Vitellogenin fluctuations in haemolymph and fat body and dynamics of uptake into oöcytes during the reproductive cycle of Diploptera punctata

Haemolymph and fat body soluble protein titres have been examined during the reproductive cycle of Diploptera punctata, with particular emphasis on the occurrence of vitellogenin and its uptake into the developing oöcytes. Vitellogenin was first detected in the haemolymph of mated females 2 days after adult eclosion at about the same time that vitellin deposition in basal oöcytes began. Peak haemolymph titres of vitellogenin occurred on day 6, correlated with the completion of yolk uptake. Thereafter vitellogenin levels declined and were generally undetectable throughout most of gestation, rising again shortly before parturition in association with the second gonotrophic cycle. Total haemolymph protein levels were not correlated with vitellogenesis.Soluble fat body vitellogenin titres of mated females remained low during the first oöcyte growth period but then rose several-fold at its completion and remained high throughout pregnancy and the second gonotrophic cycle. Total fat body soluble proteins decline after adult eclosion in association with oöcyte growth.Vitellin accumulation in basal oöcytes was related linearly to increase in volume until the onset of chorion formation. Thus no post-vitellogenic growth period was detected.     

Vitellogenesis by the American cockroach: Electrophoretic and antigenic characterization of haemolymph and oöcyte proteins

Several peptides have been found in the haemolymph which are antigenically similar to peptides found in the terminal oöcyte during vitellogenesis. There appear to be two major peptides. labeled A and D, in the oöcyte with a stoichiometry of A₂D₁. These two proteins are also found in the haemolymph. Several other prominent proteins found in the haemolymph during the six day cycle are not found to be immunochemically similar to yolk antisera.The possibility of a precursor protein found in both the haemolymph and terminal oöcyte with a molecular weight of 189,000 is discussed.     

Ovarian maturation in Leucophaea maderae: Juvenile hormone regulation of thymidine uptake into follicle cell DNA

Our research demonstrates that juvenile hormone (JH I) stimulates thymidine incorporation into ovarian follicle cell DNA in the ovoviviparous cockroach, Leucophaea maderae.A rapid, quantitative method for monitoring ³H-thymidine incorporation into ovarian DNA, in vitro, is described. Cultured ovarian tissue from L. maderae incorporates ³H-thymidine into DNA at a linear rate between 16 and 120 min; analysis of the incorporated label revealed at least 98% of it to be in DNA.Using L. maderae females that had been mated 7 days after adult emergence, we monitored the following biochemical phenomena during the 18–22 day period of terminal oöcyte growth: (1) ³H-thymidine incorporation into ovarian DNA: (2) general protein synthesis in fat body; and (3) specific fat body vitellogenin synthesis.Decapitation of mated females with maturing oöcytes arrested both ovarian DNA synthesis and fat body vitellogenin synthesis. Substantial restoration of both types of synthesis was induced by injection of JH I. The resumption of thymidine incorporation into DNA was localized in the follicular epithelium of the terminal oöcyte.In decapitated virgin females, injection of JH I stimulated oöcyte growth and ³H-thymidine incorporation into ovarian DNA. Dose and time response curves indicate that peak stimulation of ovarian DNA synthesis occurred between 72 and 96 hr after administration of a single optimal dose of 25 μg JH I. The concurrent manifestation of ³H-thymidine uptake into ovarian DNA and activity within the fat body indicates that a similar hormonal mode of action may be operative with respect to both tissue types in virgin females.     

Haemolymph ecdysteroid levels in female tsetse fly Glossina fuscipes (Diptera) during the first reproductive cycle: A comparison between virgin and mated females

The fluctuations in haemolymph ecdysteroid levels were recorded by radioimmunoassay during the first two ovarian cycles of the tsetse fly, Glossina fuscipes. During the first ovarian cycle, the patterns of ecdysteroid levels are similar in virgin and mated females. In virgins, the first oöcyte is not ovulated and ecdysteroid levels during the second vitellogenesis remain low. In mated females, vitellogenesis of the second oöcyte is concomitant with growth of the first larva in the mother's uterus and ecdysteroid levels are higher than during the first cycle. Two ecdysteroid increases were recorded in mated females and not in virgins. One coincides with vitellogenesis of the second oöcyte and the other occurs at the end of pregnancy and finishes after larviposition. The roles of ecdysteroids in the regulation of vitellogenesis, ovulation, pregnancy and larviposition are discussed.     

On the relative importance of juvenile hormone and vitellogenin for oöcyte growth in the cockroach Nauphoeta cinerea

The corpora allata of castrated females of Nauphoeta grow only very slightly and do not reach a volume greater than that of the glands of normal females during gestation. These small corpora allata are, however, active and are responsible for the synthesis of vitellogenin (female specific protein) in large amounts. Besides vitellogenin the other haemolymph proteins are also synthesized and accumulated in the haemolymph in much higher concentrations than in normal females. Implanted oöcytes grow in castrated as well as in normal females at about the same rate until the tenth day of the oöcyte maturation period. Thereafter they only grow in castrated females. If castrated and normal females are decapitated, their protein content decreases. At the same time the growth stimulating capacity of their haemolymph decreases at a much faster rate. If oöcytes are implanted in castrated and decapitated females after 4 days they cannot grow any more although the vitellogenin titre of the haemolymph is still much higher than it is at any time in normal females. It can be concluded that vitellogenin alone cannot induce oöcyte growth and that juvenile hormone is necessary as well for vitellogenin synthesis as for its incorporation into the oöcytes. However, in insects rich in vitellogenin juvenile hormone leads to a more rapid oöcyte growth than in insects containing only small amounts of this protein.     

Phase polymorphism in Schistocerca gregaria: Reproductive parameters

Solitarious phase Schistocerca gregaria were selected according to the criterion of the occurrence of an extra stadium during larval development. The proportion of locusts undergoing an extra ecdysis increased within one generation of rearing under isolated conditions but it failed to reach 100% throughout an observation period encompassing six generations. A higher proportion of female locusts exhibited an extra stadium indicating sexual dimorphism in this phase character.The number of eggs per pod produced by solitarious females was larger than their gregarious counterparts. This was shown to be due to an increase in the number of ovarioles and a relative decrease in the proportion of non-functional oöcytes in solitary females, confirming earlier work.The inverse relationship between ovariole numbers and oöcyte size characterizing locust phase polymorphism was examined. Vitellin content of ovaries containing mature oöcytes was similar in gregarious and solitarious females. However, vitellin content per oöcyte was less in the latter suggesting that the increase in ovariole number may occur at the expense of oöcyte size and vitellin content.     

Phase polymorphism in Schistocerca gregaria: Assessment of juvenile hormone synthesis in relation to vitellogenesis

Juvenile hormone (JH) synthesis by the corpora allata of gregarious and solitarious phase females of Schistocerca gregaria was determined in vitro during the penultimate and last stadia as well as during the first gonotrophic period of adults. Generally, the corpora allata of solitarious females showed higher rates of JH synthetic activity. In addition, in adult females there was a temporal difference between the corpora allata activities of gregarious and solitarious locusts, the latter exhibiting relatively higher rates of JH synthesis early in the first gonotrophic period. The corpus allatum volumes of solitarious females were also generally larger than those of their gregarious counterparts; there was no synchrony between fluctuations in JH synthetic activity and changes in corpus allatum volume in either phase.The early onset of relatively high JH synthetic rates in solitarious females was correlated with the early detection, by rocket immunoelectrophoresis, of vitellogenin in the haemolymph and vitellin in the oöcytes. Vitellogenin appeared in the haemolymph on day 4 in solitarious females and on day 6 in gregarious females and vitellin appeared in the oöcytes on days 6 and 8 respectively. Oöcyte length at which vitellogenesis was first detected was 1.8 mm for gregarious and 1.3 mm for solitarious females. However, despite the accelerated onset of both vitellogenin synthesis and uptake, oöcyte maturation time of solitarious females was longer. In both gregarious and solitarious females, vitellogenin titres increased until oöcytes reached a length of about 4 mm and declined thereafter. Vitellin content of ovaries increased proportionately to oöcyte growth until they attained a length of 5.0 mm. The subsequent increase in length of oöcytes to maturity is attributed to postvitellogenic growth, possibly by hydration.     

Vitellogenins in the firebrat,Thermobia domestica (Packard): Immunological quantification during reproductive cycles and in relation to insemination (Thysanura: Lepismatidae)

An antiserum raised against the major fractions (240 + 300 Kd) of the vitellins extracted from maturing oöcytes of Thermobia domestica, allowed the immunological relationship between these proteins and their haemolymph precursors (vitellogenins) to be established, as well as the female specificity of these protein fractions. Using rocket immunoelectrophoresis, the vitellogenin concentration in the female haemolymph was measured on each day of a reproductive cycle. The changes in vitellogenin titre appear to be correlated with ovarian maturation: very low levels during the previtellogenic phase and increasing levels during the vitellogenic growth phase of the basal oöcytes. Also, these changes are synchronized with the moulting cycles which persist in the adults of these primitive insects. An insemination at the beginning of the interecdysial period causes a large increase in the vitellogenin titre synchronized with accelerated oöcyte growth.     

Factors responsible for the initiation of a second oöcyte maturation cycle in the ovoviviparous cockroach Nauphoeta cinerea

The factors responsible for the initiation of a second oöcyte maturation cycle were investigated by measuring oöcyte growth, vitellogenin titre, and corpus allatum activity after injection of juvenile hormone and/or removal of the egg-case from pregnant females and by performing ovary and corpus allatum transplant experiments.Egg-case removal in late pregnancy results in immediate oöcyte growth, whereas in early pregnancy oöcyte growth is resumed only after a lapse of time, even after injection of juvenile hormone. This, however, induces an immediate increase in the haemolymph vitellogenin titre. A single injection of 2 or 10 μg of juvenile hormone II first stimulates some oöcyte growth after this lapse of time and later activates the corpora allata, which in turn leads to completion of oöcyte maturation. A repeat injection of 10 μg stimulates continuous oöcyte growth without activating the corpora allata. In the presence of an egg case, activation of the corpora allata is suppressed, even after injection of 2 μg of juvenile hormone III, and the oöcytes do not grow. Injection of higher doses stimulates oöcyte growth and leads to expulsion of the egg case in up to 95% of the females. This, however, is not a direct consequence of the increase in size of the ovaries. Ovary transplant experiment show that in young pregnant females the second generation of oöcyte is not yet competent for growth and that ovaries which are competent can mature in young pregnant females, treated with juvenile hormone, whose egg case has been removed.The results are summarized in a model demonstrating the various factors involved in regulating corpus allatum activity in oöcyte maturation and pregnancy and after application of juvenile hormone. We prepose that the corpus allatum activating effect of exogenous juvenile hormone is mediated by the growing oöcyte and that this activation can be suppressed by the continuous presence of exogenous juvenile hormone.     

Uptake of vitellogenin into developing oöcytes of Locusta migratoria

The selective incorporation of vitellogenin into developing locust oöcytes was studied using ¹²⁵I-vitellin. Vitellogenin incorporation does not start before the oöcytes are 1.5 mm in length. It increases rapidly up to a maximum at 4.7 mm oöcyte length and decreases steadily until the eggs are fully developed (6.5 mm). Concentrations of serum proteins and vitellogenin in the haemolymph show parallel changes, vitellogenin titre reaching a maximum of 7.5 mg/ml. Incorporation rates for vitellogenin increase from 1.5 μg/hr/oöcyte (2.2 mm) up to 13.8 μg/hr/oöcyte (4.7 mm). In this range incorporation per unit surface area increases 4-fold. While the vitelline and chorionic membranes are being formed, the incorporation rates as well as the protein concentrations in the haemolymph decrease steadily until the second gonotrophic cycle starts. The hormonal basis for oögenesis and the mechanism for selective uptake of locust vitellogenin are discussed.     

Biosynthesis and titre of juvenile hormone during the first gonotrophic cycle in isolated and crowded Locusta migratoria females

Basal oöcyte length, corpus allatum volume and “in vitro” juvenile hormone biosynthesis were measured in isolated and crowded Locusta migratoria females at selected times during the first gonotrophic cycle. Using gas chromatography-mass spectrometry with selected ion monitoring, the juvenile hormone titre in the haemolymph of isolated and crowded females was also determined 1 and 4 days after fledging. The rate of oöcyte growth was more rapid in isolated females and a significant (P < 0.01) difference in mean length was apparent as early as 3 days after fledging. This early manifestation of a difference in rate of oöcyte growth was correlated with a difference in haemolymph juvenile hormone titre between isolated and crowded females. Whilst there was no difference in titre 1 day after fledging, by day 4 the juvenile hormone titre in isolated females was found to be approximately twice that in crowded females. There was no significant difference in the rates of juvenile hormone biosynthesis by corpora allata from isolated and crowded females on days 0 through to 6 after fledging. On day 8, however, the rates of juvenile hormone biosynthesis of corpora allata from isolated females were very high (mean value = 136 pmol/h/pair) and were significantly (P < 0.002) greater than those of corpora allata from crowded females. Day 8 was also the point in the first gonotrophic cycle at which the difference in the mean basal oöcyte length in isolated and crowded females was at a maximum. The mean volume of corpora allata from isolated females was greater than that of corpora allata from crowded females at all points at which measurements were taken during the first gonotrophic cycle.     

Ultrastructural changes induced by juvenile hormone analogue in oöcyte membranes of apterous4Drosophila melanogaster

Egg chambers from apterous⁴ (ap⁴), a female sterile mutant of Drosophila melanogaster, show none of the microvilli or pinocytotic vesicles which are a prominent feature of the membrane of the wild-type vitellogenic oöcyte. The studies reported here show that a juvenile hormone analogue (ZR515) stimulates formation of microvilli and pinocytotic vesicles in oöcytes of ap⁴ flies. Within 12 hr after topical application of ZR515 to homozygous ap⁴ females the oöcyte membranes exhibit extensive microvilli and pinocytotic activity. The follicle-cell surface adjoining the oöcyte also shows some changes. In vitro studies in which ap⁴ ovaries were incubated in Schneider's Drosophila tissue-culture medium in the presence of ZR515 with or without female haemolymph, or in the absence of ZR515, showed that the analogue acts alone directly on the ovary to cause formation of microvilli and pinocytotic vesicles on the oöcyte membrane.     

Food quality and quantity in relation to egg production in Locusta migratoria migratorioides

Oöcyte development is not initiated when female Locusta migratoria migratorioides are fed on poor, low-protein Agropyron repens. Survival on this diet is improved by the provision of water and small quantities of lush A. repens. When maturing female locusts (with developing oöcytes), previously fed on lush grass, are provided with the poor-quality grass the rate of egg pod production is reduced and terminal oöcyte resorption is increased. The final percentage resorption and the possibility of oviposition is determined by the total quality of food during vitellogenesis. In poor-grass fed locusts the levels of ingestion and utilization are low and suggest that quantitative factors are likely to be critical.Quantitative studies show that the provision of gradually decreasing amounts of A. repens produces corresponding decreases in the rate of egg pod production and increases in terminal oöcyte resorption. When the quantity of food ingested is reduced, the rate of oöcyte development is first reduced, followed at lower levels of feeding by an increase in terminal oöcyte resorption. Ingestion of less than 80 mg (dry weight) of grass/female per day is insufficient to initiate oöcyte development in locusts whose somatic growth period is normal. The significance of these results is discussed.     

Juvenile hormone regulation of structural changes and DNA synthesis in the follicular epithelium of Leucophaea maderae

Juvenile hormone (JH I) stimulates specific morphological and biochemical changes in the follicular epithelium surrounding the terminal oöcytes in Leucophaea maderae. These include extracellular and intracellular structural changes, increased rates of follicle cell DNA synthesis, and elevated follicle cell DNA concentrations.Using females decapitated 24 hr after ecdysis, we have shown that JH I injections stimulate the following structural changes in the follicular epithelium: the appearance of channels between adjacent follicle cells and of spaces between the follicular epithelium and the maturing oöcyte; an increase in follicle cell size; the development of an extensive rough endoplasmic reticulum system; and an enlarged nucleus within each follicle cell. No increase in the number of follicle cells surrounding the developing terminal follicles is found in 7-day JH I-treated females, although the terminal follicles are almost twice as long as those in untreated females.In addition, we have demonstrated that JH stimulates the following biochemical events in the ovary: a 3.5 fold increase in thymidine incorporation into follicle cell DNA, with no subsequent transfer of such DNA to the developing oöcyte, and a 1.4 fold increase in ovarian DNA in 7-day JH-treated females. These data indicated that JH stimulates follicle cell DNA synthesis. The absence of any corresponding division of follicle cells suggests that JH I may induce polyploidy in follicle cells.Extended exposure of decapitated females to JH I does not result in complete ovarian maturation. Although fat bodies in the treated insects continue to display an increasing rate of vitellogenin synthesis, DNA synthesis in the terminal follicles declines rapidly after day 9, and the terminal follicles ultimately degenerate.     

Water balance during vitellogenesis by the American cockroach: Hydration of the oöcytes

The volume and water content of the terminal and penultimate oöcytes rise sharply during the last 2 days of the 6 day vitellogenic cycle. The ingestion of ³H₂O during each day of the cycle has been determined and the subsequent flux of radioactivity into and out of the haemolymph has been measured.It appears that water consumed during the first 2 days of the cycle contribute the most water to the oötheca. The flux of haemolymph water and its possible immediate storage is discussed in regard to oöcyte hydration.     

Incorporation of 14C leucine into the fat body of the cockroach Periplaneta americana during oöcyte development

The fat body of Periplaneta americana incorporates labelled leucine into the protein during the period of oöcyte formation. The protein isolated from the ovary shows radioactivity only in the 20 hr treated animals; in the 1 hr treated animals the ¹⁴C activity is below background levels. The protein contents of the fat body and ovary were measured during the reproductive stages. The measurements indicate that the fat body may not store the protein which it synthesizes during reproduction.     

Histological and cytological studies on the ovary of Nauphoeta cinerea (Blattaria,Oxyhaloidea) during the first reproductive cycle

Histological studies were performed on the ovary of the ovoviviparous cockroach Nauphoeta cinerea during the first reproductive cycle by means of optical microscopy and histoautoradiography, and electron microscopy. The oöcyte chamber is composed of follicle cells, the oöcyte and a layer of symbiotic bacteria at the level of the microvillous border of the oöcyte. The first reproductive cycle begins with a short inactive period preceding the appearance of vitellogenin. During this period, the follicular epithelium achieves its development by a mitotic flare. From the 3rd day on, vitellogenin is synthesized by the fat body and large intercellular spaces appear between the follicular cells, in conjunction with a rapid growth of the oöcyte, which takes up selectively the vitellogenin by means of pinocytotic vesicles. These coalesce to give the yolk globules. Along with these phenomena, the proteosynthetic apparatus and its activity in the follicular cells increase slowly. After about the 12th day, the intercellular spaces disappear and the follicular epithelium which has now a very well developed proteosynthetic apparatus, begins to synthesize and lay down the egg membranes. After ovulation, the empty oöcyte chamber collapses and the follicular epithelium shows rapid degeneration processes (large cytolysosomes) that destroy the chamber completely during the gestation period. At the beginning of the 2nd cycle, there only remain a cell or two of the previous follicular epithelium and a very large annular piece of basement membrane.     

Water balance during vitellogenesis by the American cockroach:distribution of water during the six day cycle.

Haemolymph volume, total body water, and total tissue water fluctuate during the vitellogenic cycle in the American cockroach. The observed patterns indicate that the tissues store water for oöthecal production rather than the haemolymph. The carcass water (which consists of the integument and adhering tissue) cycles in direct contrast to the water ingestion pattern, suggesting that these tissues supply ovariole water incorporation during days 3 and 5. Both fat body and gut release large volumes of water during day 6 to the haemolymph for use in the formation of the oötheca.     

The ultrastructure and functions of the ovariole sheath and tunica propria in the flour moth

The ultrastructure of the ovariole sheath, tunica propria, and associated cells is described. The sheath contains circular and longitudinal muscles and completely covers each ovariole except at the clefts between the oöcyte chambers where pores occur. Muscular movements cause haemolymph components to be pumped through these pores to the oöcyte at a rate faster than can be explained by diffusion. The tunica propria consists of two intercellular layers of fine granules and is not considered to have elastic properties. It may act simply as a valve for incoming haemolymph proteins. Directly beneath the sheath pores are found macrophages containing bacteria in various states of digestion. These may protect the oöcytes from bacterial infections. The interfollicular cells found between the chambers also contain bacteria and are considered to be mycetocytes.     

Protein synthesis in the fat body of Leucophaea maderae during vitellogenesis

During the early stages of vitellogenesis in Leucophaea, vitellogenin accounted for most if not all of the secreted protein synthesized by the fat body. Synthesis began about 5 days after mating and continued until 24 hr or so before the formation of the oötheca. Ligation resulted in the degeneration of the oöcytes, the first evidence of which was seen within 24 hr. Ligation also curtailed the synthesis of vitellogenin at about the same time. Isolated abdomens treated with an analog of juvenile hormone commenced vitellogenesis within 12 to 24 hr and measureable oöcyte growth occurred after 5 days. Despite continued synthesis of vitellogenin, the oöcytes in isolated abdomens always degenerated.