Recombinant Rat Erythropoietin (Epo)

1. Increases in plasma erythropoietin and erythropoietin receptor activation are mechanisms implicated in the increase of plasma FGF23 in acute kidney injury. PMID: 29395333
2. Epo and Epo-Receptor are expressed in the spiral ganglion neurons (SGNs) of the inner ear of the rat, and Epo adenovirus vector (AdEpo) can decrease the spontaneous apoptosis of SGNs, which may provide a basis for the prevention or alleviation of sensorineural hearing loss. PMID: 29436578
3. EPO administration increased TMPRSS6 content in the plasma membrane-enriched fraction of liver homogenate; in iron-pretreated rats, this increase was abolished. The results confirm that iron pretreatment prevents the EPO-induced decrease in liver Hamp expression. PMID: 28282554
4. Protection of erythropoietin markedly attenuated pyroptosis and apoptosis of neurons exposed to sevoflurane via Erk1/2-Nrf2/Bach1 signal pathway. PMID: 28189515
5. protective effects of EPO may be mediated by nitric oxide and the expression of different NOS enzymes, especially iNOS isoform PMID: 28087117
6. EPO receptor ligand dimeric peptides AF41676 and AF43136 administered before reperfusion are able to reduce infarct size in a rat model of AMI. PMID: 27521836
7. The present study aimed to determine the expression of erythropoietin (EPO) and the EPO receptor (EPOR) in spiral ganglion neurons (SGNs) in the inner ear of rats of various ages, and the associated neuronal apoptosis and hearing alterations. PMID: 27959434
8. Study shows that erythropoietin reduced chemokine CCL3 mRNA expression in rat cerebellar neuron-enriched preparations during neuroinflammation. PMID: 26178913
9. Taken together, our results reveal that EPO and cEPO mediate MEF2 target gene expression via the regulation of HDAC5 phosphorylation at Ser259/498, and suggest that HDAC5 could be a mechanism contributing to the therapeutic actions of EPO and cEPO. PMID: 26777998
10. this study is the first to elucidate the detailed mechanism by which AhR plays an indispensable role in the suppression of HIF activation by IS. PMID: 26561638
11. the hypercapnic hypoxia causes maximum activation of the synthesis and accumulation of erythropoietin HIF-1alpha, and permissive hypercapnia enhances their content more than hypoxic exposure. PMID: 26852593
12. Results of the present study demonstrate the neuroprotective, anti-inflammatory and antioxidant effects of EPO in a rotenone-induced neurodegenerative animal model. PMID: 25464888
13. Vitamin A deficiency leads to ineffective erythropoiesis by the down-regulation of renal erythropoietin expression in the kidney, resulting in erythrocyte malformation and the consequent accumulation of the heme group in the spleen. PMID: 24998947
14. EPO partially rescued insulin-stimulated AKT activation, reduced oxidative stress, and restored heat-shock protein 72 expression in soleus muscles. PMID: 25767056
15. Results showed that the inhibitory effects of TNFa on the hypoxia-induced upregulation of erythropoietin expression are mediated primarily by HIF-2a rather than HIF-1a PMID: 25283246
16. Data suggest a potential positive effect of erythropoietin (EPO) on hepatocytes (HCs) proliferation during liver regeneration after a partial hepatectomy. PMID: 24928528
17. HIF-1alpha/EPO hypoxic signal transduction may initiate hippocampal neurogenesis following hypoxia-ischemia PMID: 25935977
18. The present study suggests that EPO can exert a cardioprotective effect on DOX-induced cardiotoxicity which may be associated with improving MMP-2/TIMP-2 imbalance. PMID: 24685074
19. Epidermal growth factor and erythropoietin infusion accelerate functional recovery in combination with rehabilitation. PMID: 24763928
20. In IN-IC cells, hypoxia increased mRNA expression of erythropoietin, erythropoietin concentration in the medium and protein expression of HIF PHD2. PMID: 24832733
21. After 2-weeks of hypoxia, erythropoietin transcripts and erythropoietin plasma levels were significantly increased in hypoxic animals compared with control animals. PMID: 24524370
22. rMSCs transplantation could be a new therapy for degenerative retinal diseases since it can protect and rescue RPE and retinal neurons, while EPO gene modification to rMSCs could be an even better option. PMID: 23971737
23. Erythropoietin prevents lymphoid apoptosis but has no effect on survival in experimental sepsis. PMID: 23728385
24. EPO induces the expression of myelin genes in oligodendrocytes and this effect requires the presence of EPOR. PMID: 23821361
25. EPO significantly suppresses the enhanced apoptosis and activity of caspase 3 that are induced by 6-hydroxydopamine. PMID: 22294054
26. 11 weeks of endurance training increased erythrocyte deformability. Epo and EpoR may contribute to the decreased morphological index and deformability indicator in erythrocytes during endurance training in rats. PMID: 22495316
27. EPO potently protects against cardiopulmonary bypass-induced acute renal injury by inhibiting expression of NF-kappaB p65 and inflammatory response. PMID: 22659586
28. EPO induces a significant decrement in the ohmic airway resistance. PMID: 22766248
29. Pyruvate activation of the hypoxia-inducible factor-1alpha-EPO signaling cascade in neurons and glia could protect the brain from ischemia-reperfusion injury PMID: 22282883
30. Ligustilide exerts neuroprotective effects against I/R injury by promoting EPO transcription via an ERK signalling pathway and inhibiting RTP801 expression. PMID: 21410687
31. A protective cascade for erythropoietin (EPO) relies upon modulation of Wnt1, Akt1, FoxO3a, GSK-3beta, beta-catenin, and mitochondrial apoptotic pathways for the development of new strategies against DM vascular complications. PMID: 21443457
32. Our work identifies novel pathways for EPO in the vascular system that can govern the activity of SIRT1 PMID: 21722091
33. EPO, hCG, or their combination ameliorate cardiac remodeling post-myocardial infarct in a rat model PMID: 21707946
34. Epo combined with granulocyte colonystimulating factor enhanced Mmp2 expression in mesenchymal stem cells, promoted motility and activated the ERK1/2 signaling pathway. PMID: 21461559
35. EPO mediates brain-derived neurotrophic factor-dependent sonic hedgehog (SHH) expression and 3-nitropropionic acid (3-NP) resistance because suppression of EPO activity by soluble EPO-receptor abolishes BDNF-mediated SHH induction and 3-NP resistance. PMID: 20580927
36. The expression of erythropoietin in the hippocampus increased from 3 to 18 months and decreased from 18 to 30 months. PMID: 19779256
37. EPO may play a role in normal spinal cord development by regulating cell proliferation and apoptosis. PMID: 20167254
38. Changes in EPO concentration [EPO] was evaluated every hour after single exposure of 10% O(2) for 120 min in order to determine a peak level of [EPO]. PMID: 20204781
39. Intermittent hypoxic exposure can enhance serum hypoxia inducible factor-1 alpha and erythropointin levels. PMID: 20104680
40. Our results support a model in which Epo promotes Schwann cell migration and assembly of the provisional extracellular matrix in the injured peripheral nerve by its effects on integrin recruitment to the cell surface and local FN production. PMID: 19705458
41. All regions of kidney express erythropoietin receptors. Review. PMID: 12381912
42. role in preventing the induction of Apaf-1 and preserving mitochondrial membrane potential in conjunction with enhanced Bcl-XL expression. EPO also inhibits the activation of caspase-9. PMID: 12621307
43. EPO inhibits apoptosis in ventricular myocytes exposed to hypoxia, through an Akt-dependent pathway PMID: 12927817
44. Erythropoietin may provide benefit after hypoxic-ischemic events in the developing brain, a major contributor to static encephalopathy and cerebral palsy. PMID: 13129593
45. Hypoxic acclimatization can inhibit the increment of erythropoietin gene expression induced by acute hypoxia in rat hepatic and renal tissues. PMID: 14706194
46. EPO mediates the classic neurotrophic effects of proliferation, differentiation and maintenance in a dopaminergic cell line. PMID: 15050726
47. Treatment of neural progenitor cells with erythropoietin stimulated progenitor cell differentiation into neurons, but not astrocytes. PMID: 15167538
48. These data demonstrate that EPO can promote differentiation of neuronal stem cells into astrocytes in an EPO receptor dependent manner, and this effect may be associated with the activation of ERK kinase and NF-kappaB pathway. PMID: 15249201
49. Age-related decreases in Erythropoietin may contribute to degenerative events following age-related decreases in brain flow and oxygen supply. PMID: 15262216
50. Study demonstrates how in response to axonal injury, rat periaxonal Schwann cells release erythropoietin (EPO), which via EPO receptor binding on neurons, prevents axonal degeneration. PMID: 15470751

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KEGG: rno:24335

STRING: 10116.ENSRNOP00000001914

UniGene: Rn.11365