Levels of messenger ribonucleic acid encoding cholesterol side-chain cleavage cytochrome P-450, 17 alpha-hydroxylase cytochrome P-450, adrenodoxin, and low density lipoprotein receptor in bovine follicles and corpora lutea throughout the ovarian cycle

To investigate the molecular basis for the pattern of ovarian steroid production during the bovine estrous cycle, the relative levels of mRNA specific for cholesterol side-chain cleavage cytochrome P-450, 17 alpha-hydroxylase cytochrome P-450, adrenodoxin, and low density lipoprotein receptor were determined in ovarian antral follicles of differing size (less than 3-18 mm) and corpora lutea from the early, early-mid, late-mid, and regressionary stages. Total and poly(A)+ RNA was size-fractionated on agarose-formaldehyde gels, transferred to nylon filters and hybridized to specific 32P-labeled probes. The levels of mRNAs for the rate-limiting enzymes in the conversion of cholesterol into progesterone, namely cholesterol side-chain cleavage cytochrome P-450 and its electron donor, adrenodoxin, were higher in corpora lutea than in follicles. Conversely the levels of mRNA specific for the key regulatory enzyme in the conversion of pregnenolone or progesterone to androgen, namely 17 alpha-hydroxylase cytochrome P-450, were high in all antral follicles examined but were low in young corpora lutea and undetectable in more mature corpora lutea. Low density lipoprotein receptor mRNA was detectable in antral follicles and corpora lutea but the levels were greater in corpora lutea. These results suggest that the pattern of changes in steroid hormone biosynthesis during the bovine estrous cycle and in the ovarian content of steroidogenic enzymes is related to and probably dependent upon the pattern of change in levels of mRNAs for steroidogenic enzymes and related proteins.     

Regulation of luteal cell 3-hydroxy-3-methylglutaryl coenzyme A reductase activity by estradiol

Recent studies have suggested that estradiol or androgen precursor may stimulate steroidogenesis in the luteal cell by modulating intracellular sterol availability and metabolism. This investigation was performed to examine the effect of estradiol on de novo synthesis of cholesterol. Pregnant rats hypophysectomized and hysterectomized on Day 12 were treated for 72 h with either estradiol or testosterone. De novo cholesterol synthesis was determined by measurement of the specific activity of the enzyme 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase, the rate limiting enzyme in cholesterol biosynthesis, in microsome-enriched preparations of luteal tissue and incorporation of [14C] acetate into cholesterol by corpora lutea incubated in vitro. Estradiol or testosterone treatment caused a 4- to 5-fold stimulation of luteal cholesterol biosynthesis, as measured by these techniques. NaF, an inhibitor of phosphatase which blocks the conversion of the inactive enzyme to the active form, reduced the HMG CoA reductase activity to 30% in corpora lutea obtained from either steroid or vehicle-treated rats. However, an increase in enzyme activity of comparable magnitude by steroids was observed whether microsomes were isolated with or without NaF. The effect of estradiol appears to be enzyme-specific, since it failed to affect the microsomal marker, NADPH-cytochrome c reductase. Since the cholesteryl ester content of corpora lutea falls in response to steroid treatment, rats were treated with 4-aminopyrazolo-[3,4d]pyrimidine (4-APP) to deplete cellular cholesterol content.(ABSTRACT TRUNCATED AT 250 WORDS)     

Total ascorbate and dehydroascorbate concentrations in porcine ovarian stroma, follicles and corpora lutea throughout the estrous cycle and pregnancy

Ovarian tissues are thought to require ascorbate as an antioxidant and enzymatic cofactor for the processes of steroid and collagen synthesis. We measured the concentrations of total ascorbate and oxidized ascorbate (dehydroascorbate, DHA) in ovarian stroma, follicles and corpora lutea (CL) throughout the estrous cycle and pregnancy of the sow. Both total ascorbate and DHA concentrations were greatest in luteal tissue and lowest in ovarian stroma across all stages examined. Within the CL, total ascorbate levels were lowest during the early, early-mid, and late luteal phase and were elevated during the mid-luteal phase. Luteal total ascorbate concentrations were further elevated during early pregnancy and were comparable to mid-luteal phase concentrations during the remainder of gestation. Luteal DHA concentrations decreased from mid to late luteal phase, and were elevated throughout pregnancy. As the CL aged during the cycle, the DHA/total ascorbate ratio decreased and remained low throughout pregnancy. Total ascorbate concentrations in follicular tissue increased during the follicular phase and were lowest during the early luteal phase. The DHA concentrations and DHA/total ascorbate ratios in follicular tissue did not differ with stage. Total ascorbate and DHA concentrations in ovarian stroma were low and did not vary with stage. We conclude that periods of maximal luteal and follicular function are associated with increased concentrations of total ascorbate within the tissue. Furthermore, luteolysis appears to be associated with depletion of luteal ascorbate species.     

Expression of mRNA encoding basic fibroblast growth factor (bFGF) in bovine corpora lutea and cultured luteal cells.

A radiolabelled cRNA was synthesized using a 1.4 kb cDNA complementary to mRNA encoding bovine basic fibroblast growth factor (bFGF) as a template, and used as a probe to investigate the expression of mRNA encoding bFGF in bovine ovarian tissue, and luteal cells in primary culture. Northern analysis of poly(A +)RNA prepared from follicles and corpora lutea of various stages revealed a major mRNA species of 7 kb in corpora lutea of all stages, the amount of which was higher late in the luteal phase. No hybridizable message was detectable in follicles of any size. When luteal cells were established in primary culture, expression of the 7 kb mRNA species was maintained. This expression was increased markedly when cells were treated with LH/hCG or Bt2cAMP. Prostaglandin F-2 alpha treatment caused a marked decrease in the basal content of this 7 kb mRNA, and also severely impaired the ability of LH to stimulate this expression.     

Variations in oxytocin, vasopressin and neurophysin concentrations in the bovine ovary during the oestrous cycle and pregnancy

Bovine ovaries were obtained from the abattoir and corpora lutea were classified as: (1) early luteal phase (approximately Days 1-4); (2) mid-luteal phase (Days 5-10); (3) late luteal phase (Days 11-17); (4) regressing (Days 18-20) and (5) pregnant (Days 90-230). In addition, preovulatory follicles and whole ovaries without luteal tissue were collected. Concentrations of oxytocin, vasopressin, bovine neurophysin I and progesterone were measured in each corpus luteum by radioimmunoassay. Progesterone and neurophysin I levels increased from Stage 1 to Stage 2, plateaued during Stage 3 and declined by Stage 4. Oxytocin and vasopressin concentrations increased from Stage 1 to Stage 2 but declined during Stage 3 and were low (oxytocin) or undetectable (vasopressin) in follicles, whole ovaries and pregnancy corpora lutea. Therefore the concentrations of both peptide hormones were maximal during the first half of the cycle and declined before those of progesterone. The high concentration of oxytocin within the corpus luteum coupled with the presence of bovine neurophysin I suggests that oxytocin is synthesized locally.     

Biochemical changes in lipids during follicular growth and corpora lutea formation and regression in rat ovary

A biochemical study has been made on quantitative and qualitative changes in lipids of small (less than 300 microns), medium (300 to 550 microns) and large (less than 550 microns) follicles and in the fully developed and regressing corpora lutea. The total lipid content increased in the growing follicles and corpora lutea. Phospholipids formed the major component of total lipids in small sized follicles and developed corpus luteum. The cholesterol amount increased with the growth of follicles but decreased in the developed and regressing corpora lutea. Glycerides were the main fraction of total lipids in regressing corpora lutea. Free fatty acids were present in minor quantities in the growing follicles and corpora lutea. The physiological significance of these lipid changes is discussed.     

Changes in content of cytochrome P450(17)alpha, cytochrome P450scc, and 3-hydroxy-3-methylglutaryl CoA reductase in developing rat ovarian follicles and corpora lutea: correlation with theca cell steroidogenesis

The following study was undertaken to determine which hormones (luteinizing hormone, LH, and prolactin, PRL) and enzymes (cytochrome P450(17)alpha, nicotinamide adenine dinucleotide phosphate [NADPH]-cytochrome P450 reductase, 3-hydroxy-3-methylglutaryl [HMG] CoA reductase, cholesterol side-chain cleavage cytochrome P450 [P450scc], and adrenodoxin) were associated with the regulation of androgen biosynthesis by developing rat follicles and corpora lutea in vivo as well as by thecal explants maintained in culture. Immunoblots of soluble cell extracts of small antral (SA), preovulatory (PO), and luteinizing (PO + human chorionic gonadotropin [hCG], 7 h) follicles, newly formed corpora lutea (PO + hCG, 24 h), and corpora luteal isolated on Day 15 of pregnancy, demonstrated that cytochrome P450(17)alpha was low in SA follicles, selectively increased 4-fold in PO follicles, and decreased to less than 10% within 7 h after hCG. Filter hybridization assays using a 32P-labeled cytochrome P450(17)alpha cDNA probe demonstrated that changes in the content of P450(17)alpha mRNA exhibited a pattern similar to that of the enzyme. Conversely, immunoblots for other microsomal enzymes either exhibited no change (NADPH cytochrome P450 reductase) or a transient increase after the hCG surge (HMG CoA reductase), whereas the mitochondrial enzymes either increased markedly in association with luteinization (cytochrome P450scc) or were increased in a more transient manner (adrenodoxin). The LH-induced loss of cytochrome P450(17)alpha in vivo was not associated with loss of androgen biosynthesis when luteinizing theca were placed in culture in medium containing either LH or LH and PRL, suggesting that other hormones, or the presence of other cell types, are required to maintain the decrease in cytochrome P450(17)alpha in vivo. Conversely, the LH-induced increase in cytochrome P450scc in vivo was associated with the maintenance of elevated progesterone production by theca in culture, suggesting that cytochrome P450scc may be constitutively expressed in luteinized theca. Thus, thecal cell cytochrome P450(17)alpha and the regulation of its content and mRNA by LH are pivotal to the biosynthesis of androgens, the obligatory precursors for estradiol biosynthesis and the consequent development of preovulatory follicles. The molecular basis for the different effects of low versus elevated concentrations of LH on cytochrome P450(17)alpha, as well as cytochrome P450scc, remain to be determined.     

Relationships of liver weight, cholesterol, albumin and alpha2-macroglobulin concentrations with ovarian function in swine

In two genetic swine models selected for diversity in ovulation rates (White composite controls and ovulation rate selection line, n = 131; 1/2 White composite: 1/2 Meishan crossbreds, n = 387), a positive relationship was established with liver weight and ovulation rate (P < 0.01). Serum changes of cholesterol, albumin and alpha2-macroglobulin were monitored during various stages of the luteal phase and follicular phase (days 17 and 19 of the estrous cycle; 1/2 White composite: 1/2 Meishan gilts). Serum cholesterol concentrations increased with liver weights (r = 0.19; P < 0.01) and corpora lutea numbers (r = 0.14; P < 0.01). Albumin concentrations were negatively correlated with corpora luteal numbers (r = -0.3; P < 0.01) but had no relationship with liver weight. Serum concentrations of alpha2-macroglobulin were not related to liver weight or corpora lutea numbers. Circulating concentrations of cholesterol and alpha2-macroglobulin increased with day of the estrous cycle (P < 0.01). Testosterone concentrations were inversely related to circulating cholesterol concentrations during the estrous cycle, but testosterone concentrations on day 17 or 19 of the cycle were unrelated to corpora lutea numbers. Concentrations of estrone on day 17 or 19 (as an index of follicles destined to ovulate) were also not related to numbers of corpora lutea. Many interactions between liver and ovarian function involving metabolic and endocrine systems are plausible, but defined mechanisms resulting in coordinate increases in liver weight and ovulation rates are presently unelucidated.     

Indirect regulation of 3-hydroxy-3-methylglutaryl coenzyme A reductase by oestradiol in the rabbit corpus luteum

Rabbits were given 50 i.u. hCG, i.v., to initiate ovulation and pseudopregnancy (Day 0) and were treated, s.c., with or without a 1-cm Silastic oestradiol implant. Serum progesterone concentrations were measured at 4-day intervals and 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase activity was estimated by the conversion of HMG to mevalonate in microsomes from corpora lutea removed on Days 4, 8, 12, 16 and 20 of pseudopregnancy (4 rabbits/day). Total HMG-CoA reductase activity was significantly (P less than 0.05) higher in control rabbits on Days 8 and 12 (5.29 +/- 0.63 and 5.5 +/- 0.28 nmol/min/mg protein, respectively) compared to oestradiol-treated rabbits (2.57 +/- 0.25 and 4.03 +/- 0.23 nmol/min/mg protein, respectively). On Days 16 and 20, total HMG-CoA reductase activity was not different in control and oestradiol-treated animals. There was no difference in the levels of the active fraction of HMG-CoA reductase, which represented less than 20% of the total enzyme activity, in control and oestradiol-treated rabbits (less than 780 pmol/min/mg protein, Day 12). These results indicate that oestradiol does not alter the active form, but can reduce the total activity of HMG-CoA reductase in the rabbit corpus luteum without a decline in serum progesterone. Therefore, neither total nor active forms of HMG-CoA reductase are directly related to progesterone secretion. This suggests that other sources of cholesterol may contribute to progesterone production in the rabbit.     

Localization of androgen receptor and cytochrome P450 aromatase in the follicle and corpus luteum of the porcine ovary

The following study was undertaken to localize androgen receptors (AR) and aromatase cytochrome P450 (P450arom) in porcine ovarian tissue because ovarian androgens may act locally to modulate follicular and luteal function in various species. Androgen receptor was detected immunohistochemically in granulosa and theca cells of preantral as well as in growing antral follicles. The most intensive staining was observed in the antral granulosa layer. Luteinizing granulosa cells of preovulatory follicles, and luteal cells from the early and midluteal phases stained weakly for the androgen receptor. Fully regressed corpora lutea in the early follicular phase of the next cycle did not stain for androgen receptor. In contrast, granulosa cells were very weakly stained for aromatase in early stages of follicular development. The P450arom was maximally expressed with the same intensity in mural and antral layers in large ovulatory follicles. Corpora lutea from the early luteal phase showed positive staining, whereas those from midluteal phase did not stain for aromatase, some cells of regressed corpora lutea unexpectedly exhibited aromatase staining.     

Characterization and distribution of protein kinase C in ovarian tissue

Although protein kinase C, an enzyme dependent on calcium, phospholipid and diacylglycerol, has been found in high levels in ovarian tissues, its biologic function is yet unknown. In initial studies on the role of this enzyme in regulating ovarian functions, we compared protein kinase C activity in subcellular fractions of porcine corpora lutea and medium follicles. Highest protein kinase C-specific activities were found in the cytosol, followed by microsomes and mitochondria for both follicles and luteal tissues. Solubilization of all membrane-containing fractions by 0.2% Triton X-100 was required for full expression (a 4-fold average increase) of protein kinase activity. Extraction of membrane fractions with 0.5 M NaCl or sonication in a hypotonic medium revealed that 90% of the total mitochondrial protein kinase C activity and 50% of the microsomal activity was tightly membrane-bound. Characterization of both cytosolic and Triton X-100 extracted membrane preparations of luteal tissue by diethylaminoethyl (DEAE)-cellulose chromatography revealed a single peak of protein kinase C activity eluting at 80 mM NaCl. Cytosolic fractions of corpora lutea contained 3 times more protein kinase C-specific activity than did cytosolic fractions of follicles. In contrast, mitochondria from medium follicles contained 30% more specific protein kinase C activity than did luteal mitochondria. These higher cytosolic levels of protein kinase C-specific activity in corpora lutea suggest that the enzyme may play an important role in the process of luteinization or in the regulation of luteal function.     

Comparison of pregnenolone synthesis by cytochrome P-450scc in mitochondria from porcine corpora lutea and granulosa cells of follicles

Substrate turnover rates by cytochrome P-450scc were measured in mitochondria isolated from corpora lutea and granulosa cells of follicles. Hydroxycholesterol substrates were added to the mitochondria to test the degree of saturation of the cytochrome with endogenous cholesterol during pregnenolone synthesis. 25-Hydroxycholesterol proved unsuitable for this since it was converted into pregnenolone with a maximum velocity of only 25% of that for cholesterol. 20 alpha-Hydroxycholesterol was found to be suitable providing correction was made for the one less hydroxylation required to convert this substrate into pregnenolone, compared to cholesterol. Mitochondria isolated from large follicles and corpora lutea displayed biphasic time courses for pregnenolone synthesis from endogenous cholesterol with a rapid phase lasting for 2-4 min and a slow phase which was linear for at least 30 min. Only a single rapid phase was observed for these mitochondria in the presence of 20 alpha-hydroxycholesterol. From the degree of stimulation of the substrate turnover rate by this steroid, it was concluded that the endogenous cholesterol concentration was saturating during the fast phase for large follicles but subsaturating in luteal mitochondria. Time courses for pregnenolone synthesis by mitochondria isolated from granulosa cells of small and medium follicles were linear for 30 min and gave a substrate turnover rate of 16-18 mol of steroid/min/mol of cytochrome P-450scc, similar to the turnover rates under saturating substrate conditions determined for large follicles and corpora lutea. The substrate turnover rate for cytochrome P-450scc in medium follicles was not increased by the addition of 20 alpha-hydroxycholesterol, indicating that the cholesterol concentration in the steroidogenic pool of these mitochondria was saturating and remained so over the 30-min duration of the incubation. It is therefore unlikely that gonadotropin stimulation of granulosa cells of small to medium follicles could acutely regulate pregnenolone synthesis by increasing the rate of transfer of cholesterol into a steroidogenic pool. This study shows that as the cytochrome P-450scc concentration in porcine ovarian mitochondria increases during follicular growth and luteinization there is a decrease in the fractional saturation of the cytochrome with cholesterol.     

Cytokeratin expression in bovine corpora lutea

Cytokeratin (CK)-positive cells were obtained from bovine corpora lutea. When cultured, these cells behave like CK-positive endothelial cells obtained from bovine large blood vessels. The origin of CK-positive cells has now been studied in 45 bovine corpora lutea of different estrous cycle stages. Additionally, 7 corpora lutea of pregnant cows were examined. The tissues were grouped into early stage (days 2 to 4), secretory stage (days 5 to 17) and late stage (days 18 to 21) according to gross morphology, wet weight and total progesterone content. One portion of a corpus luteum was used for immunohistochemistry, and another for Western blot analysis. Twenty-six of the 45 corpora lutea showed CK expression, as confirmed by immunostaining and Western blotting. Cytokeratin expression was found in all corporalutea from the early stage, in 14 of 26 corpora lutea from the secretory stage, and 3 of 10 from the late stage. Early stage corpora lutea displayed zonation such that a high number of CK-positive luteal cells occurred in the region of the previous granulosa layer and a very low number in the previous thecal layer. Secretory CK-positive corpora lutea showed uniformly distributed, predominantly large luteal cells. In secretory corpora lutea of group A, CK-positive cells and a distinct microvascular tree were seen, the latter visualized by factor VIII-related antigen immunolabelling of endothelial cells. Group B showed none or very few CK-positive cells. Corpora lutea of pregnant cows behaved like corpora lutea of group B. Roughly 1% of CK-positive cells closely associated with the capillary wall were sometimes reminiscent of endothelial cell sprouts.     

Progesterone synthesis by luteal mitochondria in vitro.

Mitochondria were prepared from bovine corpora lutea by differential centrifugation and were purified by isopycnic zonal centrifugation. A marked increase in specific cytochrome oxidase activity and a marked decrease in specific DNA and RNA content indicate that the procedure resulted in a highly purified preparation of mitochondria. These organelles had a higher rate of conversion of [4-14C] cholesterol to [4-14C] progesterone than did mitochondria separated only by differential centrifugation, suggesting that luteal mitochondria contain the enzyme systems required for progesterone synthesis.     

The influence of estradiol on cholesterol processing by the corpus luteum

Recent studies from our laboratory have suggested that estradiol or androgen precursor may stimulate steroidogenesis in the luteal cell by modulating intracellular cholesterol metabolism including mobilization of cholesteryl esters, stimulation of lipoprotein receptor activity and induction of 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMG-CoA reductase) activity. To test the functionality of cholesteryl ester turnover per se, we measured the activities of acyl CoA:cholesterol acyltransferase (ACAT) and cholesteryl esterase, the enzymes involved in cholesteryl ester synthesis and hydrolysis, respectively; we also measured de novo synthesis of cholesterol, cholesteryl esters, and steroids. Pregnant rats, hypophysectomized and hysterectomized on Day 12, were treated for 72 h with either estradiol or testosterone, and luteal microsomal and cytosolic fractions were utilized to measure ACAT and cholesteryl esterase activity, respectively. Intact corpora luteal were employed for [14C]acetate incorporation experiments. Basal ACAT activity (expressed as pmol.min-1.CL-1 increased from a mean of 78 +/- 16 in vehicle-treated rats to 119 +/- 18 and 197 +/- 16 in the estradiol- and testosterone-treated rats, respectively. Similarly, total ACAT activity (measured in the presence of exogenous cholesterol) was also increased in estradiol- and testosterone-treated groups. On the other hand, cholesterol esterase activity (expressed either pmol.min-1.CL-1 or pmol.min-1.mg protein-1) was similar in all three groups and comparable to corpora lutea from intact pregnant rats. Hypophysectomy and hysterectomy caused a 50-60% reduction in [14C]acetate incorporation into sterols when compared with intact pregnant rat. Treatment with either estradiol or testosterone not only restored the cholesterol biosynthetic capacity but also enhanced the overall rate of [14C]acetate incorporation into steroids as compared to intact pregnant rats. The major (-80%), newly synthesized steroid was identified as progesterone. In conclusion, the present studies suggest that the major function of luteal estradiol is to induce de novo cholesterol biosynthesis, regulate ACAT activity, and channel available free cholesterol (derived from both endogenous and exogenous sources) for steroidogenesis.     

Change in gonadotropin-binding sites in intracellular organelles and plasma membranes during luteal growth, development and regression

Changes in the gonadotropin-binding sites in plasma membranes and several intracellular organelles of bovine corpora lutea of days 3, 13 and 19 of the cycle were investigated. These three times represent periods of rapid luteal growth (early luteal phase), maturity (mid luteal phase) and the onset of regression (late luteal phase), respectively. The 5'-nucleotidase activity was highest in the fraction possessing a predominance of plasma membranes. It was undetectable in nuclear fractions and detectable to a varying extent in fractions enriched with mitochondria-lysosomes, rough endoplasmic reticulum and Golgi. The gonadotropin-binding sites, as measured by 125I-human choriogonadotropin (hCG) specific binding, were found in all the subcellular organelles. Whereas the affinities remained about the same, the total number of available gonadotropin-binding sites in all the organelles increased from day 3 to 13 and then declined by day 19 of the cycle. Occupancy of binding sites by endogenous luteinizing hormone was not detectable and therefore was unlikely to be responsible for the changes in total number of available binding sites. Thus, binding site changes observed in all the organelles of early, mid and late luteal phase corpora lutea probably reflect actual changes in the steady-state turnover of binding sites. Morphometrically determined relative membrane counts of various subcellular organelles varied with the luteal phase. The relative total gonadotropin-binding sites, calculated from the relative membrane counts and the total number of available binding sites, increased in all the organelles from early to mid and then declined by late luteal phase. Plasma membranes of all three luteal phases contained greater relative total gonadotropin-binding sites than any other single intracellular organelle. However, all the intracellular organelles combined contained 59% of the total luteal cell gonadotropin-binding sites in early luteal phase which decreased to 43 and 28% by mid and late luteal phases respectively.     

Cyclic AMP-dependent protein kinase in mitochondria and cytosol from different-sized follicles and corpora lutea of porcine ovaries

cAMP-dependent protein kinase was examined in mitochondria and cytosol prepared from different-sized antral follicles and corpora lutea of porcine ovaries. In all ovarian tissues examined except small follicles, protein kinase-specific activity was significantly higher in mitochondria than in cytosol, with the highest to lowest activities being found in medium (4-6 mm) follicles, large (7-12 mm) follicles, corpora lutea, and small (1-3 mm) follicles, respectively. Using the photoaffinity analogue [32P]8-N3cAMP, two major cAMP binding proteins with Mr = 47,000 (the apparent regulatory subunit of protein kinase Type I) and 54,000-56,000 (Type II) were found in all ovarian preparations. Type II was predominant in the cytosol of all ovarian samples, with the cytosolic Type I to Type II ratio increasing from approximately 0.05 in small and medium follicles top approximately 0.20 in large follicles and corpora lutea. In contrast, ovarian mitochondrial preparations contained relatively more Type I than did cytosol, with the mitochondrial Type I to Type II ratio increasing from approximately 0.50 in small and medium follicles to 0.88 in large follicles and 2.96 in corpora lutea. Also, mitochondrial [4-14C]cholesterol conversion and 3 beta-hydroxysteroid dehydrogenase/isomerase activities increased with follicle size and luteinization. These results suggest that Type I may play a role in the regulation of ovarian mitochondrial steroidogenesis.     

Systemic and intraovarian effects of corpus luteum on follicular dynamics during estrous cycle in hair breed sheep

The present study aimed to determine systemic and local effects of corpora lutea (CL), on follicular dynamics throughout the estrous cycle. All follicles >or=2 mm and CL were assessed by daily transrectal ultrasonography in 12 West African ewes. Blood samples were collected to determine plasma concentration of progesterone. Fifteen estrous cycles were evaluated with a mean interovulatory interval of 16.8+/-0.2 days. Two (13.3%), 10 (66.7%) and 3 (20%) of the estrous cycles had 2, 3 and 4 waves of follicular development, respectively. In sheep with three waves of follicular development, both the length of growing phase and the growth rate of dominant follicles from midluteal wave II were diminished (3.4+/-0.3 days, P<0.0001, and 0.4+/-0.1 mm/day, P<0.01, respectively) when compared to follicles from early luteal phase (wave I, 4.1+/-0.2 days, and 0.7+/-0.1 mm/day) or late luteal phase (wave III, 6.3+/-0.4 mm and 0.6+/-0.1 mm/day). The diameter of the dominant follicle was smaller during the midluteal phase (3.9+/-0.1 mm, P<0.0001) than in the early and late luteal phase (5.0+/-0.2 and 5.7+/-0.2 mm; respectively). The effect of the dominant follicle was less during midluteal phase, because number of accompanying smaller follicles was fewer (P<0.01) in waves I and III (6.3+/-0.9 compared with 3.4+/-0.8 and 2.3+/-0.7). The number of follicles was also different between ovaries that had CL and those that did not. The total number of large follicles during the luteal phase was less in ovaries with CL (0.9+/-0.5 compared with 2.7+/-0.3; P<0.01), as was the mean daily number of both large (0.1+/-0.02 compared with 0.2+/-0.02; P<0.001) and total number of follicles >or=2 mm (2.5+/-0.1 compared with 3.3+/-0.1; P<0.01). Current results indicate that the presence of a functional CL may exert both systemic and local effects on the population of follicles, affecting the dominance exerted by large follicles.     

Evaluation of the physiological value of porcine luteal cells isolated in various stages of the luteal phase: Tissue culture approach

Porcine luteal cells were collected from corpora lutea in four different stages of the luteal phase and cultured as monolayers. Progesterone (P₄) secretion was assayed using radioimmunoassays (Gregoraszczuk, 1991). Luteal cells cultured from porcine corpora lutea collected in the early luteal phase maintained steroidogenic capacity for 6 days in culture until the time comparable with midluteal corpora lutea. Luteal cells collected from mature and regressing corpora lutea did not dedifferentiate during 2 days of culture. After this time secretion of progesterone decreased to undetectable amounts characteristic of old corpora lutea. The regression in the culture progressed. The results demonstrate that the degree of the decline of progesterone depends on the type of corpus luteum, which is connected to particular time intervals of the luteal phase. Before starting experiments it is necessary to take into consideration the stage of the luteal phase from which the material is collected for culture. This study provides evidence that long term culture is useful for investigating a variety of aspects of luteal function only if cells are collected in the early luteal phase. Short term culture is suitable for investigation of cells collected from mid and late luteal phase. Regulation of luteal function is dependent on stage of the luteal phase.