Grazul-Bilska A T, Reynolds L P, Kirsch J D, Redmer D A
Department of Animal and Range Sciences, North Dakota State University, Fargo 58105, USA. grazul/plains.nodak.edu
Biol Reprod. 1996 Mar;54(3):538-45. doi: 10.1095/biolreprod54.3.538.
Cellular interactions mediated by both contact-dependent and contact-independent mechanisms are probably important to maintain luteal function. The objective of the present study was to evaluate the role of cAMP in regulation of contact-dependent gap junctional intercellular communication (GJIC) of bovine luteal cells from several stages of luteal development. In experiment 1, corpora lutea (n = 5) from the mid-luteal phase of the estrous cycle were dissociated with collagenase, and cells were preincubated in a medium with serum. Then the medium was changed to serum-free media containing a cAMP agonist (dbcAMP; 1 mM) or antagonist (Rp-cAMPS; 0, 3, 10, 30, or 100 microM). In experiment 2, corpora lutea from the early (n = 7), mid- (n = 6), and late (n = 6) luteal phases of the estrous cycle were dissociated and preincubated as in experiment 1, and luteal cells were then incubated with no treatment, LH (100 ng/ml), dbcAMP (1 mM), forskolin (1 microM), Rp-cAMPS (100 microM), or LH+Rp-cAMPS. After incubation of luteal cells with treatments for 18-24 h, media were collected for determination of progesterone and cAMP concentrations. Then the rate of GJIC was evaluated for selected cells (small luteal cells in contact with small luteal cells, and large luteal cells in contact with small luteal cells) by using the fluorescence recovery after photo-bleaching technique and laser cytometry. In experiment 1, dbcAMP increased (p < 0.01) but Rp-cAMPS (p < 0.05) decreased GJIC between small luteal cells and between large and small luteal cells. In addition, dbcAMP stimulated (p < 0.01) but Rp-cAMPS did not affect progesterone secretion. In experiment 2, treatments affected (p < 0.05) GJIC and progesterone production of luteal cells from the mid- and late but not from the early luteal phase of the estrous cycle. GJIC between small luteal cells was increased (p < 0.01) by LH, dbcAMP, and forskolin. GJIC between large and small luteal cells was increased (p < 0.05) by dbcAMP and forskolin. Rp-cAMPS decreased (p < 0.01) GJIC between small luteal cells (mid-luteal phase) and between large and small luteal cells (mid- and late luteal phases). In addition, Rp-cAMPS inhibited (p < 0.05) the stimulatory effects of LH on GJIC between small luteal cells from the mid- and late luteal phases of the estrous cycle. For luteal cells from the mid- and late luteal phases, progesterone production was increased (p < 0.05) by LH, dbcAMP, forskolin, and LH+Rp-cAMPS, but was not affected by Rp-cAMPS. Across all stages of the estrous cycle, cyclic AMP accumulation in media was greater (p < 0.05) in LH- and forskolin-treated cultures than in control cultures and was greater (p < 0.01) in forskolin-treated than in LH-treated cultures. These data demonstrate that small and large luteal cells communicate with each other and that the rate of GJIC is modulated by LH and cAMP, as has been shown previously for other cell types. Thus, cAMP appears to be involved in the regulation of GJIC within the bovine corpus luteum, which probably is an important mechanism for coordinating luteal cell function.
由接触依赖性和非接触依赖性机制介导的细胞间相互作用可能对维持黄体功能很重要。本研究的目的是评估环磷酸腺苷(cAMP)在调节来自黄体发育几个阶段的牛黄体细胞的接触依赖性缝隙连接细胞间通讯(GJIC)中的作用。在实验1中,用胶原酶解离发情周期中期黄体期的黄体(n = 5),并将细胞在含血清的培养基中预孵育。然后将培养基换成含cAMP激动剂(二丁酰环磷腺苷钙;1 mM)或拮抗剂(Rp-cAMPS;0、3、10、30或100 microM)的无血清培养基。在实验2中,解离发情周期早期(n = 7)、中期(n = 6)和晚期(n = 6)黄体期的黄体,并如实验1中那样进行预孵育,然后将黄体细胞分别进行无处理、促黄体生成素(LH;100 ng/ml)、二丁酰环磷腺苷钙(1 mM)、福斯高林(1 microM)、Rp-cAMPS(100 microM)或LH+Rp-cAMPS处理。将黄体细胞与处理物孵育18 - 24小时后,收集培养基以测定孕酮和cAMP浓度。然后通过光漂白后荧光恢复技术和激光细胞术评估选定细胞(小黄体细胞与小黄体细胞接触、大黄体细胞与小黄体细胞接触)的GJIC速率。在实验1中,二丁酰环磷腺苷钙增加了(p < 0.01)小黄体细胞之间以及大、小黄体细胞之间的GJIC,但Rp-cAMPS降低了(p < 0.05)GJIC。此外,二丁酰环磷腺苷钙刺激了(p < 0.01)孕酮分泌,但Rp-cAMPS不影响孕酮分泌。在实验2中,处理影响了(p < 0.05)发情周期中期和晚期而非早期黄体期黄体细胞的GJIC和孕酮产生。LH、二丁酰环磷腺苷钙和福斯高林增加了(p < 0.01)小黄体细胞之间的GJIC。二丁酰环磷腺苷钙和福斯高林增加了(p < 0.05)大、小黄体细胞之间的GJIC。Rp-cAMPS降低了(p < 0.01)小黄体细胞之间(中期黄体期)以及大、小黄体细胞之间(中期和晚期黄体期)的GJIC。此外,Rp-cAMPS抑制了(p < 0.05)LH对发情周期中期和晚期小黄体细胞之间GJIC的刺激作用。对于中期和晚期黄体期的黄体细胞,LH、二丁酰环磷腺苷钙、福斯高林和LH+Rp-cAMPS增加了(p < 0.05)孕酮产生,但Rp-cAMPS不影响孕酮产生。在发情周期的所有阶段中,与对照培养物相比,LH和福斯高林处理的培养物中培养基中环磷酸腺苷的积累更多(p < 0.05),且福斯高林处理的培养物中环磷酸腺苷的积累比LH处理的培养物更多(p < 0.01)。这些数据表明,小黄体细胞和大黄体细胞相互通讯,并且GJIC速率受LH和cAMP调节,正如先前在其他细胞类型中所显示的那样。因此,cAMP似乎参与了牛黄体中GJIC的调节,这可能是协调黄体细胞功能的重要机制。
