Hormonal effects on RNA synthesis by stage 6 oocytes of Xenopus laevis.

RNA synthesis has been studied in “large” oocytes of Xenopus laevis, both as a function of time after injection of females with human chorionic gonadotropin (HCG) and in relation to the induction of maturation with progesterone in vitro. Rates of RNA synthesis were measured by analyzing the kinetics of incorporation of exogenous [³H]guanosine, and microinjected [³H]- or [¹⁴C]GTP, into acid-precipitable material, coupled with measurements of precursor pool specific activity. The kinetics of incorporation into RNA of injected precursor are biphasic, indicating the synthesis of both stable and unstable RNA species. Estimates of the total rate of synthesis (stable and unstable) were derived from fitting a linear function to data over the first 60–90 min, while a linear function fit to the data beyond 90 min represented largely the synthesis of stable RNA species.Exposure of oocytes to progesterone had no effect on initial synthetic rates, but maturing oocytes synthesized stable RNA at 1.4–1.6 times the rate in control oocytes. A comparison of data obtained with oocytes from unstimulated (no prior HCG treatment) and HCG-stimulated females indicated that HCG has no substantial effect on rates of RNA synthesis. The significance of continued RNA synthesis in large full grown oocytes is discussed.     

Pattern and frequency of nondisjunction in oocytes from the Djungarian hamster are determined by the stage of first meiotic spindle inhibition

In order to study the mechanisms of nondisjunction at meiosis I in oocytes gonadotropin-stimulated Djungarian hamsters were treated at two stages [4.5 and 6 h post human chorionic gonadotropin (HCG)] during the preovulatory period with 1000 mg/kg Carbendazim (MBC). The compound, known to bind fast but reversibly to mammalian tubulin, was chosen to investigate whether the stage at which spindle function is inhibited affects the pattern of nondisjunction. Ovulated oocytes were cytologically prepared and scored for hyperhaploidy, diploidy and presegregation. Application at an early spindle phase, 4.5 h post HCG, to females stimulated with a low gonadotropin dose [3 IU pregnant mares serum (PMS); 2 IU HCG] caused a high frequency of nondisjunction (40.6%) with a more or less nonspecific pattern of malsegregated bivalents. Treatment at a late stage of spindle function (6 h post HCG) resulted in a less frequent (22.5%) but highly preferential malsegregation of those A-D group bivalents thought earlier to be late segregators. On the other hand, oocytes from females primed with a high (10 IU PMS and HCG) gonadotropin dose, a treatment assumed to delay meiosis by approximately 1.5 h, responded to MBC treatment at the late stage (6 h) with a nonspecific pattern and a high frequency (71.2%) of nondisjunction. The latter result is comparable to that in which MBC was given at the early stage (4.5 h) and after a low gonadotropin dose. The high nondisjunction response additionally indicates that spindles in hypergonadotropic stimulated oocytes are more susceptible and/or that the concentration of the inhibitor is higher in such oocytes. Only few oocytes with presegregation (3.1%; 0.0%; 1.7%) and few diploid oocytes (3.3%; 1.5%; 3.2%) with complete inhibition of meiosis I were observed. We conclude, that in Djungarian hamsters (1) the segregation of bivalents at meiosis I is asynchronous with the large A-D bivalents segregating last, (2) the phase in which spindle function is inhibited determines the pattern of nondisjunction, and (3) the resumption of meiosis I — from dictyotene to metaphase II — does not follow a rigidly timed programme but depends on the conditions of follicular maturation.     

Response of large oocytes of Xenopus laevis to progesterone in vitro in relation to oocyte size and time after previous HCG-induced ovulation.

The injection of Xenopus laevis females with human chorionic gonadotropin (HCG) leads to ovulation (and maturation) of oocytes whose diameters are 1.2 mm or larger. However, when Xenopus oocytes are removed from their follicular investments by manual dissection and exposed to the steroid, progesterone, in vitro, they exhibit maturation down to about 0.90 mm in diameter with the majority larger than 1.0 mm showing a positive response. Within each female the larger of the oocytes undergo maturation earlier than smaller ones.The response of oocytes also was shown to depend on the length of time since females were last stimulated to ovulate. Similar-sized oocytes from recently ovulated (stimulated) females matured much faster than those of untreated, unstimulated females. Indeed, even the smaller oocytes from stimulated females often matured before the largest oocytes of females without previous HCG injection.The experiments demonstrate that the physiological state of an oocyte cannot be accurately deduced solely from its size nor response to gonadotropins; unresponsiveness presumably being due to inability of follicular elements to respond to the trophic hormones or transfer the stimulus to the oocyte via the appropriate steroid.     

An essential role for putrescine biosynthesis during meiotic maturation of amphibian oocytes

The objective of this study was to investigate the role of polyamines during meiotic maturation of Xenopus oocytes. The results indicate a rapid and significant increase in the activity of ornithine decarboxylase (ODC), the rate-limiting enzyme in the polyamine biosynthetic pathway, during the meiotic maturation induced by either progesterone or human chorionic gonadotropin (HCG). This increase in the enzyme activity was followed by an accumulation of putrescine without any effect on the levels of spermidine or spermine. The inhibition of ODC activity and the accumulation of putrescine levels by α-difluoromethyl ornithine (DFMO), a catalytic irreversible inhibitor of ODC, also resulted in the inhibition of maturation mediated by progesterone in Xenopus oocytes. DFMO caused an inhibition of both maturation and ovulation induced by HCG in ovarian fragments. This inhibition was readily reversible by exogenous supply of putrescine to the medium. These observations suggest that putrescine plays an important role during the meiotic maturation of amphibian oocytes.     

MITOCHONDRIAL DNA REPLICATION IN SEA URCHIN OOCYTES

Mitochondrial DNA (mtDNA) replicative intermediates from Strongylocentrotus purpuratus oocytes were isolated by ethidium bromide-CsCl density gradient centrifugation and examined by electron microscopy after formamide spreading. In some experiments, the mtDNA was radioactively labeled by exposing isolated oocytes to [³H]thymidine. Oocyte mtDNA replication appears to follow the displacement loop model outlined in mouse L cells. There are differences in detail. The frequency of D-loop DNA is much lower in oocytes, suggesting that the relative holding time at the D-loop stage is shorter. Duplex synthesis on the displaced strand occurs early and with multiple initiations. The frequency of totally duplex replicative forms, or Cairns' forms, is the highest reported for mtDNA. The differences may be related to the fact that oocyte mtDNA replication occurs in the absence of cell division and need not be coordinated with a cell cycle. Molecules with expanded D loops banded in the intermediate region between the lower and upper bands in an ethidium bromide-CsCl gradient, supporting the notion that displacement replication proceeds on a closed circular template which is subject to nicking-closing cycles. In mature sea urchin eggs, replicative forms are absent and virtually all the mtDNA is stored as clean circular duplexes. Some novel structural variants of superhelical circular DNA (molecules with denaturation loops and double branch-migrated replicative forms) are reported.     

Developmental potential of LT/Sv parthenotes derived from oocytes matured in vivo and in vitro

Release of oocytes of LT/Sv mice from the meiosis-inhibiting influence of antral follicles promotes parthenogenetic activation and development to early cleavage stages of 14% of the eggs. However, to attain the potential to develop to blastocysts under the culture conditions used, the oocytes must mature within follicles for 8–9 hr after human chorionic gonadotropin (HCG) administration. The results suggest that some positive influence, which does not occur during spontaneous oocyte maturation under defined conditions in vitro, occurs within preovulatory follicles and imparts developmental competence to the maturing oocytes.     

Timing of meiotic stages in oocytes of the Syrian hamster (Mesocricetus auratus) and analysis of induced chromosome aberrations

Summary The stages of maturation of oocytes (meiotic stages) in adult Syrian hamsters (Mesocricetus auratus) have been timed following superovulation treatment. Timing and superovulation were induced by an injection of pregnant mares' serum on the first morning of the estrus cycle, followed by injection of human chorionic gonadotropin (HCG) in the evening of the fourth day. The oocytes completed the prophase of the first maturation division 3 h after the injection of HCG. Ovulation began 91/2h after the injection. A method of analysis of metaphase II chromosomes of Syrian hamster oocytes 16h after injection of HCG is described. This method seems to be appropriate for the examination of the induction of genetic defects during oogenesis. Female hamsters were treated with 2,3,5-triethyleneimono-benzoquione-1,4. The induced chromosome aberrations were analysed. Dosis-dependent response could be demonstrated.     

Sperm penetration in vitro into ovarian and tubal oocytes from mice of the inbred KE and C57 strains

The method of in vitro fertilization was applied to test a previous suggestion that the lowered fertilizability of the tubal oocytes of female KE strain mice and the high resistance of their zona pellucida to proteolytic enzymes, are due to the premature cortical reaction taking place near the time of ovulation. Therefore higher fertilizability of ovarian oocytes is expected. The effectiveness of F₁ hybrid sperm penetration into ovarian and tubal KE oocytes confirmed these assumptions. The ovarian KE oocytes recovered 9–10 hours after administration of human chorionic gonadotropin (HCG) showed significantly higher penetrability (70–83%) than did the tubal oocytes recovered 12 hours after HCG (about 50%) and 14–16 hours after HCG (20%). Similar results were obtained with C57 oocytes. Sperm penetration into ovarian oocytes (10 hours after HCG) was much more effective (67%) than into tubal oocytes (18%); this finding correlated with more rapid zona dissolution by chymotrypsin. On the basis of these results one might speculate that premature cortical reaction takes place also in the C57 strain.     

Oogenesis in Xenopus laevis (Daudin)

Summary This study was designed to explore the relationship of estrogen, human chorionic gonadotropin (HCG), and food availability to endocytosis in developing oocytes. When estrogen alone is administered to an animal, large amounts of vitellogenin are synthesized by the liver and secreted into the circulatory system, where it accumulates. Under these conditions there is no evidence of endocytosis at the surface of the oocytes. Other studies have shown that following HCG injection into estrogen-treated animals, vitellogenin is removed from the circulation and the oocyte surface is highly contoured and displays endocytotic activity. Food deprivation has much the same effect on oocyte endocytosis as does estrogen. When animals are given HCG and subsequently starved for 20 days, developing oocytes show little endocytotic activity. We conclude that HCG acts to promote or stimulate endocytosis in developing oocytes while estrogen and/or starvation inhibits this process.Research sponsored by the Energy Research and Development Adiministration under contract with Union Carbide Corporation.Predoctoral fellow supported by Grant GM 1974 from the National Institute of General Medical Sciences, National Institutes of Health.     

Mitochondrial DNA synthesis in synchronous cultures of the yeast,Saccharomyces cerevisiae

The synthesis of mitochondrial DNA (mtDNA) has been investigated by three independent methods of analysis during consecutive synchronous cell cycles in the yeast, Saccharomyces cerevisiae. The rates of pulse-label incorporation indicate maximal [³H]adenine uptake into mtDNA at the time of nuclear DNA synthesis. In contrast, the relative concentrations of mtDNA as determined by both the ratio of mtDNA to total cellular DNA and by the kinetics of isotope dilution analysis were found to increase continuously during synchronous growth. We conclude that whereas nuclear DNA replicates discontinuously during the cell cycle, mitochondrial DNA is synthesized continuously during this time. The discontinuous pattern of pulse-label incorporation into mtDNA is not considered to reflect its true mode of replication during the cell cycle.     

Effects of indomethacin and prostaglandins on ovulation of goldfish.

A technique is described whereby elevated temperature and HCG injection yield a high percentage of ovulation in gravid goldfish. Indomethacin (10 mug/g; i.p. injection) completely inhibits ovulation if given within 6 hours following HCG (4 IU/g); the unovulated oocytes develop rapidly into corpora atretica. PGE1, PGE2, and PGF2alpha (5 mug/g; i.p. injection) induce ovulation in fish treated with indomethacin and HCG; PGE2 was most effective when given 11 hours after HCG. The results suggest that the ovulatory action of prostaglandins following HCG stimulation is at the level of the ovary and that it is restricted to a period between 7 and 12 hours after the gonadotropin injection.     

Replication of mitochondrial DNA occurs throughout the mitochondria of cultured human cells

Replication of mitochondrial DNA (mtDNA) is dependent on nuclear-encoded factors. It has been proposed that this reliance may exert spatial restrictions on the sites of mtDNA replication within the cytoplasm, as a previous study only detected mtDNA synthesis in perinuclear mitochondria. We have studied mtDNA replication in situ in a variety of human cell cultures labeled with 5-bromo-2'-deoxyuridine. In contrast to what has been reported, mtDNA synthesis was detected at multiple sites throughout the mitochondrial network following short pulses with bromodeoxyuridine. Although no bromodeoxyuridine incorporation was observed in anuclear platelets, incorporation into mtDNA of fibroblasts that had been enucleated 2 h prior to labeling was readily detectable. Blotting experiments indicated that the bromodeoxyuridine incorporation into mtDNA observed in situ represents replication of the entire mtDNA molecule. The studies also showed that replication of mtDNA occurred at any stage of the cell cycle in proliferating cells and continued in postmitotic cells, although at a lower level. These results demonstrate that mtDNA replication is not restricted to mitochondria in the proximity of the nucleus and imply that all components of the replication machinery are available at sufficient levels throughout the mitochondrial network to permit mtDNA replication throughout the cytoplasm.     

Response of mouse ovaries in vivo and in organ culture to pregnant mare's serum gonadotrophin and human chorionic gonadotrophin

The effect of various doses of pregnant mare's serum gonadotropin (PMSG) and human chorionic gonadotropin (HCG) on the yield of oocytes undergoing preovulatory maturation in organ culture was studied in mice. The mice received ip injections of .5, 1, 3, or 5 IU PMSG and 48 hours later, 0, 1, 2, or 4 IU HCC or their ovaries were cultured with 0, .2, .4, or .8 IU HCG/ml. 3-5 IU PMSG by 1-2 IU HCG induced maximum preovulatory response both in vivo and in culture. The proportion of large antral follicles with oocytes at Metaphase 2 was lower in culture than in the intact animal. However, the number of preantral and small Graafian follicles increased to a higher level in vivo and thus the overall total number of oocytes that progressed beyond the germinal vesicle stage was higher in organ culture.     

Comparison of Immunochemical Methods with the Rat Ovarian Hyperemia Test in Routine Assays of Human Urinary Chorionic Gonadotropin

Positive rat ovarian hyperemia tests (AZ) in most cases of normal pregnancy agreed well with the positive results of commercial immunochemical in vitro assay methods. Immunochemically reactive and biologically undetectable urinary chorionic gonadotropin (HCG) was observed in one case of normal pregnancy, in one case of presumably normal pregnancy and in several cases of abortion. HCG excreted by a patient with choriocarcinoma was biologically active and immunochemically reactive; it became undetectable after methotrexate therapy. The in vitro tests have been successfully applied in quantitative gonadotropin assays. Negative bioassays and weakly positive immunochemical tests were observed in the urine of several patients in whom an increased pituitary gonadotropin output was suspected.     

Replication of mitochondrial DNA in the early development of Misgurnus fossilis

Mitochondria isolated from Misgurnus fossilis embryos at various developmental stages were incubated with ³H-dTTP in vitro and the incorporation into mtDNA was determined. It has been found that the rate of mtDNA labeling increases exponentially with a doubling time of 7 hr from 0.01 pmole of ³H-dTMP/mg protein/hr in mitochondria from unfertilized eggs to 0.4 pmoles of ³H-dTMP/mg protein/hr in mitochondria of 35 hr embryos. The pool of intramitochondrial dTTP decreases 2.5 times during the first 10 hr after fertilization, then remains practically constant up to 35 hr of development. The rate of exogenous ³H-dTTP incorporation into the acid soluble pool of isolated mitochondria at two stages is approximately proportional to the pool size. Thus identical specific activities of ³H-dTTP inside mitochondria would be obtained even with pools of different sizes. We conclude that the increase of ³H-dTMP incorporation into mtDNA in development reflects genuine activation of mtDNA synthesis. As early as 6 hr after fertilization the bulk of the label incorporated into mtDNA is found in the fraction associated with covalently closed molecules. This pattern of labeling characteristic for replicating mtDNA is maintained throughout early development. In contrast such preferential label incorporation into the closed circular fraction was not found with mitochondria of unfertilized eggs. Closed mtDNA from unfertilized eggs contains not more than 1% of molecules with D-loops. In 35 hr embryos the corresponding value is equal to about 4%. Activation of mtDNA replication in embryogenesis is probably due to the activation of mechanisms responsible for the generation of primers for replication. DNA polymerase activity solubilized from mitochondria remains unchanged in the course of embryogenesis.     

In situ localization of mitochondrial DNA replication in intact mammalian cells

Nearly all of the known activities required for mitochondrial DNA (mtDNA) replication and expression are nuclear-encoded gene products, necessitating communication between these two physically distinct intracellular compartments. A significant amount of both general and specific biochemical information about mtDNA replication in mammalian cells has been known for almost two decades. Early studies achieved selective incorporation of the thymidine analog 5-Bromo-2-deoxy-Uridine (BrdU) into mtDNA of thymidine kinase-deficient (TK[-]) cells. We have revisited this approach from a cellular perspective to determine whether there exist spatiotemporal constraints on mtDNA replication. Laser-scanning confocal microscopy was used to selectively detect mtDNA synthesis in situ in cultured mammalian cells using an immunocytochemical double-labeling approach to visualize the incorporation of BrdU into mtDNA of dye-labeled mitochondria. In situ detection of BrdU-incorporated mtDNA was feasible after a minimum of 1- 2 h treatment with BrdU, consistent with previous biochemical studies that determined the time required for completion of a round of mtDNA replication. Interestingly, the pattern of BrdU incorporation into the mtDNA of cultured mammalian cells consistently radiated outward from a perinuclear position, suggesting that mtDNA replication first occurs in the vicinity of nuclear-provided materials. Newly replicated mtDNA then appears to rapidly distribute throughout the dynamic cellular mitochondrial network.     

Presence and Possible Mode of Action of a Proteinaceous Gonadotropin-like Growth Regulating Factor in Plant Systems

Antiserum to human chorionic gonadotropin (HCG) caused marked inhibition of adventitious rooting of Begonia semperflorens and Chrysanthemum morifolium stem cuttings. Immuno-absorption of crude protein extract from chrysanthemum foliage through a column of polymerized and unsolubilized HCG antibodies resulted in a significant reduction in adventitious root promoting activity of the extract. These results are discussed in the light of a hypothesis that an endogenous protein growth regulating substance which immunologically resembles HCG exists in plant systems. Further experimentation with HCG suggests that its mode of action is possibly via the regulation of peroxidase enzymatic control of auxin levels.     

Effects of gonadotropins on oocyte maturation and progesterone production by porcine ovarian follicles cultured in vitro

Effects of gonadotropins on the maturation of isolated oocytes and production of progesterone by porcine ovarian follicles from gonadotropin treated gilts have been studied in vitro. The addition of gonadotropins (2 I. U./ml, PMSG, HGC or 2 mg/ml FSH) to the culture medium resulted in increasing the number (84 - 90 %) of isolated oocytes which reached metaphase II. Expansion of the whole cumulus mass was observed only in media containing PMSG, whereas FSH or HCG alone did not cause these marked changes in the cumulus cells. Denudation of the eggs prior to culture gave no significant differences in the maturation rates between oocytes cultured in media with or without gonadotropins. In vitro maturation of follicle-enclosed oocytes took place only in HCG treated animals. Removing the ovary at 15 or 60 minutes after intravenous HCG administration induced oocyte maturation only in 22% and 17% respectively. A sharp increase in the number of oocytes which resume meiosis during follicle culture was observed 4 hours after HCG injection (84 %) and all of the oocytes of the gilts ovariectomized at 8 hours after HCG injection matured during the culture period. The progesterone production of isolated follicles from control gilts (only PMSG injected) increased slowly during a 96-hour culture period (from 48 to 240 ng progesterone/follicle), whereas the secretion of progesterone was drastically increased after a 15 minute interval between HCG injection and ovariectomy (from 42 to 950 ng progesterone/follicle). Follicles removed 24 hours after HCG injection showed a further increase in steroid production (2000 ng progesterone/follicle) and consistently secreted large amounts of progesterone during the culture period.     

Effects of indomethacin and prostaglandins on ovulation of goldfish

A technique is described whereby elevated temperature and HCG injection yield a high percentage of ovulation in gravid goldfish. Indomethacin (10 μg/g; i.p. injection) completely inhibits ovulation if given within 6 hours following HCG (4 IU/g); the unovulated oocytes develop rapidly into corpora atretica. PGE₁, PGE₂, and PGF_2α (5 μg/g; i.p. injection) induce ovulation in fish treated with indomethacin and HCG; PGE₂ was most effective when given 11 hours after HCG. The results suggest that the ovulatory action of prostaglandins following HCG stimulation is at the level of the ovary and that it is restricted to a period between 7 and 12 hours after the gonadotropin injection.