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Y.-J. Y. Wan
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L. Wang
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T.-C. J. Wu
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ABSTRACT

The presence of retinoic acid receptor (RAR) α, β and γ mRNA was examined in 16 different kinds of rat tissue using the highly sensitive reverse transcriptase-polymerase chain reaction technique. The data demonstrated that each tissue expressed at least two types of RAR mRNA. Among the three types of RAR mRNA, RAR α was widely expressed in all types of organ and was the dominant form expressed in the gastrointestinal tract. RAR β mRNA was not present in the intestine and spleen. In addition, RAR β mRNA levels were high in the heart, lung, brain, testis and epididymis. RAR γ mRNA was abundant in both male and female reproductive systems, as well as epidermal tissues. The prevalence of each RAR mRNA in the tissues suggests the diverse biological roles of these receptors.

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Y-J Y Wan
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L Wang
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T-C J Wu
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Mouse embryonal carcinoma F9 cells are pluripotent stem cells and differentiate into primitive endodermal cells upon treatment with retinoic acid (RA). We have recently shown that in F9 cells RA regulates gene expression of activin receptor type II (ActR-II), whose ligand is a potent differentiation agent. The present study examined the regulation of the newly cloned activin receptor type IIB (ActR-IIB) gene by RA. F9 cells expressed equal amounts of three ActR-IIB transcripts of 8·0, 7·5 and 4·0 kb. Both 9-cis-RA (c-RA) and all-trans-RA (t-RA) induced ActR-IIB gene expression in a dose-dependent manner. At 10−9 m c-RA exerted no effect, while 10−5 m c-RA increased the 8·0 kb ActR-IIB transcript about sevenfold. In contrast, t-RA induced the 8·0kb ActR-IIB transcript fivefold at 10−9 m and up to eightfold at 10−5 m. The inductive effect on the 8·0 kb transcript was greater than that on the 7·5 kb transcript, and was least effective on the 4·0 kb transcript, suggesting that these three mRNA isoforms may originate from different promoters. Both cycloheximide and actinomycin D inhibited the inductive effect of t-RA on ActR-IIB gene expression, in contrast to ActR-II whose gene expression was not suppressed by cycloheximide but abolished by actinomycin D. Thus, endodermal differentiation of F9 cells is associated with activation of ActR-IIB gene and the mechanisms involved in the regulation of ActR-II and IIB gene expression are different.

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Y-J Y Wan
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T Pan
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L Wang
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J Locker
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T-C J Wu
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ABSTRACT

In McA-RH 8994 rat hepatoma cells, all-transretinoic acid (t-RA) induces expression of the α-fetoprotein (AFP) and albumin genes and results in a phenotype similar to differentiated fetal hepatocytes. The present study elucidated the mechanism involved in AFP gene regulation mediated by retinoic acid. Northern blot analyses demonstrated that 9-cis-retinoic acid (c-RA), a ligand for retinoid x receptors (RXRs), also induced expression of the AFP gene in McA-RH 8994 cells. The induction was time- and dose-dependent. Northern blots and transfection assays using the 7·3 kb full-length regulatory region of the AFP gene demonstrated that c-RA was more effective than t-RA in regulating expression of the AFP gene. At 10−7 m, c-RA increased AFP mRNA 5-fold and chloramphenicol acetyltransferase (CAT) activity 2·5-fold. In contrast, t-RA at a concentration of 10−7 m exerted no significant effect; 10− 6 to 10−5 m t-RA was needed to affect AFP gene expression. These data suggested that activation of RXRs is essential for the regulation of the AFP gene. Co-transfection experiments revealed that overexpression of RXRα in McA-RH 8994 cells further enhanced the CAT activity induced by c-RA. In addition, c-RA did not alter the half-life of AFP mRNA. Thus, RXRα may play a crucial role in transcriptional regulation of the AFP gene and in controlling hepatocyte phenotype.

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