Effect of progesterone antagonist RU486 on uterine progesterone receptor mRNA expression, embryonic development and ovarian function during early pregnancy in pigs.

D. Mathew, E. Sellner, C. Okamura, R. Geisert, L. Anderson, M. Lucy
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引用次数: 2

Abstract

Porcine peri-implantation development and maternal recognition of pregnancy is temporally associated with down-regulation of progesterone receptor (PGR) in the endometrial epithelium on days 10 to 12 (Geisert et al. 2006). One theory for down-regulation of uterine epithelial PGR is progesterone stimulates epithelial PGRto induce expression of RANKL [receptor activator for nuclear factor-kappa B (NF-KB) ligand or TNESF11]. RANKL binds to its receptor, RANK (TNERSF11A) to activate NF-KB. NE-KB and PGR are mutually antagonistic to one another. Activation of NE-KB, therefore, may inhibit PGR expression and induce the increase in endometrial prostaglandinendoperoxide synthase 2 (PTGS2 or COX2) expression that occurs in the endometrium of cyclic and pregnant pigs on days 10 to 12. The PGRantagonist, RU486, could be usedto determine if blocking PGRdown-regulation in the uterine epithelium prevents RANKL expression and NE-KB activation. To test this hypothesis, gilts were inseminated at estrus (d 0) and assigned to one of three treatments: RU486 (400 mg/d) on d 3, 4, and 5 (T1; n = 10); RU486 on d 6 and 7 (T2; n = 9); or control (n = 9). Blood was collected daily for plasma progesterone analysis, and the uterus and ovaries were harvested after slaughter on d 8 or d 12. Endometrial total RNA was isolated and analyzed with specific primers for RANKL, PTGS2, PGR isoform B (PGR-B) or the region common to PGR isoforms A and B (PGR-AB)by real-time reverse transcriptase PCR (RTPCR).NF-KBactivation was measured by immunohistochemistry and scored objectively by three independent individuals. Gilts treated with RU486 (T1 and 12) had heavier ovaries (17.9, 19.8 and 16.1 g [SEM = 1.1]; T1, 12 and control; P < 0.05), greater average follicular diameters (5.6, 4.9 and 3.6 mm [SEM = 0.5]; P < 0.01), a tendency for a greater number of corpora lutea (16.8, 15.0 and 13.7 [SEM = 1.0]; P < 0.07) and greater mid-cycle plasma progesterone concentration (25.2, 28.0 and 20.6 ng/mL; P < 0.05; d 9 to 11). Uterine weight (g) was reduced (P < 0.05) for T1 (608 ± 46) compared with T2 (780 ± 49) or control (785 ± 44). Treatment of giRswith RU486 affected early embryonic development. The proportion of gilts with normal early embryonic development was lowest for gilts in T1 (chi-square= 11.2; P < 0.01; Table 1). There was a treatment effect (P < 0.01) on log-transformed RANKL mRNA expression (fold change relative to internal assaycontrol) because compared with the control gilts, RANKL expression was greater in T1 (d 8 and d 12) and greater in T2 on d 12. Treatment affected both endometrial PGR-B (P < 0.0W) and PGR-AB (P < 0.001) mRNA abundance. The PGR-BmRNA was more abundant in T1 (9.1 ± 1.0) compared with control (3.1+ 1.0) with mRNA expression intermediate (6.0 ± 1.0) for T2 pigs. Likewise, the
孕酮拮抗剂RU486对早孕猪子宫孕酮受体mRNA表达、胚胎发育及卵巢功能的影响
猪的着床期发育和母体对妊娠的识别与子宫内膜上皮中孕激素受体(PGR)在第10至12天的下调有关(Geisert et al. 2006)。下调子宫上皮PGR的一种理论是黄体酮刺激上皮PGR诱导RANKL[核因子- κ B (NF-KB)配体受体激活因子或TNESF11]的表达。RANKL与其受体RANK (TNERSF11A)结合,激活NF-KB。NE-KB和PGR是相互拮抗的。因此,NE-KB的激活可能会抑制PGR的表达,并诱导子宫内膜前列腺独立过氧化物合成酶2 (PTGS2或COX2)的表达增加,这种表达发生在孕猪和孕猪的子宫内膜中,时间为10 ~ 12天。pgr拮抗剂RU486可用于确定阻断子宫上皮pgr下调是否可阻止RANKL表达和NE-KB激活。为了验证这一假设,在发情期(第0天)对后备母猪进行人工授精,并在第3、4和5天(T1)给予RU486 (400 mg/d);N = 10);第6、7天(T2;N = 9);对照组(n = 9)。每天采血进行血浆孕酮分析,并于屠宰后第8天或第12天取子宫和卵巢。采用实时逆转录酶PCR (real-time reverse transcripase PCR, RTPCR)技术分离子宫内膜总RNA,并对RANKL、PTGS2、PGR异构体B (PGR-B)或PGR异构体A和B共同区域(PGR- ab)特异引物进行分析。NF-KBactivation通过免疫组织化学测量,并由三个独立个体客观评分。用RU486处理的后备母猪(T1和12)卵巢较重(17.9、19.8和16.1 g [SEM = 1.1];T1、12和对照;P < 0.05),平均卵泡直径较大(5.6、4.9和3.6 mm [SEM = 0.5];P < 0.01),黄体数量有增加的趋势(16.8、15.0和13.7 [SEM = 1.0];P < 0.07),周期中期血浆黄体酮浓度较高(25.2、28.0和20.6 ng/mL;P < 0.05;D 9 ~ 11)。T1组子宫重量(608±46)较T2组(780±49)和对照组(785±44)显著降低(P < 0.05)。RU486对女孩的早期胚胎发育有影响。T1期后备母猪早期胚胎发育正常的比例最低(卡方= 11.2;P < 0.01;表1)。与对照母猪相比,处理对对数转化RANKL mRNA表达有显著影响(P < 0.01),因为与对照母猪相比,RANKL表达在T1(第8天和第12天)更高,在T2(第12天)更高。治疗对子宫内膜PGR-B (P < 0.01 w)和PGR-AB (P < 0.001) mRNA丰度均有影响。T1期PGR-BmRNA表达量(9.1±1.0)高于对照组(3.1+ 1.0),T2期PGR-BmRNA表达量居中(6.0±1.0)。同样,
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