Manipulation of Ovarian Function Significantly Influenced Trabecular and Cortical Bone Volume,Architecture and Density in Mice at Death

Previously, transplantation of ovaries from young, cycling mice into old, postreproductive-age mice increased life span and decreased cardiomyopathy at death. We anticipated that the same factors that increased life span and decreased cardiomyopathy could also influence the progression of orthopedic disease. At 11 months of age, prepubertally ovariectomized and ovary-intact mice (including reproductively cycling and acyclic mice) received new 60-day-old ovaries. At death, epiphyseal bone in the proximal tibia and the distal femur and mid-shaft tibial and femoral diaphyseal bone was analyzed with micro-computed tomography. For qualitative analysis of osteophytosis, we also included mineralized connective tissue within the stifle joint. Prepubertal ovariectomy had the greatest influence on bone volume, ovarian transplantation had the greatest influence on bone architecture and both treatments influenced bone density. Ovarian transplantation increased cortical, but not trabecular bone density and tended to increase osteophytosis and heterotopic mineralization, except in acyclic recipients. These effects may have been dictated by the timing of the treatments, with ovariectomy appearing to influence early development and ovarian transplantation limited to influencing only the postreproductive period. However, major differences observed between cycling, acyclic and ovariectomized recipients of new ovaries may have been, in part due to differences in the levels of hormone receptors present and the responsiveness of specific bone processes to hormone signaling. Changes that resulted from these treatments may represent a compensatory response to normal age-associated, negative, orthopedic changes. Alternatively, differences between treatments may simply be the ''preservation'' of unblemished orthopedic conditions, prior to the influence of negative, age-associated effects. These findings may suggest that in women, tailoring hormone replacement therapy to the patient''s current reproductive status may improve therapy effectiveness and that beginning therapy earlier may help preserve trabecular bone mineral density that would otherwise be lost during perimenopause.     

Supernumerary ovarian grafts in aging C57BL/6J mice reveal complexities in the neuroendocrine impairments of acyclic mice

Determinants of the age-related acyclic state, persistent vaginal cornification (PVC), were studied in reproductively senescent mice using a 2-stage ovarian transplantation procedure, whereby ovaries from young mice were grafted to older mice without removing their autogenous ovaries until 8 wk later. In contrast to the usual ("1-stage") procedure, in which the autogenous ovaries are removed at the time of grafting, the 2-stage approach is postulated to circumvent potential effects of the reduction in steroids during the ovariprival phase prior to vascularization of the grafted ovary, which may reverse age-related hypothalamic-pituitary impairments. The 2-stage transplantation procedure was validated in young C57BL/6J mice. Estrous cycles were not disrupted by removal of the autogenous ovaries 8 wk after the grafting, indicating that grafted ovaries began functioning before or within days after ovariectomy. No difference in estrous cycle frequency or distribution was detected between the young mice with 2-stage and those with 1-stage transplants for at least 3 mo after removal of the autogenous ovaries. Most older (15- to 18-mo-old) mice with PVC (70%) remained acyclic after receiving young ovaries by either the 1-stage or the 2-stage procedure, indicating that extra-ovarian, presumably neuroendocrine, impairments are sufficient to maintain acyclicity in most older mice once it is initiated. However, 30% of the older mice from each transplantation group began cycling after receiving young ovaries by either the 1-stage or 2-stage procedure, as observed before 1-stage transplants. Therefore, cycle reactivation was not a result of the transient ovariprival phase incurred during 1-stage transplantation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Age of ovary determines remaining life expectancy in old ovariectomized mice

We investigated the capacity of young ovaries, transplanted into old ovariectomized CBA mice, to improve remaining life expectancy of the hosts. Donor females were sexually mature 2-month-olds; recipients were prepubertally ovariectomized at 3 weeks and received transplants at 5, 8 or 11 months of age. Relative to ovariectomized control females, life expectancy at 11 months was increased by 60% in 11-month recipient females and by 40% relative to intact control females. Only 20% of the 11-month transplant females died in the 300-day period following ovarian transplantation, whereas nearly 65% of the ovariectomized control females died during this same period. The 11-month-old recipient females resumed oestrus and continued to cycle up to several months beyond the age of control female reproductive senescence. Across the three recipient age groups, transplantation of young ovaries increased life expectancy in proportion to the relative youth of the ovary. Our results relate to recent findings on the gonadal input upon aging in Caenorhabditis elegans and may suggest how the mammalian gonad, including that of humans, could regulate aging and determine longevity.     

Prolongation and cessation of estrous cycles in aging C57BL/6J mice are differentially regulated events

The relative contributions of ovarian failure and hypothalamic-pituitary dysfunction to the prolongation and cessation of estrous cycles were assessed by measuring the ability of acutely ovariectomized (OVX) middle-aged (12 mo) mice to cycle after receiving grafts (under the renal capsule) of ovaries from young (2 mo) mice. The potentially disruptive effect of the acyclic state on the cycling response to grafted, young ovaries was avoided restricting grafting to middle-aged hosts that were still cycling. The effect of chronic exposure to ovarian secretions before the cessation of cyclicity on age-related hypothalamic-pituitary dysfunction was also assessed. The cycling ability of long-term OVX middle-aged mice (i.e., OVX at 3 mo) bearing grafts of young ovaries was compared to that of age-matched acutely OVX controls. Grafted young ovaries extended the cycling lifespan of acutely OVX middle-aged hosts by 60%. The length of this extended cycling lifespan, however, was only 80% of that achieved by young hosts bearing grafts of young ovaries. Young ovaries in middle-aged mice markedly lowered the incidence of long cycles (greater than 5 days), shifting the modal cycle length to 5 days. However, young ovaries in middle-aged mice failed to increase the incidence of 4-day cycles, the modal cycle of young controls. Middle-aged ovaries grafted into young hosts lengthened their cycles and shortened their cycling lifespan to middle-aged values. Long-term ovariectomy failed to increase the cycling lifespan of middle-aged hosts bearing grafts of young ovaries beyond that achieved in acutely OVX mice. Long-term ovariectomy did shorten the modal cycle length of middle-aged mice to 4 days, although the duration of 4-day cycling was only one-third (2 mo) that of young controls. These results indicate that the relative contributions of ovarian and neuroendocrine factors to three major events of reproductive aging vary with each event. Whereas the hypothalamic-pituitary unit appears to play an important role in the initial shift from 4- to 5-day cycles, the aging ovary plays the major role in the subsequent shift to longer cycles and in the ultimate cessation of cyclicity. Although chronic exposure to ovarian secretions during the period of cyclicity does not play a major role in the cessation of cyclicity, it appears to contribute to the hypothalamic-pituitary changes responsible for the initial shift from 4- to 5-day cycles.     

Cessation of ovarian cycles in a young mouse while in parabiosis with an older one

Female mice 3 and 22-24 months of age were jointed in heterochronic parabiosis. That led to permanent estrus in young mice and maintenance of intact anestrus in old mice. After 8-9 weeks of parabiosis there appeared morphological signs of accelerated ageing in the ovaries of young animals, while no changes in the ovaries of old mice were observed. Serum progesterone of young partners decreased to the levels of old animals and estradiol levels remained unchanged, while prolactin content in adenohypophysis was the same as in young single animals but exceeded the level noted in young mice in parabiosis with young partners. Hormone content in old parabionts remained unchanged, as compared to the control. An old organism is thought to be the source of unidentified factors suppressing the ovarian function in young animals.     

Meloxicam and Buprenorphine Treatment after Ovarian Transplantation Does Not Affect Estrous Cyclicity and Follicular Integrity in Aged CBA/J Mice

Angiogenesis, the formation of new blood vessels, is important for the survival of ovarian transplants and the restoration of ovarian functions. Without angiogenesis, transplanted ovarian tissue becomes more susceptible to tissue damage and necrosis. Administration of analgesics for pain management has been shown to decrease angiogenesis, which can influence transplant success especially in aged animals. Aging and the effects of hypoxia after transplantation decrease reproductive viability of the ovarian transplant; therefore, it is important to understand the additional effects of analgesics on aged animal models. The present study investigated the effects of two analgesics, buprenorphine, an opiate, and meloxicam, a non-steroidal anti-inflammatory drug (NSAID), on the reproductive indicators related to estrous cyclicity and follicular integrity after ovarian transplantation of young ovaries into aged CBA/J mice. These aged females did not show any different reproductive responses when treated with either buprenorphine or meloxicam. No significant differences were observed in estrous cycle length, the onset of estrous cycling, the regularity of estrous cycles, and the proportion of viable follicles and total number of follicles per ovarian sample across treatment groups.     

Fecal microbiota transplantation from young donor mice improves ovarian function in aged mice

Advanced maternal age is characterized by declines in the quantity and quality of oocytes in the ovaries, and the aging process is accompanied by changes in gut microbiota composition. However, little is known about the relationship between gut microbiota and ovarian aging. By using fecal microbiota transplantation (FMT) to transplant material from young (5-week-old) into aged (42-week-old) mice, we find that the composition of gut microbiota in FMT-treated mice presents a “younger-like phenotype” and an increase of commensal bacteria, such as Bifidobacterium and Ruminococcaceae. Moreover, the FMT-treated mice show increased anti-inflammatory cytokine IL-4 and decreased pro-inflammatory cytokine IFN-γ. Fertility tests for assessing ovarian function reveal that the first litter size of female FMT-treated mice is significantly higher than that of the non-FMT group. Morphology analysis demonstrates a dramatic decrease in follicle atresia and apoptosis as well as an increase in cellular proliferation in the ovaries of the FMT-treated mice. Our results also show that FMT improves the immune microenvironment in aged ovaries, with decreased macrophages and macrophage-derived multinucleated giant cells (MNGCs). These results suggest that FMT from young donors could be a good choice for delaying ovarian aging.     

Estradiol-induced adult anovulatory syndrome in female C57BL/6J mice: age-like neuroendocrine, but not ovarian, impairments

Long-term effects of elevated plasma estradiol (E2) on ovarian and neuroendocrine functions were examined in 4-month-old cycling female C57BL/6J mice injected s.c. with 0.2 or 0.05 mg estradiol valerate (EV), or oil. Within 7 days, EV-injected mice became permanently acyclic, exhibiting the persistent vaginal cornification (PVC) characteristic of reproductive senescence in rodents. Four months after injection, ovaries from EV-injected mice exhibited no corpora lutea, but ovulated in response to an injection of human chorionic gonadotropin (hCG) (as do older, spontaneously PVC mice). When grafted into young mice, ovaries from EV-injected mice supported as many estrous cycles as ovaries from oil-injected controls. EV did not alter the suppression of luteinizing hormone (LH) by E2, LH response to injected LH releasing hormone (LHRH), or plasma prolactin (Prl). However, EV-injected mice exhibited impairments in LH regulation similar to those seen in old, acyclic mice. Plasma LH 30 days after ovariectomy was 40% lower, and E2-induced LH surges were 60% lower, in EV-injected mice versus controls. Furthermore, EV-injected mice were unable to support estrous cycles given young ovarian grafts, in contrast to controls. Effects of sustained but physiological levels (15-20 pg/ml) of plasma E2, were examined in intact cycling mice given sham or E2 implants. Six weeks after implantation, the implants were removed; only 50% of the E2-implanted mice subsequently exhibited estrous cycles, compared with 100% of sham-implanted controls. Furthermore, those E2-implanted mice which did cycle had fewer cycles than controls.(ABSTRACT TRUNCATED AT 250 WORDS)     

Orthotopic ovarian transplantations in young and aged C57BL/6J mice

Orthotopic ovarian transplantations were done between young (6-wk-old) and aged (17-mo-old) C57BL/6J mice. The percentages of mice mating following surgery from the four possible ovarian transfer combinations were as follows: young into young, 83%; young into aged, 46%; aged into young, 83%; and aged into aged, 36%. The percentages of these mice that were pregnant 10 days following the presence of a vaginal sperm plug were as follows: young into young, 58%; young into aged, 9%; aged into young, 50%; and aged into aged, 0%. Some of the fetuses derived from matings of the above mice were dissociated and their cells prepared for chromosomal smears. No evidence of aneuploidy or mosaicism was found in fetuses derived from ovaries of young or aged mice. Aged ovaries, transferred to either young or aged recipients, were found to have fewer developing follicles and lower weight, which was most apparent in recipients that failed to mate or to get pregnant. Concentrations of luteinizing hormone, follicle-stimulating hormone (FSH), and prolactin in plasma from each of the pregnant recipients were analyzed by radioimmunoassay. The only statistical differences found between the transfer groups occurred in FSH concentrations. Plasma FSH was markedly elevated (P less than 0.005) in young recipients with ovaries transplanted from aged donors, in comparison to young recipients with ovaries from young donors. These data indicate that the aging ovary and uterus play a secondary role in reproductive failure and that the aging hypothalamic-hypophyseal complex is primarily responsible for the loss of fecundity in older female C57BL/6J mice.     

Psychobiology of sexual behavior in a whiptail lizard, Cnemidophorus inornatus

This study investigated the effects of social environment on gonadal recrudescence and sexual behavior in male and female Little Striped Whiptail lizards (Cnemidophorus inornatus). The presence of sexually active males facilitates ovarian recrudescence in conspecific females. Similarly, the presence of reproductively active females facilitates testicular recrudescence in conspecific males. Males housed with females, however, had lower average circulating concentrations of testosterone and dihydrotestosterone, and higher average concentrations of corticosterone compared to intact males housed in isolation. In other studies, the presence of reproductively active females partially restored courtship behavior in castrated males compared to castrated males housed in isolation. Despite the stimulatory effects of females on castrates, exogenous androgens are required for complete restoration of all components of sexual behavior in male C. inornatus. Females are receptive to male courtship and copulatory behavior only during the vitellogenic stages; females in previtellogenic or postovulatory ovarian stages aggressively reject male courtship advances. These findings demonstrate reciprocal effects of sexual behaviors of males and females upon each other's reproductive behavior and physiology.     

Delayed anovulatory syndrome induced by estradiol in female C57BL/6J mice: age-like neuroendocrine, but not ovarian, impairments

These studies describe induction of a delayed anovulatory syndrome (DAS) by estradiol (E2) in female C57BL/6J mice. Six days after birth, female mice were injected s.c. with 0.1 micrograms estradiol benzoate or oil. Over 90% of the oil-injected controls exhibited estrous cycles from 2 to 9 mo of age. In contrast, 60% of the E2-injected mice exhibited estrous cycles at 2 mo of age but were acyclic by 9 mo; these mice were considered to have exhibited a DAS, and had longer cycles than controls. At 12 mo, ovarian impairments were assessed by examining 1) ovulation after s.c. injection of 5 IU human chorionic gonadotropin (hCG), and 2) estrous cycles after grafting into young (3-mo-old) hosts. Simultaneously, neuroendocrine impairments were assessed by examining 1) the surge of luteinizing hormone (LH) induced by E2 implants after ovariectomy, and 2) estrous cycles after receiving ovarian grafts from 3-mo-old mice. Ovaries from DAS and control mice ovulated equally in response to hCG. Ovaries from DAS mice grafted into young ovariectomized hosts supported 30% more cycles, of shorter period, compared with ovaries from control donors. However, the E2-induced LH surge was 50% smaller in DAS mice than in controls. Ovariectomized DAS hosts with ovarian grafts from young mice supported 70% fewer estrous cycles, of longer period, compared with ovariectomized control hosts with young grafts. We conclude that the E2-induced DAS in female mice is not due to ovarian impairments, but seems to result from neuroendocrine impairments.     

The effect of superficial pinealectomy on reproduction and brown fat in the adult white-footed mouse,Peromyscus leucopus

Summary A method for superficial pinealectomy of the adult white-footed mouse,Peromyscus leucopus, is presented. Histological examination of the brain of pinealectomized mice showed that the deep pineal gland was left intact. The survival rate of pinealectomized mice was 80%. Pinealectomized mice were exposed to a short day photoperiod (8L:16D) at 15°C for 7 weeks. After this time male mice maintained active gonads with a testicular index (TI, testis width×length/body weight) of 2.0±0.1. Testis weight was 202±35 mg, and the seminiferous tubules contained abundant spermatozoa (spermatogenic index [SI]=4.5±0.2). Sham operated animals had regressed testes. TI was 1.2±0.2, testis weight was 97±26 mg, and the SI was 2.7±0.7 (allP<0.05 relative to pinealectomized mice). Pinealectomized females were reproductively competent in that all of the mice had a perforate vagina, the reproductive tract weight (vagina, uterus, oviducts, and ovaries) was 111±15 mg, and the ovaries from each animal contained preovulatory follicles. Sham operated mice had an imperforate vagina, reproductive tract weights were 34±5 mg, and in only 1 out of 5 mice did the ovaries contain a preovulatory follicle (allP<0.05). The weight of the lipid-free interscapular brown fat was 28% less in pinealectomized mice relative to sham operated animals (P<0.01). These results support the role of the pineal gland as regulator of short day, cold induced reproductive regression and brown fat hypertrophy.     

Effect of Microwave Exposure on the Ovarian Development of Drosophila melanogaster

In the present experiments the effect of GSM radiation on ovarian development of virgin Drosophila melanogaster female insects was studied. Newly emerged adult female flies were collected and divided into separate identical groups. After the a lapse of certain number of hours-different for each group-the insects (exposed and sham-exposed) were dissected and their intact ovaries were collected and photographed under an optical microscope with the same magnification. The size of the ovaries was compared between exposed and sham-exposed virgin female insects, during the time needed for the completion of oogenesis and maturation of the first eggs in the ovarioles. Immediately after the intact ovaries were photographed, they were further dissected into individual ovarioles and treated for TUNEL and acridine-orange assays to determine the degree of DNA damage in the egg chamber cells. The study showed that the ovarian size of the exposed insects is significantly smaller than that of the corresponding sham-exposed insects, due to destruction of egg chambers by the GSM radiation, after DNA damage and consequent cell death induction in the egg chamber cells of the virgin females as shown in previous experiments on inseminated females. The difference in ovarian size between sham-exposed and exposed virgin female flies becomes most evident 39-45 h after eclosion when the first eggs within the ovaries are at the late vitellogenic and post-vitellogenic stages (mid-late oogenesis). More than 45 h after eclosion, the difference in ovarian size decreases, as the first mature eggs of the sham-exposed insects are leaving the ovaries and are laid.     

Postnatal androgenization induces premature aging of rat ovaries

In the present paper, we report that ovaries of adult rats treated with testosterone propionate (TP) on a critical postnatal Day 5 exhibit histologic and immunohistochemical findings which resemble those of the anovulatory ovaries in middle-aged female rats. The sterile rat model has been long known whereas ovarian failure seems to be a reason for anovulation with normal hypothalamo-pituitary-gonadotropin background. Appropriate function of ovarian steroidogenic cells is also regulated by mesenchymal cells. To characterize the ovarian failure, we studied the histology, luteinizing hormone receptor (LHR) expression, and characterized changes of vascular pericytes, T cells, and dendritic cells in ovarian steroidogenic compartments consisting of interstitial cells (ISC) of ovarian interstitial glands, and granulosa and theca interna cells of ovarian follicles. Normal adult ovaries contained 63% of mature interstitial glands. The mature ISC exhibited moderate cytoplasmic and strong surface LHR expression and fine (<5 micrometer) cytoplasmic vacuoles (ISC of 'luteal type'). They originated from young ISC of 'thecal type,' which exhibited strong cytoplasmic LHR expression. Remaining 37% were aged interstitial glands, which consisted of aged ISC (increased cytoplasmic vacuolization, nuclear pyknosis, and reduced surface LHR expression) and regressing ISC (weak cytoplasmic and no surface LHR expression). However, no mature ISC of 'luteal type' were detected in anovulatory ovaries of adult rats (45- and 60-day-old) injected with TP (100 or 500 microgram) on postnatal Day 5 (TP rats). Their ovaries contained 96% of aged interstitial glands with aged and regressing ISC. Remaining 4% were abnormal interstitial glands with direct transition of young ISC of 'thecal type' into aged ISC (young/aged glands). Lack of mature ISC, and similar amount of aged (96%) and young/aged interstitial glands (4%) was also detected in anovulatory ovaries of untreated persistently estrous middle-aged (10-month-old) females (aging PE rats). The aging process in TP and aging PE rats was accompanied by regression of vascular pericytes, T cells, and dendritic cells within the interstitial glands. In addition, anovulatory ovaries of TP rats and aging PE females contained mature follicles exhibiting LHR overexpression by granulosa cells, and aged (cystic) follicles with reduced layers of granulosa cells lacking LHR expression. In contrast, when the rats were injected with 500 microgram of TP later, on postnatal Day 10, the adult females exhibited estrous cycles and normal ovaries with corpora lutea. These results show that injection of TP during the critical postnatal period causes a lack of mature and preponderance of aged ISC in adult ovaries, accompanied by degeneration of mesenchymal cells. We suggest that mesenchymal cells regulate qualitative aspects of tissue-specific cells, and this function of mesenchymal cells is programmed during the critical period of development.     

Stress-induced opening of the permeability transition pore in the dystrophin-deficient heart is attenuated by acute treatment with sildenafil

Susceptibility of cardiomyocytes to stress-induced damage has been implicated in the development of cardiomyopathy in Duchenne muscular dystrophy, a disease caused by the lack of the cytoskeletal protein dystrophin in which heart failure is frequent. However, the factors underlying the disease progression are unclear and treatments are limited. Here, we tested the hypothesis of a greater susceptibility to the opening of the mitochondrial permeability transition pore (PTP) in hearts from young dystrophic (mdx) mice (before the development of overt cardiomyopathy) when subjected to a stress protocol and determined whether the prevention of a PTP opening is involved in the cardioprotective effect of sildenafil, which we have previously reported in mdx mice. Using the 2-deoxy-[(3)H]glucose method to quantify the PTP opening in ex vivo perfused hearts, we demonstrate that when compared with those of controls, the hearts from young mdx mice subjected to ischemia-reperfusion (I/R) display an excessive PTP opening as well as enhanced activation of cell death signaling, mitochondrial oxidative stress, cardiomyocyte damage, and poorer recovery of contractile function. Functional analyses in permeabilized cardiac fibers from nonischemic hearts revealed that in vitro mitochondria from mdx hearts display normal respiratory function and reactive oxygen species handling, but enhanced Ca(2+) uptake velocity and premature opening of the PTP, which may predispose to I/R-induced injury. The administration of a single dose of sildenafil to mdx mice before I/R prevented excessive PTP opening and its downstream consequences and reduced tissue Ca(2+) levels. Furthermore, mitochondrial Ca(2+) uptake velocity was reduced following sildenafil treatment. In conclusion, beyond our documentation that an increased susceptibility to the opening of the mitochondrial PTP in the mdx heart occurs well before clinical signs of overt cardiomyopathy, our results demonstrate that sildenafil, which is already administered in other pediatric populations and is reported safe and well tolerated, provides efficient protection against this deleterious event, likely by reducing cellular Ca(2+) loading and mitochondrial Ca(2+) uptake.     

Oral administration of estradiol to young C57BL/6J mice induces age-like neuroendocrine dysfunctions in the regulation of estrous cycles

Exogenous estradiol (E2) can accelerate the onset of acyclicity and other age-related neuroendocrine changes in rodents. The present study demonstrates that chronic oral administration of E2 (850 micrograms/kg body wt/day) induces premature acyclicity in intact C57BL/6J mice. After 6 wk of E2, mice regained cyclicity but ceased cycling prematurely, whereas 12 wk of E2 caused permanent acyclicity in all mice. The acyclicity after 12 wk of E2 was not reversed by ovarian replacement from young donors, which implies extra-ovarian (neuroendocrine) lesions. The above studies with intact mice can not identify the contributions from exogenous E2 and endogenous ovarian sections and the possible impact of oral E2 on the ovary. Therefore, mice were ovariectomized (OVX) to remove ovarian contributions, treated for 12 wk with oral E2, and then were given young ovarian grafts and assayed for neuroendocrine functions. Approximately 50% of the E2-treated and grafted mice were permanently acyclic, whereas controls cycled well. Thus, oral E2 causes irreversible neuroendocrine damage. However, the presence of the ovary during E2 treatment increases the loss of cyclicity, implying a dose effect. We conclude that the induction of acyclicity is dependent on the dose and duration of E2 exposure.     

Possible involvement of ecdysteroids in photoperiodically induced suppresion of ovarian development in a Japanese strain of the migratory locust,Locusta migratoria

In a Japanese population of Locusta migratoria, adult females become reproductively inactive under crowding and long days (LD) and reproductively active under crowding and short days (SD). The identity and titre of ecdysteroids in the haemolymph and ovaries from adult females reared under SD and LD were investigated by RIA/HPLC. The effects of exogenous juvenile hormone (JH) III treatments on the termination of such reproductive arrest and ecdysteroid contents in LD females were also examined. In general, ecdysteroid titres in both haemolymph and ovaries were significantly higher in reproductively active SD females than in reproductively inactive LD females. A clear difference was also observed in oocyte growth between SD and LD individuals. JH III applications (three consecutive topical applications, 150 μg per insect per day from day 3) stimulated ovarian development in LD females and significantly increased the haemolymph and ovarian ecdysteroids to a level comparable to that of reproductively active SD adult females.     

Influence of ovaries and photoperiod on reproductive function in the mare.

A 16 h daily photoperiod hastened the onset of the ovulatory season (first ovulation); gonadotrophin and follicular changes prior to the onset were similar in intact light-treated and control mares. A preovulatory decline in FSH concentrations before the onset of the ovulatory season preceded the decrease in number of follicles (15--25 mm) and the rise in LH concentrations which was temporally associated with the growth of an ovulatory follicle. Seasonal changes of FSH and LH concentrations were found in ovariectomized mares and were influenced by photoperiod. During the anovulatory season, there was no ovarian influence on gonadotrophin concentrations. However, during the ovulatory season the ovaries exerted a positive influence on seasonally elevated LH concentrations during oestrus and a negative influence during dioestrus. The ovaries exerted a negative influence on seasonally elevated FSH concentrations throughout the oestrous cycle. The onset of the ovulatory season occurred at the time of the first sustained increase in LH concentrations resulting from positive seasonal (increasing photoperiod) and ovarian influences.     

Mouse ovarian factors with angiogenic activities: partial characterization.

Extracts of nonluteal mouse ovaries (Jcl: ICR strain) were assayed for neovascularization by implanting Elvax films, impregnated with test samples, on the lateral wall of the sheath of m. rectus abdominis in young adult mice of the same strain. Neovascularization occurred in a dose-dependent manner. Angiogenic activity was increased in extracts of ovaries from mice treated with follicle-stimulating hormone (FSH). The angiogenic activity was retained when the extract was heated to 100 degrees C for 15 min or adsorbed with activated charcoal. The ovarian extract was purified by affinity chromatography on a Con A-Sepharose 4B column. The adsorbed fraction possessed higher angiogenic activity. The ovarian extract was fractionated by ammonium sulfate precipitation. High angiogenic activity was found in the fraction collected between 20 to 50% saturation.