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(Received for publication, August 4, 1994; and in revised form, November 28, 1994) Ascorbate is an important cofactor in many cellular metabolic
reactions and is intimately linked to iron homeostasis. Continuously
cultured cells are ascorbate deficient due to the lability of the
vitamin in solution and to the fact that daily supplementation of media
with ascorbate is unusual. We found that ascorbate repletion alone did
not alter ferritin synthesis. However, ascorbate-replete human hepatoma
cells, Hep3B and HepG2, as well as K562 human leukemia cells achieved a
substantially higher cellular ferritin content in response to a
challenge with iron than did their ascorbate-deficient counterparts
grown under standard culture conditions. Most of the elevation in
ferritin content was due to an increase in de novo ferritin
synthesis of greater than 50-fold, as shown by in vivo labeling with [
Volume 270,
Number 6,
Issue of February 10, 1995 pp. 2846-2852
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
S]methionine and
immunoprecipitation. RNA-blot analysis showed only minor changes in
steady state levels of ferritin mRNA, suggesting that ascorbate
enhances iron-induced ferritin synthesis primarily by
post-transcriptional events. Transient gene expression experiments
using chloramphenicol acetyltransferase reporter gene constructs showed
that the ascorbate effect on ferritin translation is not mediated
through the stem-loop near the translational start site that transduces
ferritin synthesis in response to cytokines. The data suggest that
ascorbate possibly modifies the action of the iron-responsive element
on ferritin translation, although more precise structure-function
studies are needed to clarify this issue. These data demonstrate a
novel role of ascorbate as a signaling molecule in post-transcriptional
gene regulation. The mechanism by which ascorbate modulates cellular
iron metabolism is complex and requires additional detailed
investigation.
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