Feeding and activation of corpora allata in the cockroach Blattella germanica (L.) (Dictyoptera,Blattellidae)

Adult females of the cockroach Blattella germanica have clearly-defined feeding cycles related to oogenesis. In the first cycle, food ingestion precedes volumetric increase in the corpora allata, which in turn precedes juvenile hormone production, whereas starved females do not develop the corpora allata and produce very low amounts of juvenile hormone. When the second gonadotropic cycle is provoked by removing the ootheca, the first event observed is an increase in food consumption, followed by an increase in corpora allata volume and activity. However, this increase in corpora allata volume (and activity) does not occur if females are starved, thus indicating that the ootheca in the genital chamber inhibits primarily feeding, and indirectly corpora allata development and activity. Corpora allata volume in isolated heads from starved and decapitated females was able to increase to levels similar to fed controls, but this increase was abolished by allatostatin treatment. We suggest that a factor produced in the thoracico-abdominal compartment, which reaches the head mainly through a nervous pathway, is released during starvation and inhibits corpora allata development. This factor may stimulate allatostatin production or release, or may well be allatostatin itself.     

Controle neuroendocrine du fonctionnement du corpus allatum chez Rhodnius prolixus

Cauterization of the dorsal portion of the protocerebrum effected immediately after cessation of feeding in adult females blocks vitellogenesis. The growth of the oöcytes can be re-established by the implantation of corpora allata or by the application of juvenile hormone analogue, and it is suggested that the protocerebrum has a corpus allatum stimulating influence. The corpus allatum deprived of all its cerebral nervous connexions by cutting the aorta just behind the corpora cardiaca induces abundant vitellogenesis. Females with denervated corpora allata or pars intercerebralis cauterized 24 hr after a meal show a phase of vitellogenesis more active than that in normal female adults. This suggests the existence of a cerebral inhibitory centre: its activity through a nervous or endocrine path is discussed.     

Humoral inhibition of the corpora allata in larvae of Diploptera punctata: Role of the brain and ecdysteroids

Juvenile hormone synthesis by adult female corpora allata was inhibited following implantation into final-larval-instar males; inhibition was prevented by decapitation of the larval hosts on day 11 (prior to the head critical period for moulting), but not by decapitation on day 13. Implantation of one larval protocerebrum restored inhibition of implanted corpora allata, demonstrating that the brain releases an inhibitory factor. Corpora allata implanted into larvae decapitated on day 11 were inhibited by injections of 20-hydroxyecdysone. Since treatment of corpora allata with 20-hydroxyecdysone in vitro did not inhibit juvenile hormone synthesis, ecdysteroids probably act indirectly on the corpora allata. Juvenile hormone synthesis and haemolymph ecdysteroid concentration were measured following implantation of corpora allata along with two larval brains into larval hosts. Brain implantation did not affect ecdysteroid concentration, but did inhibit juvenile hormone synthesis, even in animals with low haemolymph ecdysteroid concentration. Incubation with farnesoic acid stimulated juvenile hormone synthesis by corpora allata from males early in the final larval stadium, but not after day 8, showing that one of the final two reactions of juvenile hormone synthesis is rate-limiting in larval corpora allata at this stage. Adult female corpora allata which had been humorally inhibited by implantation into larvae were stimulated by farnesoic acid.     

Activity of the corpora allata in the adult female migratory locust

Juvenile hormone was detected in the haemolymph of adult female Locusta by a modified Galleria bioassay. The hormone was present in the haemolymph immediately after the final ecdysis, but could not be detected after this time until the end of the period of somatic growth just before the start of ovarian development. During the first gonotrophic cycle the levels of juvenile hormone in the haemolymph could be related to the growth of the proximal oöcytes. The volumes of the corpora allata could be related to haemolymph juvenile hormone levels during the first gonotrophic cycle. Ovariectomy had no effect on haemolymph juvenile hormone levels or on the volumes of the corpora allata.     

Effects of decapitation and ovariectomy on the regulation of juvenile hormone synthesis in the cockroach, Diploptera punctata

Corpora allata from Diploptera punctata females at adult ecdysis or at the end of the last-larval stadium, when implanted into decapitated females, underwent a cycle of juvenile hormone synthesis similar in timing and magnitude to that of glands implanted into control animals which had been starved and allatectomized. Starvation did not alter the cycle in rates of juvenile hormone synthesis of sham-operated animals.Decapitation of ovariectomized animals resulted in no cycle in rates of juvenile hormone synthesis by implanted adult corpora allata; however, implantation of an ovary along with the corpora allata into decapitated, ovariectomized hosts resulted in a cycle of juvenile hormone synthesis. In control animals, which retained their heads but were starved and allatectomized as well as ovariectomized, the implanted corpora allata showed a cycle of juvenile hormone synthesis only when implanted with an ovary. The maximal rates of juvenile hormone synthesis by the corpora allata in both experimental and control conditions were lower than normal, likely due to the repeated trauma of surgery. However, at no time from eclosion to the end of the first gonotrophic period was the brain necessary for the cyclic response of the corpora allata to the presence of the ovary.     

Regulation of juvenile hormone synthesis during pregnancy in the cockroach, Diploptera punctata

Regulation of juvenile hormone synthesis during pregnancy was investigated after determining the normal rates of synthesis in pregnancy and the second gonadotrophic cycle in Diploptera punctata by direct in vitro radiochemical assay.The low rate of juvenile hormone synthesis during early pregnancy is maintained by three factors: (1) the small ovary which is incapable of eliciting increased rates of juvenile hormone synthesis (2) an inhibitory centre in the brain acting via intact nerves to the corpora allata (similar to that in virgin females) and (3) an inhibitory centre in the brain acting via the haemolymph (elicited by embryos in the brood sac).The existence of two inhibitory centres in the brain is supported by the additive effect of denervating the corpora allata and removing embryos. Whereas these operations alone activated the corpora allata in 54 and 31% of the females, respectively, together they activated 87%, similar to the 91% activated by denervation alone in late pregnancy.The inhibition which remains after denervation of the corpora allata can be removed by decapitation and restored by implantation of the protocerebrum from a pregnant female but not from one developing oöcytes.The inhibition elicited by embryos in the brood sac can be overcome by introduction of a stimulatory ovary and/or substitution of active corpora allata.     

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.     

Effects of ovariectomy and mating on the activity of the corpora allata in adult female Blattella germanica (L.) (Dictyoptera: Blattellidae)

In adult female cockroaches, the ovary greatly affects the synthesis of Juvenile Hormone (JH) by the corpora allata, and in females of some cockroach species, removal of the ovaries results in a permanent depression of JH synthesis. We report that the corpora allata in ovariectomised, adult virgins of the German cockroach, Blattella germanica (L.), increase and then decrease in activity, as they do in intact females. Moreover, the distal tubules in the left colleterial glands of ovariectomised females accumulate abundant protein, the production of which is regulated by JH. In both ovariectomised and sham‐operated females, the activity of the corpora allata more than tripled between days 1 and 4 of adulthood, during which the oöcytes of sham‐operated females grew considerably in length. The corpora allata of sham‐operated females produced even more JH on day 7, but very little on day 10, by which time all females had oviposited. The glands of ovariectomised females, by constrast, produced a similar amount of JH on day 7 as on day 4, but much less on day 10. Beginning on day 13, the activity of the corpora allata increased again in ovariectomised females, an increase that did not occur until day 22 in sham‐operated females. Mating of ovariectomised females on day 6 resulted in a significant increase in the activity of the corpora allata by day 10. We conclude that both the ovary and mating stimulate the synthesis of JH early in the reproductive cycle, but that neither is needed for the occurrence of a complete cycle of JH synthesis.     

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.     

Control of reproduction in female cockroaches with special reference to Nauphoeta cinerea—I. First pre-oviposition period

Prior to the first oviposition, a receptivity centre, perhaps neurosecretory cells in the brain, controls the female's acceptance of courting males. In L. maderae this centre is affected by starvation. A brief exposure to food can induce mating but is inadequate for oöcyte development. Before the first ovulation starvation has no effect on receptivity in N. cinerea.

In N. cinerea mechanical stimulation caused by the firm insertion of the spermatophore in the bursa copulatrix releases stimuli via the nerve cord to the brain which render the female unreceptive and, at the same time, increases the activity of the corpora allata resulting in rapid development of the oöcytes.

The mechanical presence of the oötheca in the uterus also has two principal effects. Like spermatophore insertion, it inhibits mating. But its effect on the corpora allata is inhibitory, rather than stimulatory, and, consequently, the oöcytes remain underveloped for almost the entire gestation period. The effectiveness of inhibitory stimulation from the stretched uterus depends upon the period in the reproductive cycle in which it occurs-i.e. on the physiological state of the female. In N. cinerea uterine stretching inhibits mating and oöcyte development after oviposition or during gestation but is not effective when exerted during the first pre-oviposition period. In P. surinamensis, uterine stretching does not inhibit the corpora allata prior to the first ovulation but does prevent oöcyte development during gestation.

In fed L. maderae and N. cinerea there appears to be a synergistic action of nutrition and mating in controlling the rate of oöcyte development. Mating (mechanical) and feeding (chemical) stimuli are both usually required for activating the corpora allata to their fullest extent so that the oöcytes mature at their maximum rate. There is some indication that mating stimuli in N. cinerea and L. maderae are effective in further stimulating the corpora allata only if the corpora allata have reached a certain level of activity, if activating stimuli have begun to occur in the brain, or if the mating stimulus occurs in combination with nutritional factors. Thus, the corpora allata in starved virgin females of N. cinerea become sufficiently active so that some yolk is deposited in the oöcytes but these oöcytes do not mature; mating is effective in further stimulating the endocrine glands in these starved females and oviposition occurs in about the normal period. In starved virgins of L. maderae the corpora allata are virtually inactive and yolk is not deposited in the oöcytes; mating has no effect on oöcyte development in starved females. D. punctata differs from both the above species in that the corpora allata in the virgin female usually remain inactive whether she feeds or starves. Mating stimuli alone can activate the corpora allata, in fed or starved females, and consequently the oöcytes mature.     

Activity of disconnected corpora allata in Locusta migratoria: Juvenile hormone biosynthesis in vitro and physiological effects in vivo

Severance of nervi corporis allati I (NCA I) in day-1 adult female Locusta migratoria resulted in a significant decrease and a loss of the characteristic pattern of juvenile hormone biosynthesis by the corpora allata as determined by radiochemical assay. This decrease in the rate of juvenile hormone biosynthesis was not reflected in basal oöcyte growth. The lengths of the oöcytes were the same in NCA-transectioned and in the sham-operated females. The effect of severance of both NCA I and NCA II on juvenile hormone biosynthesis and ovarian maturation was similar to the effect of NCA I severance only.Rate of juvenile hormone biosynthesis by corpora allata of fourth-instar larvae exhibited a maximum of activity in the middle of the stadium. The severance of NCA I early in the stadium resulted in a very low rate of juvenile hormone biosynthesis and a disappearance of this peak. In NCA I-transectioned larvae, the duration of the stadium was significantly increased although larvae moulted into normal fifth instar.     

Improved assay conditions for measurement of corpus allatum activity in vitro in the adult Colorado potato beetle, Leptinotarsa decemlineata

Assay conditions for the short-term, radiochemical, in vitro determination of the spontaneous rate of juvenile biosynthesis by isolated corpora allata from Leptinotarsa decemlineata have been further improved, permitting the measurement of juvenile hormone biosynthesis by individual pairs of corpora allata. The final incubation product has been identified as juvenile hormone III with the aid of High-performance liquid chromatography (HPLC) and juvenile hormone esterase degradation. Using the new assay conditions, the activities of adult corpora allata during maturation were found to be significantly higher in reproductive, long-day animals than in pre-diapause, short-day beetles. During diapause no activity was detectable, whereas corpora allata from post-diapause beetles were reactivated totally after 5 days. Simultaneous determination of the in vitro rates of juvenile hormone biosynthesis and corpus allatum volumes revealed no clear correlation although the results suggest that the volume may be indicative of the maximal capacity for juvenile hormone production. Corpora allata from a population of beetles did not display any synchronous diurnal rhythmicity.     

Activity of the corpora allata of adult female Leucophaea maderae: effects of mating and feeding

Juvenile hormone III biosynthesis by corpora allata of adult female Leucophaea maderae was measured by an in vitro radiochemical assay. In fed females, JH III synthesis increases more than 20-fold after mating to a peak of 55 pmol/pair/h on day 9 and then rapidly declines. This increase in JH III synthesis concomitant with rapid oocyte growth in mated females is not observed in virgin females. The corpora allata from starved, virgin females appear to be inactive. The addition of 150 microM 2E,6E-farnesol (a) JH III precursor) to the incubation medium stimulates the corpora allata from starved, virgin females less than the corpora allata from starved, mated females. Both feeding and mating are necessary for the expression of a normal cycle of JH III synthesis in this cockroach.     

Precocenes as pro-allatocidins in adult female Diploptera punctata: A functional and ultrastructural study

Adult mated females of the viviparous cockroach Diploptera punctata are moderately sensitive to precocenes. Oöcyte growth is inhibited and oviposition is delayed in insects topically treated with precocene II or precocene III. C₁₆ juvenile hormone release by corpora allata of precocene-treated insects is markedly inhibited when compared to corpora allata of acetone-treated controls. Electron microscopy of the corpora allata reveals that precocene treatment results in a disorganisation of the intracellular organelles. Topically applied precocene II reaches a high concentration in the haemolymph (0.5 mM 2 hr after topical application of 250 μg). C₁₆ juvenile hormone release by isolated corpora allata is inhibited by precocenes in vitro; half-maximal inhibition over a 3 hr period is obtained at 0.4 mM precocene II. In vitro inhibition of corpora allata by precocene II concentrations higher than 1 mM rapidly destroys the glands as evidenced by electron microscopy (total disintegration of cellular organelles) and by the virtual cessation of C₁₆ juvenile hormone synthesis by the corpora allata. Inhibition of C₁₆ juvenile hormone release by precocene is time-dependent and is not reversible over the short-term incubation in vitro. This inhibition does not appear to be related to the spontaneous activity of the glands in vitro, and it can be reduced by two epoxidase inhibitors. Precocenes are pro-allatocidins in this species: they are bioactivated within the corpora allata to cytotoxic epoxides.     

Inhibition of the corpora allata of last-instar male larvae of the cockroach, Diploptera punctata

Normal rates of juvenile hormone synthesis, cell number and volume of corpora allata were measured in penultimate and final-instar male larvae of Diploptera punctata. The rate of juvenile hormone synthesis per corpus allatum cell was highest on the 4th day of the penultimate stadium, declined slowly for the remainder of that stadium, and rapidly after the first day of the final stadium.Regulation of the corpora allata in final-instar males was studied by experimental manipulation of the corpora allata followed by in vitro radiochemical assay of juvenile hormone synthesis. Nervous inhibition of the corpora allata during the final stadium is suggested by the observation that rates of juvenile hormone synthesis increased following denervation of the corpora allata at the start of the stadium; this operation induced a supernumerary larval instar. Juvenile hormone synthesis by corpora allata denervated at progressively later ages in the final stadium and assayed after 4 days decreased with age at operation. This suggests an increasingly unfavourable humoral environment in the final stadium, which was confirmed by the low rate of juvenile hormone synthesis of adult female corpora allata implanted into final-instar larvae. Thus, inhibitory factors or lack of stimulatory factors in the haemolymph may act with neural inhibition to suppress juvenile hormone synthesis in final-instar males.     

Control of C-16 juvenile hormone biosynthesis in active corpora allata of female African locusts

Summary

Corpora allata from 8-day-old female Locusta migratoria, during the phase of yolk deposition, exhibit high rates of C-16 juvenile hormone (JH) biosynthesis. The effect of different potential factors which may be involved in the regulation of corpora allata activity is reported. The biosynthetic activity of corpora allata was determined by radiochemical assay.

In maturing females, no changes in corpora allata activity are detected during one daily cycle. Starvation reduces JH biosynthesis only 3 days after the beginning of the food deprivation. Suppression of the median neurosecretory material by electrocoagulation of the internal cardiaca tract (TCC-I) does not disturb JH biosynthesis whereas the transection of the allata I nerve fibres (NCA-I) or the electrocoagulation of the lateral neurosecretory pericarya results in a rapid decline of JH biosynthesis. These data indicate that the median and lateral allatotropins are different, and that only the lateral neurosecretory material exerts an allatostimulating action on corpora allata at the time of vitellogenesis. The corpora allata response to the median allatotropin changes during oocyte growth. C-16 JH and/or 20-hydroxyecdysone treatments in vitro (addition in the culture medium) and in vivo (injection in female) do not influence JH production in our experimental conditions.     

Responsiveness of the adult cricket (Gryllus bimaculatus andAcheta domesticus) retrocerebral complex to allatostatin-1 from a cockroach,Diploptera punctata

Brain-retrocerebral complexes of female crickets,Gryllus bimaculatus andAcheta domesticus, treated with antibody to allatostatin-1 from a cockroach,Diploptera punctata, show extensive immunoreactivity. The results suggest that allatostatins or allatostatin-like molecules are produced in neurosecretory cells of the brain and are delivered to the corpora allata through nervous connections and/or via haemolymph. Radiochemical measurements of juvenile hormone III biosynthesis by isolated corpora cardiaca-corpora allata complexes from adultG. bimaculatus have been used to demonstrate an in vitro sensitivity of these glands to allatostatin-1 fromD. punctata. Allatostatin-1 is a relatively potent inhibitor of juvenile hormone III biosynthesis in corpora allata of both young adult females and males. In glands taken from 3-day virgin females, 50% inhibition of hormone biosynthesis is reached at ca. 3 nmol·l^-1 allatostatin-1. The inhibitory action of allatostatin-1 is rapid, dose-dependent and reversible. Addition of 200 mol·l^-1 farnesol to the incubation medium prevents inhibition of juvenile hormone III biosynthesis by allatostatin-1. Juvenile hormone III biosynthesis by isolated corpora allata of 3-day female house crickets,A. domesticus, is also susceptible to inhibition by 1 mol·l^-1 allatostatin-1.Abbreviations ASB2 Diploptera punctata allatostatin-5 - CA corpora allata - CC corpora cardiaca - Dip A-1 Diploptera punctata allatostatin-1 - HEPES 4-(2-hydroxyethyl)piperazine-1-ethanesulphonic acid - JH juvenile hormone(s) - Mas-AS Manduca sexta allatostatin - MF methyl farnesoate - NCA nervus corporis allati - NCC nervus corporis cardiaci - SEM standard error of mean - TRIS Tris(hydroxymethyl)aminomethane     

The mode of regulation of the corpus allatum activity during starvation in adult females of the Colorado potato beetle, Leptinotarsa decemlineata (Say)

When two-day-old female Leptinotarsa decemlineata were starved, their corpus allatum activity, as measured by the radiochemical in vitro assay, was significantly reduced after 24 hr. Such a reduction was not observed when the nerve connections between the central nervous system and the retrocerebral complex were severed and the beetles starved up to 5 days. In some experiments, the rate of juvenile hormone biosynthesis in vitro, was substantiated by measurement of the juvenile hormone titre in the haemolymph by physico-chemical methods. It is concluded that intact nervous connections between the central nervous system and the corpora allata are essential for restraining the juvenile hormone biosynthesis during the initial stages of starvation.Corpora allata from 1-day starved insects were considerably stimulated in vitro by farnesenic acid indicating that juvenile hormone synthesis is controlled enzymatically at a stage prior to the final two steps in the pathway. However, on day 5 of starvation, rate-limitation may occur after formation of this intermediate, since farnesenic acid stimulation was much less at this time.Corpora allata of adult females newly emerged from the soil were activated within 4 hr regardless of feeding.     

Distribution of allatostatin in the adult cockroach,Diploptera punctata and effects on corpora allata in vitro

Direct radiochemical measurements of juvenile hormone synthesis showed that corpora allata from adult female Diploptera punctata can be inhibited in vitro by neuropeptides extracted from several ganglia of the central nervous system of females at many stages of the reproductive cycle. Extracts of protocerebra, corpora cardiaca, suboesophageal, thoracic and ventral ganglia all elicited dose-depedent reductions in juvenile hormone synthesis. On a ‘per organ’ basis, the protocerebrum contains the most extractable material. Inhibitory activity of extracts of suboesophageal, thoracic and 6th abdominal ganglia, like that of protocerebra (Rankin et al., 1986) was trypsin sensitive.Glands of high activity were less sensitive to protocerebral extract than those of low activity. The inhibitory effect on glands of low activity was maximal within 1 h, persisted in the presence of protocerebral extract for at least 46 h, and was abolished within 1 h after corpora allata were placed in normal medium. The inhibitory effect of protocerebral extract was not altered by the addition of magnesium to the medium. The extract had a specific effect on synthetic step(s) prior to methylation and epoxidation as demonstrated by enhanced juvenile hormone synthesis in the presence of inhibitory factor and the juvenile hormone precursor, farnesoic acid.