Che-Wei Ou scite author profile

Che-Wei Ou

2Publications

170Citation Statements Received

65Citation Statements Given

How they've been cited

266

154

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Affiliations

Linkou Chang Gung Memorial Hospital, Chang Gung Memorial Hospital, Chang Gung University

Publications

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Increased Expression of the Rat Myometrial Oxytocin Receptor Messenger Ribonucleic Acid during Labor Requires Both Mechanical and Hormonal Signals1

Chen

et al. 1998

117

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We investigated the expression of the mRNA encoding the oxytocin receptor (OTR) in rat myometrium throughout gestation and its regulation by progesterone and mechanical stretch. Using a semiquantitative reverse transcription-polymerase chain reaction approach, OTR mRNA was found to increase abruptly at the onset of spontaneous labor at term. Progesterone (4 mg/day) starting on Day 20 of gestation blocked this increase. Ovariectomy on Day 17 induced preterm labor 96 h after surgery and a significant increase in myometrial OTR mRNA levels 48 and 96 h after surgery. Both preterm labor and the rise in myometrial OTR expression were blocked by progesterone. To investigate the effects of stretch on myometrial OTR mRNA expression, unilaterally pregnant rats underwent either sham operation or placement of a tube in the nongravid uterine horn to distend the myometrium. On Day 20, stretch had no effect on OTR expression in the nongravid horns. During labor, OTR mRNA was highly expressed in the gravid horns as well as the nongravid stretched horns. In contrast, the level remained low in the nongravid unstretched horns. These results indicate that expression of rat myometrial OTR mRNA during pregnancy and labor is regulated by coordinated interactions between mechanical and endocrine signals.

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Expression of Connexin-43 and Connexin-26 in the Rat Myometrium during Pregnancy and Labor Is Differentially Regulated by Mechanical and Hormonal Signals*

Orsino

Lye

1997

149

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We investigated the effects of uterine stretch on the levels of messenger RNA (mRNA) encoding the gap junction proteins connexin-43 (Cx-43) and connexin-26 (Cx-26) as well as the presence of gap junction plaques formed by Cx-43 within the myometrium. In nonpregnant ovariectomized rats, stretch of one uterine horn with a polyvinyl tube induced a significant increase in myometrial Cx-43 mRNA levels, an effect that was blocked by progesterone; no expression of Cx-26 was detected in the presence or absence of stretch. To investigate whether pregnancy and parturition modified the response to stretch, unilaterally pregnant rats underwent either sham operation or placement of a tube in the nongravid uterine horns. On day 20 of pregnancy, expression of Cx-43 mRNA in gravid horns was low, and stretch did not increase this level. Cx-26 mRNA expression was elevated at this time, but only in the gravid horns. Cx-43 mRNA was highly expressed in the myometrium of gravid horns during labor, but Cx-43 expression in sham-operated, nongravid horns remained low. In contrast, nongravid horns stretched with tubes expressed Cx-43 mRNA at levels similar to those in gravid horns. Levels of Cx-26 mRNA in gravid horns fell between days 20 and 23, and this was not altered by stretch. Punctate Cx-43 immunofluorescence (indicative of gap junction formation) also increased in the myometrium after uterine stretch and in gravid horns during labor. Our data demonstrate that differential mechanisms regulate the expression of Cx-43 and Cx-26 in the pregnant myometrium. Cx-43 expression during labor is dependent upon myometrial stretch under conditions of low progesterone. In contrast, Cx-26 expression during late pregnancy, although requiring the presence of the fetal/placental unit, does not require stretch of the myometrium.

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Che-Wei Ou

Increased Expression of the Rat Myometrial Oxytocin Receptor Messenger Ribonucleic Acid during Labor Requires Both Mechanical and Hormonal Signals1

Expression of Connexin-43 and Connexin-26 in the Rat Myometrium during Pregnancy and Labor Is Differentially Regulated by Mechanical and Hormonal Signals*

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