SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2743009057> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W2743009057 endingPage "973" @default.
W2743009057 startingPage "967" @default.
W2743009057 abstract "Iron is subject to tight homeostatic control in mammals. At the systemic level, iron homeostasis is controlled by the liver-derived hormone hepcidin acting on its target ferroportin in the gut, spleen, and liver, which form the sites of iron uptake, recycling, and storage, respectively. At the cellular level, iron homeostasis is dependent on the iron regulatory proteins IRP1/IRP2. Unique chemical properties of iron underpin its importance in biochemical reactions involving oxygen. As such, it is not surprising that there are reciprocal regulatory links between iron and oxygen homeostasis, operating both at the systemic and cellular levels. Hypoxia activates the IRP pathway, and in addition suppresses liver hepcidin through endocrine factors that have yet to be fully elucidated. This review summarizes current knowledge on the interplay between oxygen and iron homeostasis and describes recent insights gained into this interaction in the context of the heart. These include the recognition that the hepcidin/ferroportin axis plays a vital role in the regulation of intracellular iron homeostasis as well as regulating systemic iron availability. As is the case for other aspects of iron homeostasis, hypoxia significantly modulates the function of the hepcidin/ferroportin pathway in the heart. Key areas still to understand are the interactions between cardiac iron and diseases of the heart where hypoxia is a recognized component." @default.
W2743009057 created "2017-08-17" @default.
W2743009057 creator A5003413675 @default.
W2743009057 creator A5026980755 @default.
W2743009057 date "2017-10-01" @default.
W2743009057 modified "2023-10-10" @default.
W2743009057 title "The interplay between iron and oxygen homeostasis with a particular focus on the heart" @default.
W2743009057 cites W1489844805 @default.
W2743009057 cites W156137099 @default.
W2743009057 cites W1570526140 @default.
W2743009057 cites W1582436864 @default.
W2743009057 cites W165130051 @default.
W2743009057 cites W168346733 @default.
W2743009057 cites W1822382487 @default.
W2743009057 cites W1838017855 @default.
W2743009057 cites W1844334486 @default.
W2743009057 cites W1910071664 @default.
W2743009057 cites W1975262546 @default.
W2743009057 cites W1980042430 @default.
W2743009057 cites W1986710619 @default.
W2743009057 cites W1989971434 @default.
W2743009057 cites W1997734311 @default.
W2743009057 cites W1998351143 @default.
W2743009057 cites W2002891256 @default.
W2743009057 cites W2005438156 @default.
W2743009057 cites W2006046265 @default.
W2743009057 cites W2008376250 @default.
W2743009057 cites W2015248217 @default.
W2743009057 cites W2017704094 @default.
W2743009057 cites W2020932850 @default.
W2743009057 cites W2021529165 @default.
W2743009057 cites W2023704452 @default.
W2743009057 cites W2028265881 @default.
W2743009057 cites W2034429828 @default.
W2743009057 cites W2037024816 @default.
W2743009057 cites W2038322546 @default.
W2743009057 cites W2040760712 @default.
W2743009057 cites W2041361488 @default.
W2743009057 cites W2043010327 @default.
W2743009057 cites W2048706423 @default.
W2743009057 cites W2049346572 @default.
W2743009057 cites W2050188620 @default.
W2743009057 cites W2052203810 @default.
W2743009057 cites W2054421541 @default.
W2743009057 cites W2059080581 @default.
W2743009057 cites W2065642253 @default.
W2743009057 cites W2066497363 @default.
W2743009057 cites W2074700700 @default.
W2743009057 cites W2087639565 @default.
W2743009057 cites W2090079874 @default.
W2743009057 cites W2110116246 @default.
W2743009057 cites W2111630376 @default.
W2743009057 cites W2114334714 @default.
W2743009057 cites W2134536226 @default.
W2743009057 cites W2148669301 @default.
W2743009057 cites W2148841816 @default.
W2743009057 cites W2148889412 @default.
W2743009057 cites W2157705760 @default.
W2743009057 cites W2160602863 @default.
W2743009057 cites W2167196479 @default.
W2743009057 cites W2167910235 @default.
W2743009057 cites W2170885365 @default.
W2743009057 cites W2220192676 @default.
W2743009057 cites W2223612093 @default.
W2743009057 cites W2289325450 @default.
W2743009057 cites W2418088307 @default.
W2743009057 cites W2462882736 @default.
W2743009057 cites W2559736529 @default.
W2743009057 cites W2575751745 @default.
W2743009057 doi "https://doi.org/10.1152/japplphysiol.00237.2017" @default.
W2743009057 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5668453" @default.
W2743009057 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28775066" @default.
W2743009057 hasPublicationYear "2017" @default.
W2743009057 type Work @default.
W2743009057 sameAs 2743009057 @default.
W2743009057 citedByCount "17" @default.
W2743009057 countsByYear W27430090572017 @default.
W2743009057 countsByYear W27430090572018 @default.
W2743009057 countsByYear W27430090572019 @default.
W2743009057 countsByYear W27430090572020 @default.
W2743009057 countsByYear W27430090572021 @default.
W2743009057 countsByYear W27430090572022 @default.
W2743009057 countsByYear W27430090572023 @default.
W2743009057 crossrefType "journal-article" @default.
W2743009057 hasAuthorship W2743009057A5003413675 @default.
W2743009057 hasAuthorship W2743009057A5026980755 @default.
W2743009057 hasBestOaLocation W27430090571 @default.
W2743009057 hasConcept C134018914 @default.
W2743009057 hasConcept C151730666 @default.
W2743009057 hasConcept C178790620 @default.
W2743009057 hasConcept C185592680 @default.
W2743009057 hasConcept C203014093 @default.
W2743009057 hasConcept C2776710925 @default.
W2743009057 hasConcept C2776768029 @default.
W2743009057 hasConcept C2776914184 @default.
W2743009057 hasConcept C2778319317 @default.
W2743009057 hasConcept C2779343474 @default.
W2743009057 hasConcept C2911035656 @default.