M. Bagumanibasheka et al., DIFFERENCES IN THE IN-VITRO SENSITIVITY OF OVINE MYOMETRIUM AND MESOMETRIUM TO OXYTOCIN AND PROSTAGLANDINS E-2 AND F2-ALPHA, Biology of reproduction, 58(1), 1998, pp. 73-78
We compared the in vitro response to oxytocin, prostaglandin (PC)E-2,
and PCF2 alpha of myometrium and mesometrium from six ovariectomized e
wes and 53 ewes at 106-145 days gestational age (dCA), including 14 ew
es in spontaneous or betamethasone-induced labor. Myometrial baseline
activity increased from 217 +/- 27 mN/cm(2) of cross-sectional area (m
ean +/- SEM) in ovariectomized ewes to a plateau oi 696 +/- 39 mN/cm(2
) at 126-135 dGA. No gestation-related changes were observed in mesome
trial baseline activity. Myometrial, but not mesometrial, maximum tens
ion in response to agonists increased with gestation to a plateau at 1
26-135 dCA. The pD(2) (negative logarithm of the EC50) values for oxyt
ocin were similar in both tissues and did not change with gestation. D
uring pregnancy, the myometrial pD(2) of both PGs was one order of mag
nitude higher than the mesometrial pD(2). The results indicate an incr
ease in myometrial uterotonic receptor-mediated activity that precedes
labor with no increase at labor, suggesting that in sheep, activation
of the basic mechanisms responsible for strength of myometrial activi
ty at labor occurs by 135 dCA. The greater sensitivity of the myometri
um than the mesometrium to PGs supports a major role for intrauterine
paracrine factors in regulating myometrial contractility.