Rm. Payne et al., CREATINE-KINASE ISOENZYMES ARE HIGHLY REGULATED DURING PREGNANCY IN RAT UTERUS AND PLACENTA, The American journal of physiology, 265(4), 1993, pp. 50000624-50000635
Creatine kinase (CK) isoenzymes play a central role in energy transfer
. Expression of CK isoenzymes in rat uterus and placenta was analyzed
to evaluate their contribution to energy metabolism during pregnancy a
nd delivery. Tissue from the uterine horns and placentas of pregnant r
ats from day 14 of gestation to 17 days postpartum was analyzed for ex
pression of ''brain'' CK (BCK) and ubiquitous mitochondrial CK (uMtCK)
mRNA, protein, and enzyme activity. uMtCK mRNA expression is high in
prepartum uterus, but rapidly falls (>10-fold) after delivery to a nad
ir at 7 days postpartum. Prepartum BCK mRNA expression is coordinate w
ith uMtCK but has a 15-fold greater expression than uMtCK. Both CK mRN
As rise by 17 days postpartum. Both BCK and uMtCK mRNA expressions are
strongly induced in placenta at 20 days gestation with a rapid fall (
>6-fold) immediately before delivery. Protein expression of BCK and uM
tCK is also coordinate. However, analysis of mRNA and protein expressi
on indicates that significant posttranscriptional regulation of both k
inds of CK also occurs. CK activity in uterus and placenta reflects BC
K expression. By immunohistochemistry, BCK and uMtCK protein expressio
n is highly localized in the placenta and endometrium of prepartum ute
rus. This expression shifts entirely to the uterine smooth muscle by 1
7 days postpartum. uMtCK mRNA expression is rapidly induced by beta-es
tradiol in vitro (>6-fold), demonstrating estrogen-responsive elements
in the uMtCK nuclear gene. Thus a second isoenzyme of CK, uMtCK, is e
xpressed in rat uterus and placenta and is highly regulated with BCK.
These results suggest an important role for CK in the maintenance and
termination of pregnancy.