It. Hwang et al., Identification and characterization of a new member of the placental prolactin-like protein-C (PLP-C) subfamily, PLP-C beta, ENDOCRINOL, 141(9), 2000, pp. 3343-3352
We have isolated a complementary DNA (cDNA) clone that encodes a new member
of the PRL-like protein-C (PLP-C) subfamily of the PRL gene family. The cl
one was amplified from a 13.5-day-old mouse conceptus cDNA library by PCR u
sing primers based on conserved regions of PLP-C sequences. The full-length
cDNA encodes a predicted protein of 241 residues, which contains a putativ
e signal sequence and 2 putative N-linked glycosylation sites. The predicte
d protein shares 55-66% amino acid identity with mouse PLP-C alpha and rat
PLP-D, PLP-H, PLP-Cv, and PLP-C and also contains 6 homologously positioned
cysteine residues. Thus, we named this protein PLP-Cp for consistency. We
have also isolated rat PLP-CP from rat placenta cDNA library. Surprisingly,
two messenger RNA (mRNA) isoforms of rat PLP-C beta were isolated: one mRN
A (rPLP-C beta) encodes a 241-amino acid product, but another mRNA (rPLP-C
beta Delta 39) lacks 39 bases that encode for a region rich in aromatic ami
no acids. The 39-bp region corresponds to exon 3 of other PLP-C subfamily m
embers, such as PLP-C alpha, PLP-CV, and d/tPRP. It suggests that the two i
soforms are probably generated by an alternative splicing from a single gen
e. RT-PCR analysis revealed that the rPLP-C beta form was dominantly expres
sed in placenta, although both isoforms are coexpressed during placentation
. The mouse PLP-C beta mRNA expression, which was specific to the placenta,
was first detected by Northern analysis on embryonic day 11.5 (E 11.5) and
persisted until birth. However, in situ hybridization analysis revealed mP
LP-C beta expression on E 10.5 in specific trophoblast subsets, such as gia
nt cells and spongiotrophoblast cells. mPLP-C beta mRNA was detected in the
labyrinthine zone on E 18.5, suggesting that spongiotrophoblast cells had
penetrated the labyrinthotrophoblast zone. Consistent with the observed exp
ression in trophoblast giant cells, PLP-C beta expression was also detected
in in vitro differentiated Rcho-1 cells, which express the trophoblast gia
nt cell phenotype. In summary, overall high amino acid identity (79%), the
locations of cysteine residues, and consensus sites for N-linked glycosylat
ion between mouse and rat PLP-C beta clearly indicate that PLP-C beta is a
bona fide member of the PLP-C subfamily. The conservation between mouse and
rat, the presence of alternative isoforms, and the pattern of expression d
uring gestation suggest the biological significance of PLP-C beta during pr
egnancy.