The effects of HCG, indomethacin, flufenamic acid and aspirin in the immature female rat.

Immature female rats (21 to 23 days old, 35 to 45 g) were injected subcutaneously with 2-5 i. u. HCG 18 hr before autopsy. Ovaries and uteri were removed; wet weight, dry weight and uterine protein content were determined. Ovarian and uterine weights, ovarian blood volume and uterine protein content were increased after HCG treatment. When immature female rats were pretreated with indomethacin, flufenamic acid or aspirin, the ovarian effects of HCG were inhibited: only slight increases in ovarian weight and blood volume were observed. Indomethacin attenuated the increases in uterine weight, and protein content, but neither flufenamic acid nor aspirin were effective in inhibiting these responses. The possible role of prostaglandins and of oestrogen as mediators of these responses is discussed.     

Stimulation of the estrogen synthesizing system of the immature rat ovary by exogenous and endogenous gonadotropins

Immature rat ovaries increase their secretion of estradiol (E₂) when stimulated by gonadotropins but only after a lag period of several hours. Once established, estrogen secretion can be maintained, or increased, by the continued presence of gonadotropin. A combination of ovine FSH+LH given at 2 hr intervals stimulated the estrogen synthesizing system ($\text{ESS}$) of the ovary and serum E₂ showed a pronounced rise between 16 and 20 hrs after the initial injection. When given every 2 hrs for 5 doses (0–8 hrs) serum E₂ was undetectable. However, it was increased if 20 IU PMS was injected at the time of the last dose of FSH+ LH. Endogenous FSH&LH, increased by hourly injections of LH-releasing hormone for a period of 8 hrs, stimulated the $\text{ESS}$; serum E₂ increased at the expected time when this treatment was followed by an injection of PMS.Anti-PMS antiserum given 12 hrs after PMS, prevented the expected rise in serum E₂ at 24 hrs. However, FSH, LH or a combination of the two given every 2 hrs beginning at the time of the anti-PMS produced an increase in E₂ secretion; the combination was more effective than either hormone alone.These results are consistent with the interpretation that a combined FSH-LH action is responsible for induction of the $\text{ESS}$ in the immature rat ovary. The combination of hormones is also very effective in maintaining estrogen secretion but some function appears possible with FSH or LH alone.     

Effect of HCG on the interstitial cells and androgen production in the immature rat testis.

The effect on the interstitial cells in the immature rat testis of administration of HCG for different periods was correlated with testosterone plasma levels. Significant and progressive stimulation of mitosis was observed after 3 days of HCG treatment but stabilization occurred after 5 days. The numbers of precursor fibroblasts had increased by the 5th day and were still increasing by the 10th day of treatment. Numbers of Leydig cells were significantly greater at 5 and 10 days of treatment. Plasma testosterone showed a progressive and continuous increase in all groups. The increase in Leydig cell number is considered to be due to a combination of increased stimulation of mitoses in Leydig cells and differentiation of precursor fibroblasts. Mitosis seems to precede fibroblastic differentiation, but the latter continues when mitotic changes have stabilized. The elevation of plasma testosterone concentrations is probably due firstly to the stimulation of the existing Leydig cells and then to the increase in the number of hormone-secreting cells.     

Development of gonadotrophin-binding sites in the immature rat ovary.

There was a temporal relationship between ovarian development and the sites to which 125I-labelled gonadotrophins became bound. Labelled human LH and FSH bound uniformly to 5- and 15-day-old ovaries. At 21 days, heavy FSH and light LH binding was observed over the granulosa cells increased at Day 33 and again at Day 38. Quantitative determination by gamma-ray spectrophotometry of binding to ovarian sections showed that LH binding gradually increased with advancing age, but FSH binding remained relatively constant between Days 5 and 33 with a significant increase between Days 33 and 38.     

Differential metabolism of exogenous and endogenous arachidonic acid in human neutrophils.

Leukotrienes can be produced by cooperative interactions between cells in which, for example, arachidonate derived from one cell is oxidized to leukotriene A(4) (LTA(4)) by another and this can then be exported for conversion to LTB(4) or cysteinyl leukotrienes (cys-LTs) by yet another. Neutrophils do not contain LTC(4) synthase but are known to cooperate with endothelial cells or platelets (which do have this enzyme) to generate cys-LTs. Stimulation of human neutrophils perfusing isolated rabbit hearts resulted in production of cys-LTs, whereas these were not seen with perfused hearts alone or isolated neutrophils. In addition, the stimulated, neutrophil-perfused hearts generated much greater amounts of total LTA(4) products, suggesting that the hearts were supplying arachidonate to the neutrophils and, in addition, that this externally derived arachidonate was preferentially used for exported LTA(4) that could be metabolized to cys-LTs by the coronary endothelium. Stable isotope-labeled arachidonate and electrospray tandem mass spectrometry were used to differentially follow metabolism of exogenous and endogenous arachidonate. Isolated, adherent neutrophils at low concentrations (to minimize transcellular metabolism between them) were shown to generate higher proportions of nonenzymatic LTA(4) products from exogenous arachidonate (deuterium-labeled) than from endogenous (unlabeled) sources. The endogenous arachidonate, on the other hand, was preferentially used for conversion to LTB(4) by the LTA(4) hydrolase. This result was not because of saturation of the LTA(4) hydrolase, because it occurred at widely differing concentrations of exogenous arachidonate. Finally, in the presence of platelets (which contain LTC(4) synthase), the LTA(4) synthesized from exogenous deuterium-labeled arachidonate was converted to cys-LTs to a greater degree than that from endogenous sources. These experiments suggest that exogenous arachidonate is preferentially converted to LTA(4) for export (not intracellular conversion) and raises the likelihood that there are different intracellular pathways for arachidonate metabolism.     

The influence of neuropeptide Y and norepinephrine on ovulation in the rat ovary.

Neuropeptide Y (NPY) was measured in tissue extracts from ovaries of rats treated with pregnant mare serum gonadotropin (PMSG). The extracted NPY-immunoreactive material was identical to synthetic human NPY with regard to size and hydrophobicity as evaluated by gel filtration and high performance liquid chromatography. The concentration of NPY was related to the estrous cycle and a maximum was observed in relation to the endogenous luteinizing hormone (LH) peak. NPY immunoreactivity was demonstrated by immunohistochemistry to be localized within nerve fibers supplying blood vessels and follicles. The increase in the NPY content could not be related to accumulation around specific ovarian structures. Employing an in vitro set-up, NPY (10(-7) M) was unable to induce ovulation and did not increase the ovulation rate in LH-stimulated ovaries. The combination of NPY (10(-7) M) and NE (10(-7) M) did not significantly increase the number of ovulations compared to that induced by NE (10(-7) M) alone. In conclusion, NPY content in the ovary is related to the estrous cycle, but NPY does not seem to have any direct effect on the ovulatory process.     

The production of arachidonic acid metabolites in rat testis.

There is growing evidence that arachidonic acid is oxygenated enzymatically in every cell type and that the oxygenated metabolites regulate a variety of pathological and physiological processes including reproduction. In the present study, the metabolism of arachidonic acid in the testis via cyclooxygenase and lipoxygenase pathways was analyzed. Testicular microsomes showed substantial cyclooxygenase activity as measured by the polarographic method. Analysis of the products on TLC revealed PGF2 alpha (79.5%) as the main product followed by PGE2 (20.3%) and PGD2 (0.17%). At higher substrate concentrations (150 microM), however, 6-keto-PGF1 alpha, the stable metabolite of prostacyclin, was observed in substantial quantities. Maximum activity of lipoxygenase was observed at pH 6.4 in both microsomes and cytosol, the activity being higher in cytosol. Analysis of lipoxygenase pathway products with arachidonic acid as the substrate, revealed the presence of 12-HPETE as the major product both in cytosol and in microsomes. Besides this, 15- and 5-HPETEs were also observed in substantial quantities.     

The influence of gamma radiation on arachidonic acid release and prostacyclin synthesis

Cultured pulmonary artery endothelial cells produce PGI2 as their primary prostaglandin. Conditions which inhibit cell division have been shown to accelerate the synthesis of this compound. Exposure of endothelial cells to gamma radiation results in an irreversible cessation of growth and enhanced production of PGI2. The level of PGI2 measured after radiation exposure exceeds that observed in cultures rendered quiescent by serum reduction. This indicates a role for gamma radiation in the elevation of PGI2 levels which is distinct from its effect on cell division. Results presented indicate that exposure to gamma radiation does not, in and of itself, elevate PG levels but capacitates cells for enhanced production when presented with appropriate stimuli. Increased PGI2 synthesis appears to be a result of an observed increase in arachidonic acid release and an activation of cyclooxygenase.     

The influence of gamma radiation on arachidonic acid release and prostacyclin synthesis

Cultured pulmonary artery endothelial cells produce PGI₂ as their primary prostaglandin. Conditions which inhibit cell division have been shown to accelerate the synthesis of this compound. Exposure of endothelial cells to γ raidation results in an irreversible cessation of growth and enhanced production of PGI₂. The level of PGI₂ measured after radiation exposure exceeds that observed in cultures rendered quiescent by serum reduction. This indicates a role for γ radiation in the elevation of PGI₂ levels which is distinct from its effect on cell division. Result presented indicate that exposure to γ radiation does not, in and of itself, elevate PG levels but capacitates cells for enhanced production when presented with appropriate stimuli. Increased PGI₂ synthesis appears to be a result of an observed increase in arachidonic acid release and an activation of cyclooxygenase.     

Metabolism of exogenous arachidonic acid by mouse peritoneal macrophages

On incubation of resident mouse peritoneal macrophages with arachidonic acid several hydroxyacyl derivatives detectable in cellular supernatants are formed. As main products monohydroxyarachidonic acids (monoHETE's) were identified. In addition, smaller amounts of dihydroxyarachidonic acids (diHETE's) were formed. A detailed analysis of cell culture supernatants by reversed phase HPLC, normal phase HPLC in combination with UV-spectroscopy and combined gas-chromatography/masspectrometry revealed the presence of 5-, 8-, 12- and 15- monoHETE's, two distinct 5,12-diHETE's, several 8,15-diHETE's and 14,15-diHETE. Among the 5,12-diHETE's, only small amounts of a compound with the characteristics of LTB4 were detected. Under the conditions employed, the cyclooxygenase products PGE2 and PGI2 (as 6-keto-PGF1 alpha) were only minor metabolites. In contrast, when macrophage cultures were stimulated with the phagocytic stimulus zymosan, PGI2, PGE2 and LTC4 were found as the major conversion products of arachidonic acid, whereas mono- and diHETE's were not formed in detectable amounts.     

The estrogen 2-hydroxylase activity of the gonadotropin-stimulated hypophysectomized immature rat ovary

Using high-performance liquid chromatography and a combination of electrochemical and radiometric flow detection for 2-[14C]hydroxyestradiol, changes in estrogen 2-hydroxylase activity in the microsomal fraction of rat ovarian homogenates were followed. Injection of human chorionic gonadotropin (hCG) at 12-hr intervals to hypophysectomized immature rats stimulated hypertrophy of the theca-interstitial tissue and produced a profound increase in enzyme activity. With the last injection of hCG at 96 hr the peak serum concentration of hCG was reached 12 hr later and then decreased exponentially with a half-time of 13 hr. However, enzyme activity remained elevated for at least 60 hr before beginning to fall. Pregnant mare's serum gonadotropin (PMSG) also produced an increase in activity, which was apparently limited to the thecal-interstitial tissue because freshly removed granulosa cells from the mature follicles had undetectable activity levels. Administration of anti-PMSG antiserum after enzyme activity had been increased resulted in a prompt fall in activity, as did injection of hCG to mimic an ovulatory surge of LH. The results indicate that the thecal-interstitial tissue of the rat ovary has estrogen 2-hydroxylase activity that is dependent upon gonadotropic stimulation for expression.     

The influence of mono- and divalent cations on the cardiac metabolism of arachidonic acid

Our previous study indicated that, in the isolated rabbit heart, perfusion with Ca2+ free Krebs Henseleit buffer (KHB) results in increased conversion of exogenous arachidonic acid to PGE2 and 6-keto-PGF1 alpha, probably as the result of increased availability of substrate to cyclooxygenase. Since perfusion with Ca2+ free buffer is known to cause alterations in the cardiac content of various mono- and divalent cations, the present study was performed to determine: a) The relationship between the conversion of exogenous arachidonic acid to prostaglandins and cardiac content of Na+, K+, Ca2+ and Mg2+; and b) Whether enhanced arachidonic acid conversion to prostaglandins during Ca2+ free perfusion is due to reduced incorporation of this fatty acid into tissue lipids. Perfusion of the rabbit heart with Ca2+ free buffer produced a significant reduction in the tissue content of Na+, K+, Ca2+ and Mg2+. However, the production of 6-keto-PGF1 alpha from exogenous arachidonic acid was linearly correlated with tissue Mg2+. These observations, together with our finding that perfusion with Ca2+ free KHB reduced the incorporation of [3H] arachidonic acid into tissue lipids, suggests that Ca2+ free perfusion may, by reducing the activity of arachidonyl CoA synthetase (a Mg2+ dependent enzyme), decrease the acylation of arachidonic acid into lipids, thus increasing the availability of arachidonic acid to cyclooxygenase.