Kb. Becker et al., THE TYPE-III 5-DEIODINASE IN RANA-CATESBEIANA TADPOLES IS ENCODED BY A THYROID HORMONE-RESPONSIVE GENE, Endocrinology, 136(10), 1995, pp. 4424-4431
We have recently reported that the Xenopus laevis complementary DNA (c
DNA), XL-15, encodes a selenoprotein that is a 5-deiodinase (5D). XL-1
5 represents a gene that is up-regulated by thyroid hormone in this sp
ecies. We now report the isolation from a Rana catesbeiana (RC) cDNA l
ibrary of a cDNA for the RC 5D (RC5D). RC5D a 1534-base pair cDNA that
exhibits 78% identity to XL-15 in the coding region, including the TG
A codon, which in XL-15 encodes selenocysteine, and a putative selenoc
ysteine insertion sequence (SECIS) located in the 3'-untranslated regi
on. Transcripts of RC5D, synthesized in vitro, induce 5D activity afte
r their injection into Xenopus laevis oocytes. RC5D hybridizes to a 2.
2-kilobase messenger RNA (mRNA) species in RC tissues. The expression
of RC5D was studied in 10 tissues from untreated and T-3-treated preme
tamorphic tadpoles. RC5D mRNA transcripts and 5D activity were detecte
d in most tissues examined, and the levels of both were greatly increa
sed in T-3-stimulated tadpoles. Furthermore, the levels of RC5D mRNA t
ranscripts correlated closely with 5D, but not with 5'-deiodinase (5'D
), activity. 5'D was not enhanced by a 4-day exposure of the tadpoles
to T-3. The up-regulation of RC5D gene expression by T-3 was demonstra
ble in tadpoles by stage V, but was found to be transient. The levels
of RC5D transcripts and 5D activity were highest after 2-3 days and 5
days of T-3 exposure, respectively, but had fallen by 10 days to level
s comparable to those in unexposed tadpoles. It is concluded that RC5D
encodes a selenoprotein that is a 5D, and it represents a gene that i
s up-regulated by T-3. On the basis of the findings presented herein,
it is suggested that the 5D system plays a major role in regulating in
tracellular T-3 levels in developing tadpoles.