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.     

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.     

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.     

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.     

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.     

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.     

The effects of starvation and subsequent feeding on juvenile hormone synthesis and oöcyte growth in Schistocerca americana gregaria

The effect of starvation on the synthesis of C₁₆ juvenile hormone (JH) and the growth of terminal oöcytes was assessed in Schistocerca americana gregaria at two times during adult life: before activation of the corpora allata and during the first gonotrophic cycle. In both groups, starvation resulted in a decline in JH synthesis within 2–3 days and rates of synthesis remained low throughout the experimental period. The growth rate of oöcytes which were not vitellogenic at the time of starvation was depressed whereas the percentage of resorption of vitellogenic oöcytes increased dramatically with starvation. Although the percentage of resorption increased in animals with vitellogenic oöcytes, some mature oöcytes were produced, particularly in animals in which the oöcytes were greater than 5 mm in length at the time of starvation. This suggests that oöcyte maturation can be divided into two distinct phases—an early phase of vitellogenesis associated with high rates of JH synthesis and a late phase, in oöcytes greater than 5 mm, associated with much lower rates of JH synthesis.Stimulation of JH synthesis by farnesenic acid in 5-day starved animals resulted in high rates of JH synthesis, indicating that starvation did not appreciably alter the enzymic activities of the final two stages in JH synthesis. Thus rate limitation did not occur at these stages.Feeding of 5-day starved animals resulted in a transient increase in the rate of JH synthesis. However, rates of JH synthesis and oöcyte growth remained subnormal throughout the observation period, suggesting that the effects of starvation cannot be entirely reversed by feeding. Thus starvation may decrease the reproductive potential of the females.     

Oösorption in the Coleopteran Sitophilus granorius (L.)

King, P. E., Al-Khalifa, M. S. 1980. Oösorption in the coleopteran Sitophilus granarius (L.). (Department of Zoology, University College, Swansea, U.K.) — Acta zool. (Stockh.) 61(2): 79–86. The process of oösorption in the terminal oöcytes of starved specimens of Sitophilus granarius is described Starvation affects the nucleus, mitochondria and endoplasmic reticulum in both the follicle cells and the oöcyte. Glycogen disappears from the oöcyte at an early stage and islands are formed in the oö:cyte by infoldings of the combined follicle, oöcyte cell membranes.     

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.     

Juvenile hormone-controlled vitellogenin synthesis in Locusta migratoria fat body. Hormonal induction in vivo.

Biosynthetic processes related to the production of vitellogenin (yolk precursor protein) have been examined in the fat body of adult female Locusta migratoria. Vitellogenin-producing capacity was assayed by incubation of fat body with [³H]leucine, followed by precipitation from the medium with specific antiserum. In normal development, vitellogenin synthesis began at about Day 7 after emergence and became maximal at about Day 13, when this protein accounted for 60% of the total fat body protein output. The production of other proteins increased to a lesser extent, becoming maximal at about Day 6. The incorporation of uridine into fat body RNA rose to a maximum at Day 8, which coincided with a marked increase in tissue RNA content. The DNA content in adult female fat body approximately doubled between Days 3 and 8. Vitellogenin synthesis, and the increases in RNA and DNA, were prevented by removal of the corpora allata (the source of juvenile hormone). In allatectomized locusts, vitellogenin synthesis was induced by JH or an analog, ZR-515. Applied topically in acetone, these gave steep dose-response curves, half-maximal at 75 and 150 μg, respectively. After a single treatment with ZR-515, fat body vitellogenin production rose slowly during 48 hr, then steeply to a maximum at 72 hr, but after decay of this effect during 10 days, a second application of ZR-515 induced renewed synthesis with little initial lag. Hormone treatment produced a smaller increase in the output of other proteins, and an increase in incorporation into RNA which preceded the major rise in vitellogenin synthesis. Male fat body produced little or no vitellogenin. These results are consistent with action of JH at the gene level.     

Dynamics of vitellogenin uptake in Aedes aegypti as demonstrated by trypan blue

Trypan blue has been shown to be a reliable indicator of the micropinocytotic uptake of vitellogenin by developing oöcytes. Trypan blue was injected into the mosquito Aedes aegypti to determine at what times after the blood meal vitellogenin was taken up. Histological sections examined by light microscopy showed that trypan blue began to be sequestered from 2 to 5 hr after the blood meal. Any association between dye and ovariole ended from 39 to 42 hr after the blood meal, in which period no dye was incorporated into spheres of yolk protein. Of the times investigated in this experiment, the greatest amount of dye was seen in the oöcyte at 24 hr after the blood meal. The onset and conclusion of trypan blue uptake correspond with the related events in the synthesis of vitellogenin by the fat body. The presence of trypan blue in occasional interfollicular spaces suggests that the route of entry of vitellogenin in Aedes aegypti is indeed an interfollicular one.     

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.     

Study of oöcyte growth within the ovariole in a stick-insect, Clitumnus extradentatus

Growth of the sub-terminal follicle is hindered by the terminal oöcyte itself during maturation until its ovulation. An inhibition identical to that exercised by the sub-terminal oöcyte exists at the level of the third follicle. The inhibitory substance passes from one oöcyte to the next through the interfollicular tissue. Sub-terminal oöcytes have no particular action on the terminal follicles.Vitellogenesis requires stimulation from the tissues proximal to the ovariole. Both the oviduct and the interfollicular tissue could play a role in this stimulation. Chorionation is seen to be an autonomous mechanism.     

Extra-ovariolar egg resorption in a dung beetle, Euoniticellus intermedius

Most oösorption in the dung beetle Euoniticellus intermedius takes place in the haemocoele, oöcytes being extruded from the ovariole before the deposition of the chorion. Oösorption can be induced in the laboratory both by prevention of oviposition and by starvation. For up to two days after the onset of starvation the terminal oöcyte appears normal. After three days the prechorionic oöcyte may move through the ovariole wall; the yolk spheres are then disrupted. On the fourth day little yolk remains in the extruded oöcyte, and most of the extruded cells are degenerating. We suggest that extra-ovariolar egg resorption may be a mechanism for ensuring that the single ovariole is not occluded when conditions are suitable for oviposition.     

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.     

Corpus allatum activity during overlapping cycles of oöcyte growth in adult female Melanoplus sanguinipes

Cycles of oögenesis in Melanoplus sanguinipes overlap to the extent that there are always 2 and occasionally 3 sets of vitellogenic oöcytes in the ovarioles at any one time. Three phases of vitellogenic oöcyte development can be distinguished: (1) An initial 24-hour phase of slow development (1.0–1.2 mm, 0.05–0.10 mm³). (2) A phase of rapid oöcyte growth (1.2–3.5 mm, 0.1–1.3 mm³). The duration of this phase is 2 days in the first cycle and 3 days in subsequent cycles. (3) A final phase of rapid oöcyte growth and maturation (3.5–4.5 mm, 1.3–2.8 mm³). Including the time taken for oviposition the duration of this latter phase is 3 days. Phases 1, 2 and 3 of cycles n + 2, n + 1 and n, respectively, overlap entirely. Activity of the corpora allata was measured using a radio-biosynthetic technique. A period of increased corpus allatum activity coincides with the initial part of phase 2 in each cycle. Each set of oöcytes is, thus, subject to 2 and occasionally 3 peaks of corpus allatum activity during development. Using these data a model of the control of oöcyte development has been devised     

Determinants of oöcyte degeneration in Drosophila melanogaster

During normal oögenesis in many insects some of the oöcytes fail to mature; instead they degenerate and are resorbed. In this work oöctte degeneration was investigated in Drosophila melanogaster females and found to be limited to early vitellogenic stages (stages 8–10). Even when retained for up to 18 days by females, mature (stage 14) oöcytes showed unaltered protein patterns after separation by SDS polyacrylamide electrophoresis, indicating that protein breakdown, which is characteristic of degeneration, does not occur in chorionated oöcytes.A number of environmental parameters were shown to influence the percentage of degenerating oöcytes in females. Strong responses as reflected by increased stage-8 and 9 oöcyte degeneration were found in females subjected to suboptimal (but not starvation) medium, virgin females, females mechanically unable to oviposit, and females unable to locate suitable oviposition sites. Little or no response was seen in females subjected to crowding, however, since all of these environmental parameters except adult crowding have been shown to decrease fecundity, and therefore the rate of oöcyte production, it is suggested that oöcyte degeneration is a strategy for decreasing the rate of oöcyte production in Drosophila.     

The role of factors from the head in the regulation of egg development in the mosquito Aedes aegypti

The relationships between the release of factors from the head after blood-feeding, subsequent levels of ecdysteroids and vitellin, and the ultimate maturation of eggs in Aedes aegypti were investigated. Females were decapitated at various times after a blood meal, at 20 or 48 h after feeding the animals were dissected and divided into two groups, those with arrested oöcytes (yolk length < 100 μm) and those with maturing oöcytes (yolk length > 100 μm). These yolk lengths correspond with the levels of oöcyte growth believed to accompany the proposed initiation and promotion phases of egg development. Animals dissected at 20 h were assayed for ecdysteroid by radioimmunoassay; those dissected at 48 h were assayed for vitellin by rocket immunoelectrophoresis.Non-blood-fed unoperated females contained 8% as much ecdysteroid as blood-fed controls and no measurable vitellin. Females with arrested oöcytes (< 100 μm) were obtained only if decapitations were performed before 8 h; these females had about 20% of the ecdysteroids and 8% of the vitellogenin normally found in blood-fed animals. Females decapitated between 2 and 8 h with maturing oöcytes contained 50–60% as much ecdysteroid and vitellin as blood-fed unoperated controls. Normal ecdysteroid and vitellin levels were reached only when decapitations were delayed for 12 and 24 h, respectively. The number of developing oöcytes was also decreased by early decapitation and was closely correlated with vitellin levels.We conclude that the egg development neurosecretory hormone is released twice, once before 8 h and once after 8 h, to control ecdysteroid levels. We also suggest the presence of other factors from the head that control vitellin levels, the number of developing oöcytes, and the early growth of the oöcyte (initiation).     

Initiation and regulation of oöcyte growth by the brain and corpora allata of the cockroach,Nauphoeta cinerea

Oöcytes of Nauphoeta cinerea begin to grow about 2 days after adult ecdysis. This growth can be totally prevented by surgical ablation of the corpora allata (CA) before day 2 and restored in a dose-related manner by injection of juvenile hormone (JH). Ovarian maturation can also be prevented in some animals by brain extirpation within a day of adult ecdysis but proceeds normally in others, indicating that the brain acts to promote oöcyte lengthening very soon after emergence. Wounding (mouthparts removal) blocks ovarian maturation in a similar percentage of animals, indicating that the ‘wounding effect’ is mediated by the brain. However, those wounded animals which do develop oöcytes do not reach normal values by autopsy on day 7, suggesting a temporary inhibition of the CA. Because the effects of head ligation, which effectively removes the brain as well as the CA, can be reversed by only a little more JH than the effects of allatectomy, we conclude that the primary rôle of the brain is to control the CA. We suggest that both stimulatory neurohumoral material and inhibitory nervous transmission may be utilized for this control.     

The effect of starvation on haemolymph metabolites,fat body and ovarian development in Oxya japonica (Acrididae: Orthoptera)

Haemolymph volume does not change significantly during 96 hr of starvation. Haemolymph and fat body metabolites are depleted significantly in insects denied food for 96 hr. The percentage of oöcyte resorption is increased considerably by starvation. Differences in the utilization of lipid and protein under conditions of starvation between adult Oxya and adult locusts may be attributed to the migratory habit of the latter.