Progesterone synthesis and histology of postpartum bovine corpora lutea

In vitro progesterone (P(4)) synthesis by corpora lutea (CL) from the first, second or third ovulation after calving was compared and correlated with their histology and cytology. The CL were removed 7 to 12 days after ovulation, and luteal cells isolated by digestion with collagenase. The response of isolated cells to luteinizing hormone (LH) was determined. Hematoxylin-eosin stained tissues were used to study histology, and the distribution of cell types was estimated by stereological methods. Ovulation occurred within 25 days of calving and interovulatory intervals were short, 12.1 +/- 3.9 days and 12.6 +/- 4.8 days, respectively. The CL removed after first ovulation were smaller and contained fewer live cells than those obtained after subsequent ovulations. Stimulation by LH in vitro was independent of cycle number or day of cycle but was related to the histology of the tissue. The CL composed of large cells (> 24 mum) with vacuolated cytoplasm contained high amounts of P(4) but were not stimulated by LH. Conversely, CL composed of small and medium- sized cells (10 to 20 mum) and/or intact larger cells contained little P(4) but were stimulated by LH. These observations indicate that the response of postpartum CL to LH in vitro is dependent upon the structural integrity of the tissue at the time of removal. Furthermore, these observations suggest that the short life of CL during the postpartum period may not be due to the absence of luteotrophic support, but to the action of a luteolytic mechanism.     

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.     

Mitogenic factors of corpora lutea

The mammalian corpus luteum (CL), which plays a central role in the reproductive process because of its production of hormones such as progesterone, appears to be an exceptionally dynamic organ. Its rate of growth and development are extremely rapid and, even when the CL is functionally mature, its rate of cell turnover remains relatively high. Associated with this high rate of cell turnover, the mature CL receives the greatest blood supply per unit tissue of any organ, and also exhibits a relatively high metabolic rate. Although numerous growth factors have been identified in luteal tissue, their role in growth and differentiation of this dynamic organ remains unclear. Recently, while attempting to identify mitogenic factors of ovine and bovine CL, we have found that they produce several mitogens during the estrous cycle as well as pregnancy. The majority of these luteal-derived mitogenic factors are heparin-binding, and although some may represent previously identified factors, several appear to be novel heparin-binding growth factors. Isolation and purification of mitogenic factors produced by the CL will enable us to determine their roles in luteal growth, development and differentiated function, which will contribute to our understanding not only of the regulation of fertility but also of tissue growth and development in general.     

Quantitative echotexture analysis of bovine corpora lutea

A study was designed to evaluate the attributes of ultrasound images of bovine ovarian CL throughout the estrous cycle. The ovaries of 8 heifers were examined daily by transrectal ultrasonography for 2 interovulatory intervals (ovulation = Day 0). Ultrasonographic examinations of the ovaries were videotaped daily, and recorded images of the CL were digitized for computer analysis of echotexture (mean pixel value and heterogeneity). Blood samples were taken daily and to determine plasma progesterone concentrations. Corpora lutea were of 2 morphological types, those with a central fluid-filled cavity (n = 6) and those without (n = 9). No differences were detected between CL with or without a fluid-filled cavity; therefore, data were combined. Mean pixel values of ultrasound images of the CL changed (P = 0.0001) during the interovulatory interval; values decreased (P < 0.05) from Day 0 to Day 3 during early growth of the CL, reached a plateau when increases in luteal diameter ceased, and decreased (P < 0.05) to minimal levels at the onset of regression of the CL. The mean pixel value subsequently increased (P < 0.05) after Day 17 to values similar to those at the beginning of the interovulatory interval. A time-dependent effect was not observed for heterogeneity of images of the CL (P > 0.5). The results supported the hypothesis that quantitative changes in luteal echotexture are reflective of changes in the physiologic status of the CL.     

Function of hormonally-induced corpora lutea in the domestic cat

Hysterectomy (3 animals) or diversion of the uterine venous blood from the ovarian vasculature (3 animals) has no effect on the duration of hormonally-induced luteal activity in the pseudopregnant luteal-phase cat (control: 4 animals), suggesting that the uterus exerts no local or systemic influence on the duration of luteal function.     

Luteal function of induced corpora lutea in the bitch

Nineteen anestrous bitches with a mean of 22 kg body weight and ranging from 2 to 4 years of age were induced to exhibit estrus and ovulate using PMSG and HCG. Twelve days after the first day of estrus, bitches were assigned to four treatment groups. Group (A) consisted of six bitches, Group (B) of five bitches and Groups (C) and (D) of four bitches each. At this time, bitches in Groups (A), (B) and (C) were laparotomized and those assigned to Groups (A) and (B) were bilaterally hysterectomized leaving the cervix and oviducts intact. Although bitches in Group (C) were laparotomized, they were not hysterectomized. Group (D) bitches were not subjected to any surgical procedures. Homologous uterine extract was prepared from each bitch in Group (A) and administered intramuscularly beginning on day 25 (day 0 = first day of estrus) and continued every other day for 61 days post-estrus. Bitches in Group (B) were similarly injected with equal volumes of 0.9% saline. Blood samples, obtained prior to laparotomy and every other day for 85 days thereafter, were assayed for plasma progesterone concentrations using radioimmunoassay. One bitch in each of Groups (A) and (D) did not form luteal tissue following treatment with PMSG and HCG although both bitches exhibited estrus following treatment. All other bitches showed an increase in progesterone levels (4 to 19 ng/ml) between the first day of estrus and 10 days post-estrus. Thereafter, progesterone levels progressively declined in all groups with levels below 1 ng/ml between 38 to 40 days post-estrus. Results of this study suggested that CL formed in the bitch following PMSG and HCG treatment have a reduced function compared to non-induced CL of a normal, non-fertile estrous cycle. Such premature CL regression appears to be independent of the presence or absence of the uterus.     

Premature regression of the corpora lutea in superovulated cows

Morphological and functional regression of the CL was shown by $\text{15}\text{55}$ (27%) superovulated dairy cows at slaughter on D 14. Neither the routine injection of a PMSG-antiserum at the induced superovulatory oestrus, nor intrauterine infections proved to be responsible. Animals with regressed CL however had significantly lower progesterone levels in the peripheral blood at the time PMSG (D 10, P = 0,05) and prostaglandin (D 12, P = 0,02) were injected, as compared to superovulated animals with normal CL. At the induced superovulatory heat, the differences between the 2 groups disappeared. From D 4 after superovulation the differences in progesterone concentration between the 2 groups became significant again (P = 0,02 – 0,05). It is not yet clear whether the observed luteal dysfunction is due to an inadequate luteotrophic stimulus or to a premature luteolysis. The luteal regression could be caused either by a genuine luteal insufficiency of the midcyle CL or by poor heat detection.     

Immunocytochemical localization of neurophysin and oxytocin in ovine corpora lutea

The cellular distribution of neurophysin and oxytocin within ovine corpora lutea obtained on Days 4, 10 and 16 of the estrous cycle was examined immunocytochemically. Serial sections (8-10 micron-thick) prepared from corpora lutea that had been fixed in Bouin's solution and embedded in paraffin were immunostained for neurophysin or oxytocin using the peroxidase-antiperoxidase (PAP) procedure. Irrespective of the day of the cycle examined, immunoreactivity was restricted to large luteal cells. However, on Days 4 and 10 of the cycle, the intensity of staining in large luteal cells was highly variable; and, within the same section some cells were heavily stained, others were only lightly stained, and still others were not stained at all. In contrast, on Day 16 of the cycle, the intensity of staining was uniform and essentially all of the large luteal cells were immunoreactive. Based on the results obtained, it is evident that immunoreactive neurophysin and oxytocin can be detected as early as Day 4 of the cycle, persists through Day 15, and is restricted to large luteal cells.     

Hormonal regulation of estradiol biosynthesis, aromatase activity, and aromatase mRNA in rat ovarian follicles and corpora lutea

To determine the molecular basis for changes in aromatase (P450arom) activity in rat ovarian follicles and corpora lutea, seven clones for rat P450arom cDNA have been identified and isolated from a rat granulosa cell λgtll cDNA expression library using a 62 mer deoxyoligonucleotide probe (derived from an amino acid sequence of purified human placental aromatase) and a human placental P450arom cDNA probe. One of the rat P450arom cDNA clones contained an insert 1.2 kb in size. Both the human 1.8 kb cDNA and the rat 1.2 kb cDNA probes hybridized to a single species of P450arom mRNA that was 2.6 kb in size. Northern blot analysis revealed that corpora lutea isolated on day 15 of pregnancy contained high amounts of P450arom mRNA, whereas granulosa cells of antral follicles of hormonally primed, hypophysectomized rats (i.e., those from which mRNA was isolated to construct the cDNA library) contained only low amounts of P450arom mRNA. The lower amounts of P450arom in granulosa cells of preovulatory follicles in the estradiol-follicle-stimulating hormone primed hypophysectomized rats were unexpected because follicles incubated in medium containing testosterone substrate produce more estradiol than do corpora lutea isolated on day 15 of pregnancy and incubated under similar conditions. Additional studies will determine the hormonal events responsible for the elevated amounts and constitutive maintenance of P450arom mRNA and aromatase activity in luteal cells in vivo and in vitro.