Cu loading alters expression of non-IRE regulated, but not IRE regulated, Fe dependent proteins in HepG2 cells

This paper investigates the extent to which Cu loading influences Fe levels in HepG2 cells and the effect on proteins regulated by Fe status. Cu supplementation increased Cu content 3-fold, concomitant with a decrease in cellular Fe levels. Intracellular levels of both transferrin (Tf) and cerulopla...

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Published in	Journal of inorganic biochemistry Vol. 103; no. 5; pp. 709 - 716
Main Authors	Fosset, Cédric, Danzeisen, Ruth, Gambling, Lorraine, McGaw, Brian A., McArdle, Harry J.
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.05.2009
Subjects	Blotting, Northern Blotting, Western Cell Line, Tumor Ceruloplasmin - genetics Ceruloplasmin - metabolism Copper - metabolism Copper - pharmacology Copper–iron interactions Electrophoretic Mobility Shift Assay Enzyme-Linked Immunosorbent Assay Gene Expression - drug effects Gene Expression - genetics Humans IRE–IRP Iron - metabolism Iron-Regulatory Proteins - genetics Iron-Regulatory Proteins - metabolism Liver Protein Binding - drug effects Receptors, Transferrin - genetics Receptors, Transferrin - metabolism Transferrin - genetics Transferrin - metabolism Transferrin expression Transferrin receptor expression Transferrin receptor expression Copper–iron interactions Transferrin expression IRE–IRP Liver
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Abstract	This paper investigates the extent to which Cu loading influences Fe levels in HepG2 cells and the effect on proteins regulated by Fe status. Cu supplementation increased Cu content 3-fold, concomitant with a decrease in cellular Fe levels. Intracellular levels of both transferrin (Tf) and ceruloplasmin (Cp) protein rose in parallel with increased secretion into the culture media. There was no increase in mRNA levels for either protein. Rather, our data suggested increased translation of the mRNA. The increase was not reflected in total protein synthesis, which actually decreased. The effect was not a generalised stress or cell damage response, since heat shock protein 70 levels and lactate dehydrogenase secretion were not significantly altered. To test whether the Cu effect could be acting though the decrease in Fe levels, we measured transferrin receptor (TfR) levels using 125I labeled Tf and mRNA analysis. Neither protein nor mRNA levels were changed. Neither was the level of ferroportin mRNA. As a positive control, Fe chelation increased Tf and Cp secretion significantly, and TfR mRNA levels rose 2-fold. We excluded the possibility that the increased Cp or Tf could provide the required substrate to stimulate Fe efflux, and instead demonstrate that Cu can substitute for Fe in the iron regulatory protein – iron responsive element regulation mechanism.
AbstractList	This paper investigates the extent to which Cu loading influences Fe levels in HepG2 cells and the effect on proteins regulated by Fe status. Cu supplementation increased Cu content 3-fold, concomitant with a decrease in cellular Fe levels. Intracellular levels of both transferrin (Tf) and ceruloplasmin (Cp) protein rose in parallel with increased secretion into the culture media. There was no increase in mRNA levels for either protein. Rather, our data suggested increased translation of the mRNA. The increase was not reflected in total protein synthesis, which actually decreased. The effect was not a generalised stress or cell damage response, since heat shock protein 70 levels and lactate dehydrogenase secretion were not significantly altered. To test whether the Cu effect could be acting though the decrease in Fe levels, we measured transferrin receptor (TfR) levels using 125I labeled Tf and mRNA analysis. Neither protein nor mRNA levels were changed. Neither was the level of ferroportin mRNA. As a positive control, Fe chelation increased Tf and Cp secretion significantly, and TfR mRNA levels rose 2-fold. We excluded the possibility that the increased Cp or Tf could provide the required substrate to stimulate Fe efflux, and instead demonstrate that Cu can substitute for Fe in the iron regulatory protein – iron responsive element regulation mechanism. This paper investigates the extent to which Cu loading influences Fe levels in HepG2 cells and the effect on proteins regulated by Fe status. Cu supplementation increased Cu content 3-fold, concomitant with a decrease in cellular Fe levels. Intracellular levels of both transferrin (Tf) and ceruloplasmin (Cp) protein rose in parallel with increased secretion into the culture media. There was no increase in mRNA levels for either protein. Rather, our data suggested increased translation of the mRNA. The increase was not reflected in total protein synthesis, which actually decreased. The effect was not a generalised stress or cell damage response, since heat shock protein 70 levels and lactate dehydrogenase secretion were not significantly altered. To test whether the Cu effect could be acting though the decrease in Fe levels, we measured transferrin receptor (TfR) levels using (125)I labeled Tf and mRNA analysis. Neither protein nor mRNA levels were changed. Neither was the level of ferroportin mRNA. As a positive control, Fe chelation increased Tf and Cp secretion significantly, and TfR mRNA levels rose 2-fold. We excluded the possibility that the increased Cp or Tf could provide the required substrate to stimulate Fe efflux, and instead demonstrate that Cu can substitute for Fe in the iron regulatory protein - iron responsive element regulation mechanism.This paper investigates the extent to which Cu loading influences Fe levels in HepG2 cells and the effect on proteins regulated by Fe status. Cu supplementation increased Cu content 3-fold, concomitant with a decrease in cellular Fe levels. Intracellular levels of both transferrin (Tf) and ceruloplasmin (Cp) protein rose in parallel with increased secretion into the culture media. There was no increase in mRNA levels for either protein. Rather, our data suggested increased translation of the mRNA. The increase was not reflected in total protein synthesis, which actually decreased. The effect was not a generalised stress or cell damage response, since heat shock protein 70 levels and lactate dehydrogenase secretion were not significantly altered. To test whether the Cu effect could be acting though the decrease in Fe levels, we measured transferrin receptor (TfR) levels using (125)I labeled Tf and mRNA analysis. Neither protein nor mRNA levels were changed. Neither was the level of ferroportin mRNA. As a positive control, Fe chelation increased Tf and Cp secretion significantly, and TfR mRNA levels rose 2-fold. We excluded the possibility that the increased Cp or Tf could provide the required substrate to stimulate Fe efflux, and instead demonstrate that Cu can substitute for Fe in the iron regulatory protein - iron responsive element regulation mechanism. This paper investigates the extent to which Cu loading influences Fe levels in HepG2 cells and the effect on proteins regulated by Fe status. Cu supplementation increased Cu content 3-fold, concomitant with a decrease in cellular Fe levels. Intracellular levels of both transferrin (Tf) and ceruloplasmin (Cp) protein rose in parallel with increased secretion into the culture media. There was no increase in mRNA levels for either protein. Rather, our data suggested increased translation of the mRNA. The increase was not reflected in total protein synthesis, which actually decreased. The effect was not a generalised stress or cell damage response, since heat shock protein 70 levels and lactate dehydrogenase secretion were not significantly altered. To test whether the Cu effect could be acting though the decrease in Fe levels, we measured transferrin receptor (TfR) levels using (125)I labeled Tf and mRNA analysis. Neither protein nor mRNA levels were changed. Neither was the level of ferroportin mRNA. As a positive control, Fe chelation increased Tf and Cp secretion significantly, and TfR mRNA levels rose 2-fold. We excluded the possibility that the increased Cp or Tf could provide the required substrate to stimulate Fe efflux, and instead demonstrate that Cu can substitute for Fe in the iron regulatory protein - iron responsive element regulation mechanism.
Author	Gambling, Lorraine Danzeisen, Ruth McGaw, Brian A. Fosset, Cédric McArdle, Harry J.
Author_xml	– sequence: 1 givenname: Cédric surname: Fosset fullname: Fosset, Cédric organization: Rowett Institute of Nutrition and Health, University of Aberdeen, Greenburn Road, Bucksburn, Aberdeen AB21 9SB, United Kingdom – sequence: 2 givenname: Ruth surname: Danzeisen fullname: Danzeisen, Ruth organization: Rowett Institute of Nutrition and Health, University of Aberdeen, Greenburn Road, Bucksburn, Aberdeen AB21 9SB, United Kingdom – sequence: 3 givenname: Lorraine surname: Gambling fullname: Gambling, Lorraine organization: Rowett Institute of Nutrition and Health, University of Aberdeen, Greenburn Road, Bucksburn, Aberdeen AB21 9SB, United Kingdom – sequence: 4 givenname: Brian A. surname: McGaw fullname: McGaw, Brian A. organization: Faculty of Science, Deakin University, Melbourne, Victoria 3125, Australia – sequence: 5 givenname: Harry J. surname: McArdle fullname: McArdle, Harry J. email: H.McArdle@rowett.ac.uk organization: Rowett Institute of Nutrition and Health, University of Aberdeen, Greenburn Road, Bucksburn, Aberdeen AB21 9SB, United Kingdom
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/19232737$$D View this record in MEDLINE/PubMed
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Keywords	Transferrin receptor expression Copper–iron interactions Transferrin expression IRE–IRP Liver
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Snippet	This paper investigates the extent to which Cu loading influences Fe levels in HepG2 cells and the effect on proteins regulated by Fe status. Cu...
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SubjectTerms	Blotting, Northern Blotting, Western Cell Line, Tumor Ceruloplasmin - genetics Ceruloplasmin - metabolism Copper - metabolism Copper - pharmacology Copper–iron interactions Electrophoretic Mobility Shift Assay Enzyme-Linked Immunosorbent Assay Gene Expression - drug effects Gene Expression - genetics Humans IRE–IRP Iron - metabolism Iron-Regulatory Proteins - genetics Iron-Regulatory Proteins - metabolism Liver Protein Binding - drug effects Receptors, Transferrin - genetics Receptors, Transferrin - metabolism Transferrin - genetics Transferrin - metabolism Transferrin expression Transferrin receptor expression
Title	Cu loading alters expression of non-IRE regulated, but not IRE regulated, Fe dependent proteins in HepG2 cells
URI	https://dx.doi.org/10.1016/j.jinorgbio.2009.01.007 https://www.ncbi.nlm.nih.gov/pubmed/19232737 https://www.proquest.com/docview/67138727
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