Techniques for the isolation of ovarian follicles and maturation of oocytes in vitro have enormous reproductive potential. Preservation of normal tissue function is vital. This study emphasizes the ultrastructure and viability of mechanically isolated bovine small (diameter 40-100 microm) preantral and large (140-450 microm) preantral/early antral follicles. Viability studies were performed for small preantral follicles. The presence of esterase activity, active mitochondria and dead cells served as parameters of oocyte and granulosa cell viability. After 1 day of culture, all follicles had a viable granulosa, displaying active mitochondria and/or esterase activity in all their cells, although a few (generally <5) dead granulosa cells were present in 17% of the follicles. Of the oocytes, 35 and 80% had esterase activity and active mitochondria respectively, whereas 8% appeared dead. The percentages of oocytes showing esterase activity and active mitochondria decreased during culture, whereas the percentage of follicles with dead oocytes or dead granulosa cells strongly increased. More than 90% of the isolated small follicles showed a poor ultrastructure, especially of their oocyte, which points to a negative selective isolation of poor follicles in the present study and/or an isolation procedure-induced damage of follicles. With respect to large preantral follicles, 42% of those distributed in the cortex and 64% of those isolated and cultured for 1 day had a poor ultrastructure. In contrast with the small ones, the percentage of ultrastructurally poor large preantral follicles had decreased to 27% after 5 days of culture, possibly due to better isolation and culture conditions. It is recommended to use ultrastructural and/or viability cell markers for in-vitro grown follicles to evaluate their quality, and particularly that of their oocytes.
The present study was designed to analyze the role of endogenous interleukin-1 (IL-1) in the ACTH, corticosterone (CORT), and IL-6 responses of rats to bacterial endotoxin. Recombinant rat IL-1 beta (rIL-1 beta) when given ip resulted in dose-dependent increases in plasma ACTH, CORT, and IL-6 concentrations. Plasma ACTH and CORT responses could be induced by low rIL-1 beta doses that did not elevate plasma IL-6 levels. The half-maximally effective dose of rIL-1 beta was less than 0.6 microgram/kg for the ACTH and CORT responses and higher than 2.5 micrograms/kg for the IL-6 response. Time-course studies indicated that plasma ACTH and CORT concentrations were already elevated 30 min after the injection of rIL-1 beta (2.5 micrograms/kg, ip), with peak values after 1-2 h, followed by a subsequent decline. In contrast, plasma IL-6 concentrations became elevated 2 h after the injection of rIL-1 beta. In another set of experiments, the administration of endotoxin resulted in a dose-dependent elevation of the plasma ACTH, CORT, and IL-6 concentrations. The dose-response characteristics for ACTH, CORT, and IL-6 were different. The half-maximally effective dose for the ACTH and CORT, and IL-6 responses were approximately 2.5 micrograms/kg and more than 10 micrograms/kg, respectively. Time courses of plasma ACTH, CORT, and IL-6 responses to endotoxin (2.5 micrograms/kg, ip) were similar, with peak values measured after 2 h. When given alone, the human IL-1 receptor antagonist (IL-1RA; 1 or 2.5 mg/kg, ip) did not affect resting plasma ACTH and CORT concentrations and reduced plasma IL-6 concentrations in one experiment. At a dose of 1 mg/kg, IL-1RA inhibited ACTH and IL-6 responses to rIL-1 beta (2.5 micrograms/kg, ip) by 75% and 90%, respectively. Administration of IL-1RA (2.5 mg/kg, ip) 30 min after endotoxin (2.5 micrograms/kg, ip) completely prevented the ACTH response and partially inhibited the CORT response, but did not affect the IL-6 response measured 2.5 h after endotoxin administration. We conclude that 1) IL-1 receptors are involved in the ACTH and IL-6 responses to rat IL-1 beta; 2) the ACTH response, but not the IL-6 response, to a low dose dose of endotoxin in rats requires IL-1 receptor activation by endogenous produced IL-1; and 3) circulating IL-6 is not a prime mediator involved in ACTH and CORT responses to low doses of rIL-1 beta and endotoxin.
In the present study the inhibitory effects of a panel of 21 monoclonal antibodies (moabs) to rat interleukin 1 beta (rIL-1 beta) on the binding of 125I-labeled rIL-1 beta to murine type I IL-1 receptors on EL4 cells were investigated. Furthermore, the epitopes of these moabs were determined by the use of the pepscan technique, and these epitopes were visualized on a three-dimensional model of rIL-1 beta. Some moabs (SILK 3, 4, 5, 6, and 22) inhibited receptor binding of radioiodinated rIL-1 beta at concentrations that are similar to the dissociation constant values of antibody-rIL-1 beta binding. Another group of moabs (SILK 7, 11, 20, 21, and 23) also inhibited receptor binding but only at concentrations that are 10-150 times higher than their dissociation constants. A large group of moabs did not affect receptor binding in the concentration range tested, and two moabs enhanced the binding of rIL-1 beta to type I receptors. The result of pepscan analysis shows that the moabs bound to one or more of the amino acid sequences 35-49, 66-85, 78-97, 106-124, and 123-143 of mature rIL-1 beta. Modeling of rIL-1 beta shows that the binding domains of SILK 4, 5, 6, and 22 (sequence 123-143) is located at the closed end of the molecule, indicating that this part of rIL-1 beta harbors domains that are crucial for type I receptor binding. The binding domain of SILK 3 (sequence 66-85) is also located at this end of the molecule. In contrast, the binding domains of SILK 7, 11, 20, 21, and 23 (sequence 78-97) are located at the open end of the molecule, which is at the same face as the amino- and carboxy-terminals. The binding domain of SILK 16 (sequence 106-124) is positioned at the center of the molecule. It is concluded that the closed end of rIL-1 beta contains sequences that are crucial for its binding to type I receptors on murine EL4 cells. Because of the high concentrations of antibodies to residues 78-97 of rIL-1 beta that are needed to interfere with receptor binding, the importance of these domains in binding to type I receptors remains uncertain.
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