1995
DOI: 10.1073/pnas.92.9.3717
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Localization of specific erythropoietin binding sites in defined areas of the mouse brain.

Abstract: The main physiological regulator of erythropoiesis is the hematopoietic growth factor erythropoietin (EPO), which is primarily produced in the kidney of adult mammals and is induced in response to hypoxia. Binding of EPO to the EPO receptor (EPO-R), a member of the cytokine receptor superfamily, controls the terminal maturation of red blood cells. So far, EPO has been reported to act mainly on erythroid precursor cells. However, we have detected mRNA encoding both EPO and EPO-R in mouse brain by reverse transc… Show more

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Cited by 452 publications
(293 citation statements)
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“…In the mature brain, expression of EPO appears to be upregulated by oxidative or nitrosative stress (Bernaudin et al, 1999(Bernaudin et al, , 2000Chong et al, 2003;Digicaylioglu et al, 1995). Within the brain, functional EPORs are expressed by different cell types such as neurons, glial cells and brain capillary endothelial cells (Genc et al, 2004a,b), while the main source of EPO within the CNS itself appears to be the astroglial cells (Bernaudin et al, 2000;Digicaylioglu et al, 1995;Juul et al, 1998;Marti et al, 1996;Masuda et al, 1993). Despite its extensive glycosylation and large size, EPO has been shown in multiple experimental species and in man to cross the blood brain barrier (BBB) when administered peripherally (Ehrenreich et al, 2004).…”
Section: Introductionmentioning
confidence: 99%
“…In the mature brain, expression of EPO appears to be upregulated by oxidative or nitrosative stress (Bernaudin et al, 1999(Bernaudin et al, , 2000Chong et al, 2003;Digicaylioglu et al, 1995). Within the brain, functional EPORs are expressed by different cell types such as neurons, glial cells and brain capillary endothelial cells (Genc et al, 2004a,b), while the main source of EPO within the CNS itself appears to be the astroglial cells (Bernaudin et al, 2000;Digicaylioglu et al, 1995;Juul et al, 1998;Marti et al, 1996;Masuda et al, 1993). Despite its extensive glycosylation and large size, EPO has been shown in multiple experimental species and in man to cross the blood brain barrier (BBB) when administered peripherally (Ehrenreich et al, 2004).…”
Section: Introductionmentioning
confidence: 99%
“…[9][10][11] In the brain where neurons express erythropoietin receptor and astrocytes express erythropoietin in a hypoxiainducible manner, erythropoietin was shown to protect against neuronal injury associated with ischemia. [12][13][14][15] In the uterus, erythropoietin-erythropoietin receptor function was shown to be involved in the regulation of cyclic uterine angiogenesis. 16 In another example of the diverse nonhematopoietic biological effects of erythropoietin-erythropoietin receptor, our recent studies have shown that erythropoietin is a cytokine that promotes angiogenesis and modulates the physiologic wound-healing cascade.…”
mentioning
confidence: 99%
“…EPO and its receptor have been found in hematopoietic and several non-hematopoietic tissues including central nervous system, endothelium, cardiac myocytes, kidney, liver and some solid cancer cell lines [4]. Upon binding with EpoR an intricate series of intracellular signaling pathways are activated via Janus kinase 2 (Jak2) which increases the activity of intracellular mediators including signal transducer and activator of transcription 5 (STAT5), phosphoinositol 3 kinase (PI3K), mitogen-activated protein kinase (MAPK), extracellular signal-regulated kinase (ERK) and nuclear factor kappa B (NF-jB) [5][6][7]. These signaling pathways may promote neuronal survival by a number of putative mechanisms including: (1) neuroprotection, (2) neurogenesis, (3) antiinflammation, (4) angiogenesis and stabilization of neurovascular function, and (5) reduced oxidative stress.…”
Section: Epo and Epo Variantsmentioning
confidence: 99%