Induction of supernumerary moults in Galleria mellonella: Evidence for an allatotropic function of the brain

Implantation of brains from chilled Galleria larvae into first-day last-instar host larvae results in a higher incidence of extra-larval moults than in control animals receiving unchilled brains. The ability of the implanted brains to induce an extra-larval moult depends on the number of implanted brains, age of larvae at chilling and the time interval between cooling and removal of the brain. The implanted brains must be present in the host larva for at least 2 days in order to induce an extra-larval moult. The brain taken from a chilled larva has no effect on the activity of the host brain. Application of fluoromevalonate (FMev) to insects which received the brains taken from chilled larvae suppresses the extra-larval moult responses, while implantation of brains from chilled larvae treated with FMev has no effect on the incidence of extra-larval moults produced by the recipients. The possibility that the chilled brain of Galleria larvae produces a hormonal factor that regulates corpora allata activity (allatotropin) is discussed.     

Dietary cholesterol utilization by the housefly,Musca domestica

The amount of cholesterol and the distribution of its metabolites were studied in various larval tissues of the housefly (Musca domestica), reared on a high cholesterol diet containing the radioactive cholesterol. The sterol content was also examined in adults derived from larvae reared on increasing dietary cholesterol concentration in separate batches. The results suggest that when the dietary sterol concentration was raised from 0.002 to 0.02% wet weight (an optimal concentration required for a maximal growth and development of insect), the sterol content of six-day old larvae was increased approx. 4-fold. However, a further 10-fold increase of dietary cholesterol (to 0.22% of wet weight) was associated with only a 1.5-fold increase in larval sterol content, and no increase in the sterol content of adult insects derived from such larvae was observed. This increase of sterol content of whole larvae was found to be confined to the larval cuticle and composite gut fractions and may be attributed to unabsorbed cholesterol in the gut, and to a solubilizing effect of the cuticle. These findings suggest that when the cholesterol requirement for the maximal growth of the insect has been reached, larvae are able to regulate the intake of ingested cholesterol, and no more is taken up through the gut even when a high gut concentration of cholesterol is present.The adults contained a higher percentage of esterified sterols than the larvae, approx. 25% of the sterol in females and 14% of sterol in males were esterified.     

The occurrence of the second moult of Ascaris lumbricoides and Ascaris suum

Maung M. 1978. The occurrence of the second moult of Ascaris lumbricoides and Ascaris suum. International Journal for Parasitology 8: 371–378. Eggs of Ascaris lumbricoides and A. suum were cultured at 28°C and observed daily. Larvae were released by pressure, by artificial hatching with CO₂, and by natural hatching after infection of laboratory mice. The early stages of development in the egg were observed to comprise two moults, one occurring immediately after the other. Both moults were initiated within the egg, but the time of completion of the second moult varied considerably, and in some instances was not completed until the larvae reached the liver of experimentally infected animals.     

Effects of sterols,rat hematin and coproporphyrin on the free-living stages of Nematospiroides dubius and Nippostrongylus brasiliensis

Nematospiroides dubius, unlike the closely related nematode Nippostrongylus brasiliensis, lacks a sterol requirement for the completion of its development to the L₃ stage in an aqueous suspension of formalin-killed Escherichia coli. These larvae were justascapable of completing their development to adults in mice as those grown on charcoal-feces cultures. In addition, sterols had a toxic effect on the larvae of N. dubius which was removed by substituting a Krebs-Ringer solution for distilled water.In order to interpret the absence of a sterol requirement for the development of N. dubius larvae, an analysis of the egg lipids for both species was made. N. brasiliensis had about twice the sterol concentration of N. dubius eggs. A comparison of the development for both species showed, however, that N. brasiliensis grows more than twice as much as N. dubius to reach the L₃ larval stage. Therefore, the amount of endogenous sterol is insufficient for N. brasiliensis to develop from the egg to the L₃ stage.N. dubius and N. brasiliensis also differ in their porphyrin requirements. Unlike N. brasiliensis, coproporphyrin did not increase the size of N. dubius larvae so that they were comparable to those grown on charcoal-feces cultures. Coproporphyrin did result in larvae that were more robust in appearance than those grown without a supplement.     

Daily changes in the sensitivity of wax-moth larvae, Galleria mellonella, to cooling stress

ABSTRACT. Sensitivity to cooling stress in the last instar larvae of Galleria mellonella was measured as (a) the number of extra larval moults, (b) the number of larvae retaining the ability to secrete silk, and (c) the number showing arrested development. With respect to (a) and (b) there were considerable differences in sensitivity across the day. A relationship was observed between the number of additional larval moults induced by chilling and the ability of prepupal larvae to spin silk: the periods during the 24 h when the most larvae passed through additional larval moults were periods characterized by the smallest number of larvae capable of spinning, and vice versa. These daily changes were apparently partly independent of developmental age. Daily variations in sensitivity also occurred when larvae of the same age were cooled at different times of day. It is suggested that these rhythms in cold-sensitivity are related to a cold-sensitive rhythm in juvenile hormone secretion, or hormone sensitivity in the tissues.     

The effects of the structure of sterols on the development of Heliothis zea

Heliothis zea was reared on artificial diets which lacked supplementation with plant materials but were supplemented with different sterols in order to determine how certain structural features of a sterol molecule affect the development of this insect. We found that sitosterol and cholesterol supported a more rapid rate of growth than did campesterol. Larvae did not moult when they ingested 5-pregnen-3β-ol. Larvae utilized spinasterol more efficiently than lathosterol. Such a pronounced effect was not observed in the Δ⁵-series. The substitution of a Δ⁷-bond (spinasterol, dihydrospinasterol, lathosterol) for the Δ⁵-bond (stigmasterol, sitosterol, cholesterol) in the 24-ethyl- and desalkylsterols reduced the rate of growth of the larvae. Although larvae developed normally on cholesterol, the addition of a Δ⁷-bond to give the Δ^5,7-diene system apparently altered the functionality of the molecule because 7-dehydrocholesterol did not support larval development. The growth of larvae was also inhibited, although not prevented, when they consumed diets which contained ergosterol. In contrast, the larvae completed their development more rapidly on brassicasterol which lacked the Δ⁷-bond. Cholestanol supported the complete development of the insect. H. zea is unusual among investigated insects because it develops both on cholestanol and lathosterol but does not utilize ergosterol efficiently and fails to grow on 7-dehydrocholesterol.     

Chilled Galleria mellonella larvae: mechanism of supernumerary moulting

ABSTRACT. Supernumerary larval instars were produced when Galleria mellonella L. (Lepidoptera) larvae were chilled at 0°C. Although sensitivity to cooling stress of the last instar and younger larvae were generally the same, only penultimate and the last instar larvae showed a significant correlation between their age and the number of additional larval moults. Chilling stress induced a rapid and persistent increase in the JH titre of the last instar larvae. Severing the ventral nerve cord resulted in a predictable loss of the ability to produce supernumerary moults in chilled last instar larvae. The data suggest that sensory input stimulates allatotropic hormone secretion by the brain of chilled larvae. The possible mechanism controlling supernumerary moulting is discussed.     

Survival strategies of a sterol auxotroph

The high sterol concentration in eukaryotic cell membranes is thought to influence membrane properties such as permeability, fluidity and microdomain formation. Drosophila cannot synthesize sterols, but do require them for development. Does this simply reflect a requirement for sterols in steroid hormone biosynthesis, or is bulk membrane sterol also essential in Drosophila? If the latter is true, how do they survive fluctuations in sterol availability and maintain membrane homeostasis? Here, we show that Drosophila require both bulk membrane sterol and steroid hormones in order to complete adult development. When sterol availability is restricted, Drosophila larvae modulate their growth to maintain membrane sterol levels within tight limits. When dietary sterol drops below a minimal threshold, larvae arrest growth and development in a reversible manner. Strikingly, membrane sterol levels in arrested larvae are dramatically reduced (dropping sixfold on average) in most tissues except the nervous system. Thus, sterols are dispensable for maintaining the basic membrane biophysical properties required for cell viability; these functions can be performed by non-sterol lipids when sterols are unavailable. However, bulk membrane sterol is likely to have essential functions in specific tissues during development. In tissues in which sterol levels drop, the overall level of sphingolipids increases and the proportion of different sphingolipid variants is altered. These changes allow survival, but not growth, when membrane sterol levels are low. This relationship between sterols and sphingolipids could be an ancient and conserved principle of membrane homeostasis.     

Lipid requirements of the Angoumois grain moth, Sitotroga cerealella

The Angoumois grain moth, Sitotroga cerealella, grew well in an artificial pellet containing about 11 per cent whole wheat germ as its only crude adjuvant. A study of the insect's lipid requirements showed that while dietary wheat germ oil slightly enhanced the larval growth rate it was not required to complete metamorphosis. Normal development without dietary methyl linoleate further confirmed the insect's capacity to mature into an aerial adult without ingesting polyunsaturated fatty acids. A study of the insect's sterol requirements revealed that while a dietary sterol was essential, all free sterols (6) and sterol esters (3) tested permitted equivalent growth and development. Results also showed that larvae did not utilize the sterol relatives, squalene, lanosterol, and cholestane. It was concluded that Sitotroga had a non-specific sterol requirement. Factors in the lipid-free portion of wheat germ, which probably include vitamins, minerals, and amino acids, proved to be essential for normal growth and development, but their exact nature has yet to be determined. The significance of the results in relation to other similar investigations on grain- and plant-feeding insects is discussed.     

Brachymeria lasus and Pachycrepoideus vindemiae: Sterol requirements during larval growth of two hymenopterous insect parasites reared in vitro on chemically defined media

Brachymeria lasus and Pachycrepoideus vindemiae failed to develop in vitro on sterol-free artificial media, and dietary acetate and squalene failed to maintain and/or support growth. The sterols, cholesterol, cholestanol, β-sitosterol, 7-dehydrocholesterol, and cholesterol linoleate were all utilized and maintained larvae of both species. Larval survival and development rate were greatest with cholesterol followed by cholestanol, β-sitosterol and 7-dehydrocholesterol. Although cholesterol linoleate maintained larvae little growth occurred and mortality was high. Cholestanol followed by β-sitosterol and 7-dehydrocholesterol displayed partial cholesterol sparing activity. Cholesterol linoleate had little effect on larval growth when fed with suboptimal levels of cholesterol or cholestanol. Both species contained 5 to 10% of the total body lipids as free sterol with traces of sterol ester. The major free sterol appears to be cholesterol.     

Effect of dietary cholesterol deficiency upon its distribution in the larvae of the housefly, Musca domestica

The free sterol, total phospholipids and protein content of the various tissues and haemolymph lipoproteins obtained from the larvae of Musca domestica, reared on the diets containing 0.56 μmole cholesterol/g wet weight of diet (normal) and 0.05 μmole cholesterol/g wet weight of diet (deficient) have been determined. The cholesterol in the diet was found to be taken up by the larvae and distributed between all the tissues examined. About 60% of the free sterol in the larvae was recovered from the composite gut fraction and muscle. Cholesterol deficiency reduced both the growth of larvae and the free sterol content of the various tissues and haemolymph when compared to that of normal larvae. Cholesterol deficiency resulted in a slightly higher proportion of sterol and protein of the larval haemolymph being associated with the lipoproteins having slower electrophoretic mobility. Most of the different tissues from the cholesterol deficient larvae contained a much smaller proportion of their normal free sterol content than of their phospholipid or protein; the brain tissue however contained a higher percentage of free sterol and the haemolymph a much lower percentage than would be expected from the lowering of phospholipid and protein content as a result of the deficiency. When the sterol content was expressed relative to the protein, the ratio was higher in the brain tissue of both the normal and deficient larvae than the ratio present in the remaining tissues, apart from the composite gut fraction of the normal larvae. The results suggest that a disproportionate amount of available cholesterol was being concentrated into the nervous system of the cholesterol deficient insect.A rather higher proportion of the total sterol fraction recovered from the various tissues and haemolymph lipoproteins of cholesterol deficient larvae behaved as ‘polar metabolites’ of cholesterol when compared with that of normal larvae.     

The effect of dietary cholesterol on the development of Hylemya brassicae

The influence of different concentrations of cholesterol upon the larval and postlarval development of Hylemya brassicae has been investigated using an artificial diet and axenic culture conditions.In contrast with other insects studied, H. brassicae larvae are extremely sensitive to cholesterol, even in minute concentrations, until after their second ecdysis. Concentrations of 0.1 to 0.$\text{4}$g/100 ml disturb the second moulting process in a typical way that could indicate an endocrine unbalance and result in a very high mortality during this process. When cholesterol at a concentration of 0.4g/100 ml is administered to the larvae after the second ecdysis, there is no longer an adverse effect on the further larval and postlarval development.The unusual sensitivity of young cabbage root fly larvae for cholesterol seems to point out some significant differences in the sterol requirements and metabolism of the species in comparison with other insects studied.     

Consumption and utilization of a soyflour-wheat germ diet by larvae of the tobacco budworm parasitized by the tachinidEucelatoria sp

The number ( \(\bar X\) =2.4) ofEucelatoria sp. maggots that completed development in 4th- or 5th-instar larvae of the tobacco budworm (TBW),Heliothis virescens (F.), was significantly greater (P<0.05) than the number ( \(\bar X\) =1.2) that completed development in 3rd-instar larvae. Maggot development time decreased with increasing number of maggots per host larva. It also decreased with advancing larval instars. The range was 6.9±1.1 days in early 3rd-instar TBW larvae and 5.0±0.8 days in early 5th-instar TBW larvae. Unparasitized 3rd- or 4th-instar TBW larvae consumed significantly more food than did similar aged larvae parasitized byEucelatoria sp., but larvae parasitized during the early 5th-instar consumed more food than did similar aged unparasitized larvae. Consumption by 4th- or 5th-instar larvae increased significantly as maggot densities increased from 1 to 3 per host larva, but decreased at a density of 4 or more maggots per host larva. Although body weight gain and consumption were both significantly reduced 48 and 120 h after parasitization of late 3rd-instar larvae (6 days old), the approximate digestibility (AD) value was significantly greater for parasitized than for unparasitized larvae. Unparasitized larvae were more efficient in converting digested food to body substance (ECD) than parasitized larvae, but the efficiency in conversion of ingested food to body substance (ECI) was similar for both parasitized and unparasitized larvae.     

The effect of scorpion venom on the moulting activity of larvae of the beetle Trogoderma granarium

Injection of sublethal doses of venom from the scorpion Leiurus quinquestriatus H. et E. into starved diapausing larvae of Trogoderma granarium results in additional larval moults. When the injected larvae were subjected to diapause-terminating conditions (leading to pupation) by transfer to test tubes containing fresh food, the injection of venom sharply decreased the number of pupal moults and increased the number of larval moults.

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Résumé L'injection à des larves en diapause de Trogoderma granarium, de doses subléthales du venin du scorpion Leiurus quinquestriatus, a pour conséquence l'apparition de mues larvaires supplémentaires. Quand des larves sont soumises à des conditions mettant fin à la diapause (aboutissant normalement à la nymphose), par transfert dans des tubes contenant de la nourriture fraîche, l'injection de venin réduit fortement le nombre de mues nymphales et accroît celui des mues. larvaires.

     

The combined effects of temperature and diet on development and survival of a crab spider,Misumenops tricuspidatus (Fabricius) (Araneae: Thomisidae)

In the present study, the combined effects of temperature and diet on development and survival of a crab spider, Misumenops tricuspidatus (Fabricius) (Araneae: Thomisidae) in laboratory conditions were investigated. The experiments were carried out at five constant temperatures ranging from 15°C to 35°C on two kinds of diets, fruit flies (Drosophila melanogaster) and a mixed diet of fruit flies and dung flies. It was found that development rate of eggs increased with successive temperature increments, reaching a maximum at 30°C, then declined at 32°C and that eggs survived well between 20°C and 30°C (>70%), but no eggs survived to hatching at 35°C regardless of whether the spiders were fed on single or mixed diet. Juveniles completed development on both diets at all constant temperatures tested, but survival was low at the extreme temperatures. Juvenile development times decreased over successive temperature increments up to 30°C, then increased at 32°C. Females developed faster than males. Diet also influenced development time, survival and number of moults to reach maturity. Juveniles raised on the mixed diet composed of fruit flies and dung flies developed faster, survived better, and required fewer moults to reach maturity than on a diet composed of only fruit flies. Plots of development rates (reciprocal of mean development times) and survival rates (expressed as percentages) against constant temperatures indicated that M. tricuspidatus is well adapted to low temperatures, but detrimentally affected by high temperatures. Using linear regression, the lower development threshold (LDT) and the sum of effective temperatures (SET) for all life stages of M. tricuspidatus on each diet were estimated. LDT and SET varied among developmental stages and between diets.     

Effects of azasteroids on growth and development of the free-living stages of Nippostrongylus brasiliensis and Nematospiroides dubius

25-Azasteroids were evaluated for their effects on the growth and development of the free-living stages of Nippostrongylus brasiliensis and Nematospiroides dubius. Increasing the concentration of 25-azasteroids in axenic cultures of either species resulted in a decrease in the percentage and mean length of larvae that developed to the third stage. Morphologic abnormalities of inhibited larvae were similar to those shown by larvae cultured in sterol-deficient medium. Addition of cholesterol to the culture medium reversed the inhibitive effects of azasteroid. Azasteroid completely inhibited growth and development of N. brasiliensis when the only sterol present in the culture medium was sitosterol. These results suggest similar pathways of sterol metabolism and similar mechanisms of action by azasteroids in the nematodes and insects that have been studied.     

Postembryonic development of pycnogonids: A deeper look inside

Sea spiders form a small, enigmatic group of recent chelicerates, with an unusual bodyplan, oligosegmented larvae and a postembryonic development that is punctuated by many moults. To date, only a few papers examined the anatomical and ultrastructural modifications of the larvae and various instars. Here we traced both internal and external events of the whole postembryonic development in Nymphon brevirostre HODGE 1863 using histology, SEM, TEM and confocal microscopy. During postembryonic development, larvae of this species undergo massive reorganization: spinning apparatus and chelar glands disappear; larval legs redifferentiate; three new segments and the abdomen are formed with their corresponding internal organs and appendages; circulatory and reproductive systems develop anew and the digestive and the nervous systems change dramatically. The body cavity remains schizocoelic throughout development, and no traces of even transitory coeloms were found in any instar. In Nymphon brevirostre, just like in Artemia salina LINNAEUS 1758 the heart arises through differentiation of the already existing schizocoel, and thus the circulatory systems of arthropods and annelids are not homologous. We found that classical chelicerate tagmata, prosoma and opisthosoma, are inapplicable to adult pycnogonids, with the most striking difference being the fate and structure of the seventh appendage-bearing segment.     

Utilization of Δ5,7 - and Δ8-sterols by larvae of Heliothis zea

Larvae from two populations of Heliothis zea were reared on artificial diets containing various sterols, which supported suboptimal growth, and their tissue sterols were characterized in order to determine how these dietary sterols are utilized by this insect. The sterols studied included Δ^5,7-sterols (7-dehydrocholesterol or ergosterol), Δ⁸-sterols (lanosterol and/or 24-dihydrolanosterol), and a Δ⁵-sterol (4,4-dimethylcholesterol). Although larvae did not develop on 4,4-dimethylcholesterol, those fed primarily Δ⁸-4,4,14-trimethylsterols developed to the third instar. When the latter sterols were spared with cholesterol, the larvae reached the sixth instar and contained 4,4,14-trimethylsterols as well as cholesterol in their tissues. When larvae were fed 7-dehydrocholesterol, <1% of the larvae from one population developed to the sixth instar and these larvae contained 7-dehydrocholesterol as their principal sterol. The other larvae successfully completed their larval stage when they were transferred from the diet containing 7-dehydrocholesterol (or no sterol) to a diet containing cholesterol within at least 9 days. The sterol composition of larvae transferred from a diet containing cholesterol to a diet containing 7-dehydrocholesterol, after they had reached 60% of their final weight, was 54% cholesterol and 46% 7-dehydrocholesterol. The major sterol isolated from the tissues of the larvae fed ergosterol was also 7-dehydrocholesterol. Therefore, although the larva of H. zea can dealkylate and saturate the side chain of the Δ^5,7,22-24β-methylsterol, it carries out little metabolism of the B ring of the nucleus. These studies demonstrate that, when Δ^5,7- or Δ⁸-sterols are the principal sterols in the diet of H. zea, they are absorbed and incorporated into its tissues, although they slow the rate of growth and may prevent complete development of the larva.     

Kinetics of primary and secondary infections with Strongyloides ratti in mice

Dawkins H. J. S. and Grove D. I. 1981 Kinetics of primary and secondary infections with Strongyloides ratti in mice. International journal for Parasitology11: 89–96. The kinetics of infection with S. ratti were quantitated in normal and previously exposed C57B1 /6 mice. In primary infections, larvae penetrated the skin rapidly and were seen in peak numbers 12 h after infection. By 24 h after infection, larval numbers had declined appreciably and there was a slow decrease in numbers thereafter. Larvae were first observed in the lungs at 24 h and maximal recovery occurred at 48 h. It is thought that larval migration through the lungs is rapid. Worms were first seen in the intestines two days after infection. Maximum numbers were seen on the fifth day and worm expulsion was complete by day 10. Two moults took place in the small intestine during days 3 and 4 after infection. Rhabditiform larvae were first noted on the fourth day after infection. Mice exposed to S. ratti four weeks previously had significantly less larvae in the skin 4 and 12 h after infection but by 24 h there was no difference when compared with mice with primary infections. Peak recovery of larvae from the lungs occurred 24 h after infection; significantly less larvae were recovered on days 2 and 3 when compared with normal mice. There was a marked reduction in the adult worm burden in the gut; the number of worms recovered was less than one fifth of that seen in primary infections. Those worms which did mature were less fecund and were expelled from the intestines within 7 days of infection. It is suggested that in previously exposed animals, the migration of larvae from the skin is hastened, many of these larvae are destroyed in the lungs and that expulsion of worms which do mature in the intestines is accelerated.     

Effect of low rearing temperature on development of Galleria mellonella larvae and their sensitivity to juvenilizing treatment

• 1.1. The development of Gallena mellonella is strongly affected by a low temperature of 18°C (the last instar persists for more than one year, instead of about 9 days at 30°C). At 18°C the last instar Galleria mellonella larvae respond to juvenilizing treatment—chilling stress or juvenile hormone analogue—with a very low percentage or no supernumerary moults, respectively.
• 2.3. Experiments in which larvae subjected to such treatments were transferred from 18°C to 30°C and vice versa showed that for the realization of the larval programme after chilling stress application the higher (30°C) temperature is needed.
• 3.4. In last instar larvae reared at 18°C there coexist very high juvenile hormone titre and high juvenile hormone esterase activity.
• 4.5. This phenomenon which is found in both, chilled and unchilled larvae, is discussed.