Alternative Erythropoietin Receptors in the Nervous System

Ostrowski, Daniela; Heinrich, Ralf

doi:10.3390/jcm7020024

Cited by 68 publications

(80 citation statements)

References 207 publications

(260 reference statements)

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“…New neuroprotectants that have a therapeutic effect and cause no adverse effects are important for the treatment for patients with neurodegenerative diseases. Recently, a number of small molecules, including recombinant proteins such as neurotrophic factors, growth factors, erythropoietin, and anti-amyloid β antibody, have also been developed for neuroprotection [41][42][43]. However, their clinical applications are limited by the appearance of serious side effects such as cerebral vasculitis and stroke, poor bioavailability, and low bloodbrain barrier permeability [44].…”

Section: Discussionmentioning

confidence: 99%

Prenylated quinolinecarboxylic acid derivative prevents neuronal cell death through inhibition of MKK4

Ogura

Kikuchi

Shakespear

et al. 2019

Biochemical Pharmacology

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The development of neuroprotective agents is necessary for the treatment of neurodegenerative diseases. Here, we report PQA-11, a prenylated quinolinecarboxylic acid (PQA) derivative, as a potent neuroprotectant. PQA-11 inhibits glutamate-induced cell death and caspase-3 activation in hippocampal cultures, as well as inhibits N-Methyl-4phenylpyridinium iodide-and amyloid β1-42-induced cell death in SH-SY5Y cells. PQA-11 also suppresses mitogen-activated protein kinase kinase 4 (MKK4) and c-jun N-terminal kinase (JNK) signaling activated by these neurotoxins. Quartz crystal microbalance analysis and in vitro kinase assay reveal that PQA-11 interacts with MKK4, and inhibits its sphingosine-induced activation. The administration of PQA-11 by intraperitoneal injection alleviates 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced degeneration of nigrostriatal dopaminergic neurons in mice. These results suggest that PQA-11 is a unique MKK4 inhibitor with potent neuroprotective effects in vitro and in vivo. PQA-11 may be a valuable lead for the development of novel neuroprotectants.

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Section: Discussionmentioning

confidence: 99%

Prenylated quinolinecarboxylic acid derivative prevents neuronal cell death through inhibition of MKK4

Ogura

Kikuchi

Shakespear

et al. 2019

Biochemical Pharmacology

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“…10,11 Particularly, it was also found that EPO stimulates proliferation and differentiation of skeletal muscle myoblasts, suggesting that the skeletal muscle might act as one of its targets. 10,11 Particularly, it was also found that EPO stimulates proliferation and differentiation of skeletal muscle myoblasts, suggesting that the skeletal muscle might act as one of its targets.…”

Section: Introductionmentioning

confidence: 99%

“…Erythropoietin (EPO) is known to have a wide range of therapeutic effects, such as anti-apoptosis, anti-oxidation, anti-inflammation and maintenance of vascular structure, as well as normal function. 10,11 Particularly, it was also found that EPO stimulates proliferation and differentiation of skeletal muscle myoblasts, suggesting that the skeletal muscle might act as one of its targets. 12,13 EPO might promote pro-myoblast effects through the activation of the same signaling cascades in hematopoietic cells.…”

Section: Introductionmentioning

confidence: 99%

Intervention with erythropoietin in sarcopenic patients with femoral intertrochanteric fracture and its potential effects on postoperative rehabilitation

Zhang

Chen

et al. 2019

Geriatrics Gerontology Int

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Aim: To explore the intervention with erythropoietin (EPO) in sarcopenic patients with femoral intertrochanteric fractures, and its potential effects on postoperative rehabilitation.Methods: A total of 141 patients with femoral intertrochanteric fracture were selected from January 2018 to January 2019. Patients (aged ≥60 years) with indications for EPO use, but without significant medical history, were selected in the present study. All patients were screened for sarcopenia, and divided into the intervention group and control group according to whether they took EPO. The intervention groups received EPO postoperatively every day for 10 days, whereas the control groups received an equal dose of normal saline. Patients' handgrip strength, appendicular skeletal muscle, duration of hospitalization and postoperative infection rate were assessed by analysis.Results: Among sarcopenic women, the handgrip strength was higher in the intervention group than in the control group after a week (P < 0.05). However, no significant effect was found in men (P > 0.05). The appendicular skeletal muscle increment of the intervention group with sarcopenia was markedly increased regardless of sex (P < 0.001). In addition, the postoperative infection rate was lower in the intervention group than the control group (P < 0.05), accompanied by a shorter hospital stay due to EPO administration (P < 0.05).Conclusions: EPO can improve the muscle strength of female patients with sarcopenia during the perioperative period, and increase muscle mass both of women and men. It can improve the symptoms of sarcopenia, but cannot reverse sarcopenia. Additionally, it can reduce the postoperative complications of patients with hip fracture and shorten the length of hospital stay. Therefore, postoperative administration of EPO might potentially promote rapid postoperative rehabilitation. Geriatr Gerontol Int 2020; 20: 150-155.

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“…It is now thought that EPO's tissue-protective effects may be mediated through a separate heterodimeric receptor, consisting of one EPO subunit and one beta-common receptor (βCR) subunit (Brines et al, 2004;. Still, no study to date has demonstrated the interaction of EPO with this EPOR:βCR heterodimer, though a recently published article featuring a series of in silico experiments demonstrated the physical possibility of such an interaction based on protein and receptor conformations (Ostrowski & Heinrich, 2018). These authors suggest there may be additional substrates for EPO that have yet to be identified, as the proposed tissue protective receptor is not found in all cells that appear to benefit from EPO stimulation (Ostrowski & Heinrich, 2018).…”

Section: Epo In Animal Models Of Diseasementioning

confidence: 99%

“…Still, no study to date has demonstrated the interaction of EPO with this EPOR:βCR heterodimer, though a recently published article featuring a series of in silico experiments demonstrated the physical possibility of such an interaction based on protein and receptor conformations (Ostrowski & Heinrich, 2018). These authors suggest there may be additional substrates for EPO that have yet to be identified, as the proposed tissue protective receptor is not found in all cells that appear to benefit from EPO stimulation (Ostrowski & Heinrich, 2018). Although the molecular mechanisms by which EPO exerts its tissue-protective effects remain under investigation, researchers have recently begun to evaluate EPO's therapeutic potential in combination therapies for ischemia, as EPO's neuroprotective properties are well-established ).…”

Section: Epo In Animal Models Of Diseasementioning

confidence: 99%

Erythropoietin as a Modulator of Pathology in a Toxicant Mouse Model of Parkinson’s Disease

Thompson¹

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Parkinson's disease (PD) is the second most common neurodegenerative disorder and has no known disease-modifying treatments. Due to the complexity of the disease pathology, effective treatments for PD will likely involve a combination of treatment factors. The current experiments sought to profile the pro-survival effects of the trophic cytokine, erythropoietin (EPO), in a 6-hydroxydopamine (6-OHDA) mouse model of PD. Methods: To this end, male C57Bl/6 mice were used in a series of four experiments investigating the potential antiapoptotic, anti-inflammatory and antioxidant effects of the trophic cytokine. EPO's ability to protect dopaminergic terminals in the striatum, cell bodies in the substantia nigra (SNc) and modulate 6-OHDA-induced motor deficits was characterized at different doses of 6-OHDA and EPO. Results: Our results did indeed demonstrate EPO's ability to exert pro-survival effects that were brain region-specific. While intra-nigral EPO was ineffective, intra-striatal EPO preserved striatal terminals and nigral soma in two different 6-OHDA lesion models. EPO further attenuated apomorphine-induced rotations at two doses of 6-OHDA. EPO demonstrated antiapoptotic signalling through phosphorylation of Akt and the Bcl-2 associated proteins and antiinflammatory activity through modulation of microglial morphology. Finally, EPO demonstrated antioxidant activity through elevated levels of striatal glutathione peroxidase, in addition to retrograde signalling that resulted in elevated levels of glutathione peroxidase in the SNc in response to EPO treatment. Conclusions: In short, EPO appears to modify antioxidant and antiapoptotic factors and act in a brain-region specific manner to mitigate neuronal loss. Taken together, the results of the current set of experiments indicate EPO's potential for use as an adjuvant therapy in the treatment of PD.

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Alternative Erythropoietin Receptors in the Nervous System

Cited by 68 publications

References 207 publications

Prenylated quinolinecarboxylic acid derivative prevents neuronal cell death through inhibition of MKK4

Prenylated quinolinecarboxylic acid derivative prevents neuronal cell death through inhibition of MKK4

Intervention with erythropoietin in sarcopenic patients with femoral intertrochanteric fracture and its potential effects on postoperative rehabilitation

Erythropoietin as a Modulator of Pathology in a Toxicant Mouse Model of Parkinson’s Disease

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