAC6, which showed almost complete neuroprotection at 24 h pretreatment in the range of concentrations matching the IC 50 in the HIF1 ODD-luc and Neh2-luc reporter assays [ 11 ].…”

Section: Resultsmentioning

confidence: 99%

“…Neuradapt was shown to be neuroprotective in a hypoxia model in the hippocampal neuronal network [ 10 ]. Adaptaquin, a branched-tail oxyquinoline inhibitor discovered earlier [ 8 ], is neuroprotective in in vivo models of hemorrhagic stroke [ 20 ] and Parkinson’s disease [ 32 ], and against oxidative stress in vitro models [ 21 , 22 ]. There are studies demonstrating that neuroprotection exerted by adaptaquin in vivo is not HIF dependent [ 33 ].…”

Section: Discussionmentioning

confidence: 99%

Structure–Activity Relationships and Transcriptomic Analysis of Hypoxia-Inducible Factor Prolyl Hydroxylase Inhibitors

et al. 2022

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To evaluate the differences in action of commercially available 2-oxoglutarate mimetics and “branched-tail” oxyquinoline inhibitors of hypoxia-inducible factor prolyl hydroxylase (HIF PHD), the inhibitors’ IC50 values in the activation of HIF1 ODD-luciferase reporter were selected for comparative transcriptomics. Structure–activity relationship and computer modeling for the oxyquinoline series of inhibitors led to the identification of novel inhibitors, which were an order of magnitude more active in the reporter assay than roxadustat and vadadustat. Unexpectedly, 2-methyl-substitution in the oxyquinoline core of the best HIF PHD inhibitor was found to be active in the reporter assay and almost equally effective in the pretreatment paradigm of the oxygen-glucose deprivation in vitro model. Comparative transcriptomic analysis of the signaling pathways induced by HIF PHD inhibitors showed high potency of the two novel oxyquinoline inhibitors (#4896-3249 and #5704-0720) at 2 μM concentrations matching the effect of 30 μM roxadustat and 500 μM dimethyl oxalyl glycine in inducing HIF1 and HIF2-linked pathways. The two oxyquinoline inhibitors exerted the same activation of HIF-triggered glycolytic pathways but opposite effects on signaling pathways linked to alternative substrates of HIF PHD 1 and 3, such as p53, NF-κB, and ATF4. This finding can be interpreted as the specificity of the 2-methyl-substitute variant for HIF PHD2.

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“…Recent evidence has indicated that the atorvastatin-induced upregulation of miR-221-3p in MSC-EVs results in the recovery of endothelial cell function, thus alleviating diabetic skin defects [ 138 ]. As a hypoxia-mimic compound, deferoxamine can activate a HIF-1α signaling pathway [ 139 ]. Compared with natural MSC-EVs, diabetic rats treated with EVs secreted by deferoxamine-stimulated MSC exhibit enhanced angiogenic activity [ 140 ].…”

Section: Engineered Msc-evs In the Treatment Of Dm And Diabetic Compl...mentioning

confidence: 99%

Mesenchymal Stem Cell-Derived Extracellular Vesicles: A Potential Therapy for Diabetes Mellitus and Diabetic Complications

Sun

et al. 2022

Pharmaceutics

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As a novel cell-free strategy, mesenchymal stem cell-derived extracellular vesicles (MSC-EVs) inherit the therapeutic potential of donor cells, and are widely used for the treatment of many diseases. Increasing studies have shown that MSC-EVs transfer various bioactive molecules to create a beneficial microenvironment, thus exerting protective roles in diabetic mellitus (DM) and diabetic complications. To overcome the limitations of natural MSC-EVs such as heterogeneity and insufficient function, several modification methods have been established for constructing engineered MSC-EVs with elevated repairing efficiency. In this review, the PubMed library was searched from inception to August 2022, using a combination of Medical Subject Headings (MeSH) and keywords related to MSC-EVs, DM, and diabetic complications. We provide an overview of the major characteristics of MSC-EVs and summarize the recent advances of MSC-EV-based therapy for hyperglycemia-induced tissue damage with an emphasis on MSC-EV-mediated delivery of functional components. Moreover, the potential applications of engineered MSC-EVs in DM-related diseases therapy are discussed by presenting examples, and the opportunities and challenges for the clinical translation of MSC-EVs, especially engineered MSC-EVs, are evaluated.

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Treatment with hypoxia‐mimetics protects cultured rat Schwann cells against oxidative stress‐induced cell death

Cited by 7 publications

References 88 publications

Enhanced sciatic nerve regeneration by relieving iron-overloading and organelle stress with the nanofibrous P(MMD-co-LA)/DFO conduits

Enhanced sciatic nerve regeneration by relieving iron-overloading and organelle stress with the nanofibrous P(MMD-co-LA)/DFO conduits

Structure–Activity Relationships and Transcriptomic Analysis of Hypoxia-Inducible Factor Prolyl Hydroxylase Inhibitors

Mesenchymal Stem Cell-Derived Extracellular Vesicles: A Potential Therapy for Diabetes Mellitus and Diabetic Complications

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