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Vol. 55, Issue 4, 668-676, April 1999
Cell Biology Section, Laboratory of Pulmonary Pathobiology,
National Institute of Environmental Health Sciences, National
Institutes of Health, Research Triangle Park, North Carolina
Recently, the novel synthetic retinoid
6-[3-(1-adamantyl)-4-hydroxyphenyl]-2-naphthalene carboxylic acid
(AHPN) has been shown to inhibit cell growth and induce apoptosis in
several human carcinoma cell lines. To understand the mechanism of AHPN
action, we identified, using the differential display method, several
genes that are differentially regulated by AHPN. The sequence of one of
these genes was highly homologous to mouse MyD118, a
gene closely related to GADD45. Both of these
genes have been reported to play a role in negative growth control and
apoptosis. hMyD118 was expressed in a variety of
tissues, including liver, skeletal muscle, kidney, pancreas, spleen,
thymus, prostate, and peripheral blood leukocytes. The levels of both
hMyD118 and GADD45 mRNA was rapidly
increased in a number of carcinoma cell lines after treatment with
AHPN. This increase was specific for AHPN because retinoic acid, a
retinoic acid receptor-selective retinoid, and an retinoid X
receptor-selective retinoid were ineffective. These results
suggest that this action of AHPN involves a novel mechanism that is
independent of the nuclear retinoid receptors. AHPN increases the
half-life of hMyD118 and GADD45 mRNA by
>9-fold, indicating that it causes an increase in the stability of
these mRNAs. The caspase inhibitor benzyloxycarbonyl-Val-Ala-Asp fluoro-methylketone (ZVAD. fmk) had no effect on the induction of
hMyD118, indicating that this increase occurred independently of
caspase activation. Our study demonstrates that the inhibition of cell
growth by AHPN is accompanied by an increase in hMyD118 and GADD45 mRNA, and that this enhancement is regulated
at a post-transcriptional level. Our results support a role for
MyD118 and GADD45 in the negative growth
control by AHPN.
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