Knox R V, Zhang Z, Day B N, Anthony R V
Department of Animal Sciences, University of Missouri, Columbia 65211.
Endocrinology. 1994 Dec;135(6):2517-25. doi: 10.1210/endo.135.6.7988439.
The corpus luteum is the primary source of circulating relaxin (RLX) in female pigs. However, a preliminary experiment in our laboratory identified RLX in the uterine endometrium of a day 16 pregnant gilt that had been ovariectomized on day 8 of pregnancy, and the pregnancy maintained via progesterone replacement therapy. Therefore, our objective was to examine the uterus as a potential extraovarian source of RLX during the estrous cycle and early pregnancy in pigs. Reproductive tissues were collected from pregnant (n > or = 3/day) and nonpregnant (n > or = 3/day) gilts on days 10 (n = 6), 12 (n = 6), 14 (n = 6), 16 (n = 8), 18 (n = 6), and 20 (n = 6) of the estrous cycle and pregnancy and on day 42 (n = 2) of gestation. To verify that the RLX identified in uterine tissues was not of ovarian origin, three additional pregnant gilts were ovariectomized on day 8, and the pregnancy was maintained by progesterone replacement therapy until day 16, when the reproductive tissues were collected for immunohistochemistry. The uterine tissues were scored for specific RLX immunostaining and analyzed for the effects day and pregnancy by analysis of variance. Within the uterine endometrium, the luminal epithelium of pregnant pigs contained more RLX than that of nonpregnant pigs (P < or = 0.001). However, there was no difference in either the glandular epithelium or stromal tissues (P > or = 0.10). Increased RLX in the luminal epithelium of pregnant pigs was detected on both days 18 (P < or = 0.05) and 20 (P < or = 0.001) of gestation compared to that in nonpregnant pigs on similar days of the estrous cycle. An effect of day was also observed for RLX immunostaining in the luminal epithelium (P < or = 0.005), but not in glandular or stromal tissues (P > or = 0.10). In both pregnant and nonpregnant pigs, luminal epithelial RLX immunostaining was faint on days 10-12. Thereafter, RLX immunostaining increased on day 14 to reach peak levels on day 16. In nonpregnant pigs, RLX immunostaining dropped to low levels on day 18 and became faint to absent by day 20 of the estrous cycle. In pregnant pigs, RLX immunostaining remained elevated, but appeared to decline slightly by day 20 and became undetectable by day 42 of gestation. RLX immunolocalization in the glandular epithelium was detected on all days in pregnant and nonpregnant pigs, whereas stromal-specific immunostaining was not observed.(ABSTRACT TRUNCATED AT 400 WORDS)
黄体是雌性猪循环松弛素(RLX)的主要来源。然而,我们实验室的一项初步实验在一头妊娠第16天的妊娠母猪的子宫内膜中发现了RLX,这头母猪在妊娠第8天进行了卵巢切除,并通过孕酮替代疗法维持妊娠。因此,我们的目的是研究在母猪发情周期和妊娠早期,子宫作为RLX潜在的卵巢外来源的情况。在发情周期和妊娠的第10天(n = 6)、12天(n = 6)、14天(n = 6)、16天(n = 8)、18天(n = 6)和20天(n = 6)以及妊娠第42天(n = 2),从妊娠(n≥3/天)和非妊娠(n≥3/天)母猪中采集生殖组织。为了验证在子宫组织中鉴定出的RLX不是卵巢来源的,另外三头妊娠母猪在第8天进行了卵巢切除,并通过孕酮替代疗法维持妊娠至第16天,此时采集生殖组织进行免疫组织化学分析。对子宫组织进行特异性RLX免疫染色评分,并通过方差分析分析天数和妊娠的影响。在子宫子宫内膜中,妊娠母猪的腔上皮含有的RLX比非妊娠母猪多(P≤0.001)。然而,腺上皮或基质组织中没有差异(P≥0.10)。与发情周期相似天数的非妊娠母猪相比,妊娠母猪腔上皮中RLX在妊娠第18天(P≤0.05)和第20天(P≤0.001)均有所增加。在腔上皮中也观察到天数对RLX免疫染色的影响(P≤0.005),但在腺上皮或基质组织中没有观察到(P≥0.10)。在妊娠和非妊娠母猪中,腔上皮RLX免疫染色在第10 - 12天均很微弱。此后,RLX免疫染色在第14天增加,在第16天达到峰值水平。在非妊娠母猪中,RLX免疫染色在发情周期第18天降至低水平,到第20天变得微弱至消失。在妊娠母猪中,RLX免疫染色保持升高,但在妊娠第20天似乎略有下降,到妊娠第42天变得无法检测到。在妊娠和非妊娠母猪的所有天数中均检测到腺上皮中的RLX免疫定位,而未观察到基质特异性免疫染色。(摘要截断于400字)
