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(Received for publication, August 29, 1994; and in revised form, November 14, 1994) The properties and regulation of the mammalian polyamine
transport system are still poorly understood. In estrogen-responsive
ZR-75-1 human breast cancer cells, which display low polyamine
biosynthetic activity, putrescine and spermidine were internalized with
high affinity (K
Volume 270,
Number 4,
Issue of January 27, 1995 pp. 1685-1694
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
= 3.7 and 0.5
µM, respectively) via a single class of saturable
transporter shared by both substrate types, or via distinct but closely
similar carriers. The V
, but not the K of polyamine transport was rapidly and
synergistically up-regulated by estrogens and insulin. The steady decay
in transport activity observed in hormone-deprived cells was
accelerated by retinoic acid. The enhancement of uptake activity
resulting from polyamine depletion was amplified 3-fold by estrogens
and insulin despite profound growth inhibition, indicating that the
cooperative hormonal induction of polyamine transport is dissociated
from cell growth status. Polyamine uptake was under feedback inhibition
by at least three distinct mechanisms in these cells, namely (i) the
induction of a short-lived protein not actively synthesized without
ongoing uptake or upon polyamine deletion; (ii) a more latent, protein
synthesis-independent ``trans-inhibition'' mechanism; and
(iii) a post-carrier, cycloheximide-sensitive mechanism limiting
substrate accumulation. The complexity of these multiple levels of
feedback transport inhibition is in keeping with the cytotoxicity of
excessive polyamine content.
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