Diapause development and acclimation regulating enzymes associated with glycerol synthesis in the Shonai ecotype of the rice stem borer larva,Chilo suppressalis walker

Overwintering larvae of the Shonai ecotype of the rice stem borer, Chilo suppressalis, enter diapause in early September and terminate diapause at the end of October. Cold acclimation at 0°C did not influence glycerol, trehalose or glycogen content in larvae collected on 22 September. Acclimation at 0°C increased the glycerol content and reduced the glycogen content significantly in larvae collected on 2 October and 22 November compared with acclimation at 15°C. These results indicate that overwintering larvae at different phases of diapause development respond differently to the low temperature stimulus for glycerol synthesis. Thus, we evaluated the metabolic rearrangements associated with glycerol synthesis during diapause development and after temperature acclimation. Larvae collected on 2 October were acclimated at 15°C for 15 and 60 days. Some of those acclimated at 15°C were then moved to 0°C for 15 days. The larvae acclimated at 15°C for 15 days were in deep diapause and accumulated little glycerol, while larvae acclimated at 15°C for 60 days were nearly ready to emerge from diapause and accumulated glycerol at 155.5 μmol/g. When larvae acclimated to 15°C for 15 days were transferred to 0°C, glycerol accumulation was stimulated to the same extent (ca 140 μmol/g) as it was in larvae that were acclimated to 15°C for 60 days and then transferred to 0°C. These results indicate that low temperature has a cumulative effect on glycerol production in larvae at different phases of diapause development. Glycerol accumulation was accomplished by activation of glycogen phosphorylase and inhibition of fructose-1,6-bisphosphatase, and activation of enzymes associated with glycerol synthesis, mainly glyceraldehyde-3-phosphatase and polyol dehydrogenase with glyceraldehyde activity.     

Phosphatase activity in the larva of the euryhaline mosquito, Aëdes togoi Theobald,with special reference to sea-water adaptation

The alkaline and acid phosphatases in larvae of the euryhaline mosquito, Aëdes togoi Theobald, were measured and the distribution of alkaline phosphatase was examined histochemically. The optima pH for alkaline and acid phosphatases in the larvae were ≈9.0 and 3.2. respectively. The thorax region showed the highest activity of alkaline phosphatase. The enzyme activity of the thorax of seawater adapted larvae was about twice as high as that of freshwater larvae. When the larvae were transferred from fresh water to sea water, the alkaline phosphatase activity of the thorax increased greatly for 3 days, and thereafter decreased to the normal level of sea-water adapted larvae within seven days. In larvae transferred from sea water to fresh water, the activity of the thorax decreased gradually and after 7 days remained at the level of freshwater adapted larvae. No change in acid phosphatase activity was detected following transfer of the larvae from fresh water to sea water or vice versa. A strong alkaline phosphatase reaction was found only in the luminal border of the gastric caeca in the thorax region. The locality of this enzyme did not vary according to the salinity of environmental water.The activity change of alkaline phosphatase of the gastric caeca is discussed in relation to the absorption of the ingested medium from the gastric caeca.     

The in vitro biosynthesis and secretion of glycerol by larval fat bodies of chilled Ostrinia nubilalis

Fat bodies from diapausing fifth-instar larvae of Ostrinia nubilalis were incubated in vitro at 5 or 23°C in Grace's medium and the glycerol contents of the organ and incubation medium determined. Fat bodies from diapausing larvae chilled 3 weeks at 5°C secreted glycerol into the medium at 5°C at a net rate of approx. 0.75 nmol/mg fat body dry wt/h for at least 96 h while the tissue levels remained essentially constant. Depending upon the experiment, from 6 to 15 times more glycerol was produced in 24 h at 5°C by these fat bodies than by those taken from diapausing unchilled larvae and incubated at either 5 or 23°C. A minimal chilling period of 10–12 days was recognized as necessary for chilled larval fat bodies to demonstrate rates of glycerol synthesis greater than those of unchilled larvae and the lag showed a temporal correlation with changes in haemolymph glycerol concentrations. These results suggest that this response to chilling by O. nubilalis is relatively slow. While incubation, at 23°C, of fat bodies from previously chilled larvae did not result in cessation of glycerol secretion, the rate of its appearance in the culture medium decreased during the 24-h incubation period. Although the ability of chilled fifth-instar larvae to accumulate glycerol is not dependent upon the diapause state results show that clearance of glycerol from the haemolymph by rewarmed O. nubilalis is related to diapause intensity.     

Further evidence that diapause in the gypsy moth,Lymantria dispar,is regulated by ecdysteroids: a comparison of diapause and nondiapause strains

A nondiapause strain of the gypsy moth offers an additional tool for evaluating the regulation of diapause in this species. Patterns of protein expression in the gut and gut enzyme activity distinguished the two strains. Synthesis of a 55kDa gut protein, previously linked to diapause, began 14days after oviposition in both the diapause (D) and nondiapause (ND) strains. Though synthesis of this protein persisted in the D strain, its synthesis decreased after day 18 in the ND strain. In the D strain, activity of the proteolytic enzymes (trypsin, chymotrypsin, elastase, aminopeptidase) and esterase remained low, while activity of all of these enzymes increased dramatically in the ND strain 18-20days after oviposition. By contrast, alkaline phosphatase (ALP) activity was high in both strains 15-17days after oviposition, activity remained high in the D strain but in the ND strain activity then decreased. Patterns of ALP zymograms were similar in the two strains on day 15, but later a band of high mobility appeared only in the D strain. When 20-hydroxyecdysone was added to hanging drop cultures containing ND pharate larvae 15days after oviposition, the larvae assumed the characteristics of diapause larvae: the 55kDa gut protein was synthesized, the ALP zymogram revealed the characteristic diapause pattern, and they failed to ingest culture medium. The fact that 20-hydroxyecdysone could elicit these responses in ND individuals further supports previous results indicating that ecdysteroids promote the induction and maintenance of the pharate larval diapause in this species.     

Activity of gut alkaline phosphatase,proteases and esterase in relation to diapause of pharate first instar larvae of the gypsy moth,Lymantria dispar

Two distinctly different patterns of gut enzyme activity were noted in relation to diapause in pharate first instar larvae of the gypsy moth, Lymantria dispar. Trypsin, chymotrypsin, elastase, aminopeptidase and esterase activities were low at the initiation of diapause and through the period of chilling needed to terminate diapause. At the completion of a 150 day chilling period, activity of each of these enzymes quickly increased when the pharate larvae were transferred to 25°C. By contrast, activity of alkaline phosphatase (ALP) increased rapidly at the onset of diapause, remained elevated throughout diapause, increased again during postdiapause, and then dropped at the time of hatching. In addition, zymogram patterns of ALP activity differed qualitatively in relation to diapause: several bands were detectable during the pre- and postdiapause periods, but only one band, a band of high mobility, was visible during diapause. The ALP isozyme present in diapausing pharate larvae had a pH optimum of 10.6. Diapause in the gypsy moth can be averted by application of an imidazole derivative, KK-42, and pharate larvae treated with KK-42 showed elevated protease and esterase activity, low ALP activity, and expressed ALP isozymes with low mobility. Thus the overall patterns of gut enzyme activity and the ALP zymogram in KK-42 treated individuals were similar to those observed in untreated individuals at the termination of diapause. Our results suggest a unique pattern of enzyme activity in the gut that is regulated by the diapause program. Arch. Insect Biochem. Physiol. 37:197–205, 1998. © 1998 Wiley-Liss, Inc.     

Deciphering Proteomic Signatures of Early Diapause in Nasonia

Insect diapause is an alternative life-history strategy used to increase longevity and survival in harsh environmental conditions. Even though some aspects of diapause are well investigated, broader scale studies that elucidate the global metabolic adjustments required for this remarkable trait, are rare. In order to better understand the metabolic changes during early insect diapause, we used a shotgun proteomics approach on early diapausing and non-diapausing larvae of the recently sequenced hymenopteran model organism Nasonia vitripennis. Our results deliver insights into the molecular underpinnings of diapause in Nasonia and corroborate previously reported diapause-associated features for invertebrates, such as a diapause-dependent abundance change for heat shock and storage proteins. Furthermore, we observed a diapause-dependent switch in enzymes involved in glycerol synthesis and a vastly changed capacity for protein synthesis and degradation. The abundance of structural proteins and proteins involved in protein synthesis decreased with increasing diapause duration, while the abundance of proteins likely involved in diapause maintenance (e.g. ferritins) increased. Only few potentially diapause-specific proteins were identified suggesting that diapause in Nasonia relies to a large extent on a modulation of pre-existing pathways. Studying a diapause syndrome on a proteomic level rather than isolated pathways or physiological networks, has proven to be an efficient and successful avenue to understand molecular mechanisms involved in diapause.     

Metabolic dynamics across prolonged diapause development in larvae of the sawfly,Cephalcia chuxiongica (Hymenoptera: Pamphiliidae)

Nutrient metabolism is crucial for the survival of insects through the diapause. However, little is known about the metabolic mechanism of prolonged diapause. The sawfly, Cephalcia chuxiongica (Hymenoptera: Pamphiliidae), is a notorious defoliator of pine trees in southwest China. One of the distinguishing biological characteristics of this pest is the prolonged diapause of about 1.5 years. In this study, the body lipid, carbohydrate (total body sugar, glycogen, trehalose, and glucose), protein, and glycerol contents were measured in diapausing larvae of C. chuxiongica. The results showed that the changes of biochemical composition in C. chuxiongica are associated with the diapause initiation, maintenance, and termination phases. During the initiation phase, trehalose, glucose, and glycerol increased significantly, but glycogen decreased sharply. In general, the lipid, carbohydrate, and glycerol levels decreased gradually across the maintenance phase. At termination phase, the contents of glycogen and lipid persistently decreased, while an increase of trehalose, glucose, and glycerol contents were detected. The protein level was significantly higher at maintenance phase than at initiation and termination phases. It was also found that elevation of trehalose, glucose, and glycerol contents occurred in winter. These implies that the metabolites with altered levels in diapausing larvae of C. chuxiongica are responsible for maintaining a prolonged development and overwintering.     

The induction of lysosomal enzyme activity in the fat body of Calliphora erythrocephala: Changes in the internal environment

The activity of the lysosomal marker enzyme acid phosphatase in the larval fat body of Calliphora erythrocephala increases during development, but not at the same rate throughout the tissue. During the feeding stage, the posterior region has a higher acid phosphatase activity than the anterior region. When the larvae cease feeding on the 5th day of development, the acid phosphatase activity of the inactive anterior lobe increases rapidly in a mosaic-cell pattern. When 4-day-old feeding stage larvae are starved, this increase occurs one day earlier than normally. After the emptying of the gut, the acid phosphatase activity of all the anterior cells both in normal and in starved larvae exceeds that of those in the posterior region.Transplantation experiments indicate that the induction of acid phosphatase activity in the fat body during normal development, especially in the anterior region, is caused by a change in the internal environment when the larvae cease feeding. Both RNA and protein synthesis are involved in this induction process. Inductive factors are present in 5-day-old larvae as well as during formation of the puparium. The competence of the feeding-stage fat cells to develop high acid phosphatase activity is acquired before the actual induction takes place.     

大斑芫菁滞育幼虫在滞育不同阶段体内糖类和醇类含量的变化

在以卵滞育的昆虫中昆虫滞育时的生理代谢特点已经得到了大量研究。本文对以末龄幼虫（5龄）滞育的大斑芫菁Mylabris phalerate（Pallas）在不同滞育阶段体内糖类和醇类代谢的特征进行了研究。结果表明： 滞育个体血淋巴中的海藻糖含量高于非滞育个体,且随滞育时间的加大逐渐升高,滞育5个月时达到最大值,为5.61 μmol/mL。糖原的含量随滞育的进程逐渐减少,滞育初期（0.5个月）为0.72 mg/mL,到滞育末期（5个月）时仅为0.1 mg/mL。滞育个体脂肪体中的海藻糖含量都高于非滞育个体,滞育1个月时为非滞育个体的3倍,至滞育末期时达非滞育个体的5倍,为2.5 μmol/g脂肪体。糖原含量总体变化趋势是随滞育时间的加大逐渐减少,滞育早期和中期都高于非滞育个体。在滞育过程中血淋巴积累的小分子多元醇主要为甘油,其次是山梨醇;而在脂肪体中主要为甘油,其次是甘露醇,少量积累山梨醇：表明大斑芫菁滞育幼虫主要积累的是海藻糖和一些小分子多元醇。滞育幼虫在准备滞育时储备了大量糖原,这些糖原可能为滞育期间海藻糖、山梨醇和甘油的代谢提供了原料。     

CHANGES OF GLYCEROL CONTENT IN DIAPAUSE LARVAE OF THE ORANGE WHEAT BLOSSOM MIDGE, SITODIPLOSIS MOSELLANA (GEHIN) IN VARIOUS SEASONS

Abstract  The glycerol contents in diapause larvae of the orange wheat blossom midge, Sitodiplosis mosellana (Gehin), collected from various seasons, were measured. The results showed that there was less glycerol content in larvae during living on the wheat head. Content of glycerol began to increase significantly when the larvae left the wheat head and entered the soil. A change trend of upper- lower- upper- lower in larvae glycerol contents during diapause in soil was observed from June to April of next year. More glycerol could be examined in larvae collected in summer and winter than in spring and autumn. There was not more glycerol in cocooned larvae than that in non-cocooned larvae during various seasons from the point of statistics. Comparing the glycerol content of larvae being diapause in the first year with that of larvae in the second year, there was yet no obvious difference when larvae were collected in the same season belonged to different years. Therefore, it is shown that the content of glycerol in larvae of the wheat midge in diapause is affected mainly by the seasons or diapause intensity.     

小麦吸浆虫滞育幼虫甘油含量的季节变化(英文)

采用比色分析方法测定了小麦吸浆虫Sitodiplosis mosellana滞育期间幼虫甘油含量的季节变化。结果表明,幼虫离穗入土以前,甘油含量很低,仅为2.96±1.19μg/mg。幼虫离穗入土后,甘油含量急剧升高。入土后5d,甘油含量即上升为6.58±1.11μg/mg;至入土后17d,甘油含量达到高峰,12.21±2.21μg/mg。以后随时间的短期变化其含量变化不大,但随季节变化表现了一定的规律性,呈现了上升——下降——再上升——再下降的变化趋势,即夏季和冬季含量较高,秋季和春季含量较低。结茧幼虫和裸露幼虫比较,结茧幼虫的甘油含量在盛夏和冬季略高于裸露幼虫,秋季和春季时二者含量相当,两者在统计学上并无显著的差异。同一季节的当年滞育幼虫和进入第2年滞育幼虫的甘油含量无明显差异。由此可见,小麦吸浆虫幼虫滞育期间,甘油含量受季节或滞育深度的影响较大。     

The encapsulation process in Biomphalaria glabrata experimentally infected with the metastrongylid Angiostrongylus cantonensis: enzyme histochemistry.

Enzyme histochemistry has revealed that encapsulation reactions surrounding larvae of the nematode Angiostrongylus cantonensis 4 wk after infection of the gastropod Biomphalaria glabrata are the sites of highly localized acid phosphatase and nonspecific esterase activities. Lesser amounts of alkaline phosphatase and β-glucuronidase activities also occur within such capsules, but aminopeptidase activity cannot be demonstrated. In addition, it has been ascertained that acid phosphatase activity gradually increases as the encapsulation reaction progresses during the first to the fourth week postinfection.     

Acid and alkaline phosphatase activity in the fat body and midgut of the beet armyworm,Spodoptera exigua (Lepidoptera: Noctuidae), infected with nuclear polyhedrosis virus

Changes in the activity of acid and alkaline phosphatase in Spodoptera exigua larvae infected with nuclear polyhedrosis virus have been investigated. Three days after per os infection, the activity of acid phosphatase in the fat body and midgut of infected larvae was significantly higher than that in normal larvae. Alkaline phosphatase activity did not show such significant changes. There were differences in the phosphatase patterns depending on whether their activities were expressed as enzyme units per milligram of fresh organ weight or per milligram of homogenate protein. The literature relevant to the subject allows us to conclude that the increase in phosphatase activities in S. exigua larvae is not specifically associated with virus infection itself, but, rather, is a reaction of the insect organism to the diminishing supply of energy sources.     

Ontogenetic patterns of cold-hardiness and glycerol production in Sarcophaga crassipalpis

Developmental patterns of low-temperature tolerance and glycerol production were determined for larval, pupal and adult stages of the flesh fly Sarcophaga crassipalpis Macquart (Diptera: Sarcophagidae). Both diapause and non-diapause-destined flies were reared at relatively high temperatures, 20° or 25°C, prior to testing. Cold tolerance was greatest for diapause pupae aged 12–35 days after pupariation. Among non-diapause-destined flies, pupae exhibited a greater level of low temperature tolerance than larvae or adults. Although diapause pupae were more tolerant than non-diapause pupae maximal cold tolerance was not attained in either group until 10 days after pupariation. Non-diapause-destined feeding and wandering larvae had higher glycerol levels than larvae destined for diapause. During the first 6 weeks after pupariation glycerol titres increased steadily in diapause pupae. Rapid loss of glycerol is associated with the termination of pupal diapause.     

Seasonal changes in glycerol content and enzyme activities in overwintering larvae of the Shonai ecotype of the rice stem borer,Chilo suppressalis Walker

Enzymes associated with glycogen metabolism and glycerol synthesis in larvae of the Shonai ecotype of the rice stem borer, Chilo suppressalis, were investigated over the winter in 2000-2001. Glycerol content was scarcely detected in September and October, rapidly increased in November and December, peaked in January, and then decreased. Glycogen was converted to glycerol over the winter until February, and glycerol was reconverted to glycogen in March. The trehalose content remained constant over the winter. The activities of enzymes associated with glycerol synthesis changed with the season. Glycerol accumulation was accomplished by activation of glycogen phosphorylase, inhibition of fructose-1,6-bisphosphatase and pyruvate kinase, and activation of enzymes associated with glycerol synthesis, mainly glyceraldehyde-3-phosphatase and polyol dehydrogenase with glyceraldehyde activity. These changes led to a diversion of triose phosphates into the pathway of glycerol synthesis. However, activities of the two initial enzymes of the hexose monophosphate shunt were not activated and remained relatively constant, but high during the period of active glycerol synthesis. Both decreasing temperature in the field and the transition from the diapause to the post-diapause state may be responsible for the changes in activities of enzymes associated with glycerol synthesis.     

Alkaline phosphatase in the integument of Ceratitis capitata: Developmental profile and functional properties

Electrophoretic analysis of alkaline phosphatase from the integument during development, reveals two bands of enzyme activity. One corresponding to phosphatase activity during pupation and just prior to eclosion and the other during the middle of the pupal stages. On the contrary in the haemolymph there is one band on enzyme activity through all the developmental stages. The haemolymph alkaline phosphatase band does not comigrate with any integumental enzyme band. The developmental profile of the integumental alkaline phosphatase activity has also been compared to that of the haemolymph. It was found that the pattern of activity is completely different. In the integument, two peaks of enzyme activity were found: one just prior to pupation and the other during eclosion. These two peaks do not coincide to that of haemolymph alkaline phosphatase activity. The pH optimum for both enzyme forms of third instar larvae, although broad especially for haemolymph form, was clearly in the alkaline range, with a peak at pH 8.5–9.0. The two isozymes have different affinities for the substrate tyrosine-O-phosphate. Tyrosine-O-phosphate is the preferred substrate for the integumental enzyme form with a K_m of 0.4 mM. We suggest that alkaline phosphates from the integument is specific for the hydrolysis of tyrosine-O-phosphate.     

Relationship between photoperiod and secretion of the diapause hormone during larval stages of the silkworm, Bombyx mori L., reared on an artificial diet

The suboesophageal ganglion of the silkworm, Bombyx mori synthesizes sufficient diapause hormone to produce diapause eggs, regardless of the photoperiodic conditions experienced during the larval stages. When larvae destined to produce non-diapause eggs are implanted with the brain-suboesophageal ganglion complex from larvae which have been reared under short-day conditions, the resulting adults lay diapause eggs. The larvae receiving the complex from larvae reared under long-day conditions gave rise to adults which did not produce any diapause eggs. The brains from pupae which have been reared under long-day conditions show an activity inhibiting the secretion of diapause hormone by the suboesophageal ganglion. The mechanism through which the brain controls the secretion of diapause hormone from the suboesophageal ganglion can be modified by photoperiodic conditions during the larval stages.     

Changes in amino acids and protein metabolism in Egyptian cobra (Naja haje) during hibernation

1. 1.Total protein, GOT, GPT, alkaline phosphatase and total free amino acid content in the brain, liver and kidney were studied in the hibernating, arousing and normothermic cobra (Naja haje).

2. 2.Tissues showed a decline in protein content which started in the prehibernating animals. At the low body temperatures in hibernation both synthesis and degradation would be reduced. The fall in protein content suggests synthesis is reduced more steeply than is degradation. Recovery of protein biosynthesis was demonstrated during arousal.

3. 3.In aroused animals, the levels of free amino acids in the tissues examined were higher than in hibernating ones or in normothermic controls studied in summer.

4. 4.A decline in GOT activity was recorded in the hibernating animals. The enzyme activity showed recovery on arousal. A similar trend was observed for the GPT activity in brain and kidney.

5. 5.The activity of alkaline phosphatase was also examined in the different tissues. The correlation of these changes to the different phases of hibernating cycle is discussed.

Regulation of juvenile hormone esterase activity in the European corn borer, Ostrinia nubilalis

The regulation of juvenile hormone esterase in last-instar diapause and nondiapause larvae of Ostrinia nubilalis was investigated using topically applied juvenile hormone I and a juvenile hormone mimic, methoprene. The influence of the head on juvenile hormone esterase was also investigated. Both juvenile hormone and methoprene caused increases in esterase levels when applied to feeding animals. Neither the hormone nor methoprene was capable of elevating nondiapause esterase activity to levels comparable to those found in untreated prediapause larvae. The esterase levels could be elevated in the larval body, without the head, during prepupal development of nondiapause larvae and in post-feeding diapause larvae. In both cases, juvenile hormone or methoprene induced juvenile hormone esterase activity in head-ligated animals. Topically applied methoprene prolonged feeding and delayed the onset of diapause. When methoprene was applied to larvae that had entered diapause, it disrupted diapause by inducing a moult.     

Haemocytes of the pink bollworm, Pectinophora gossypiella, during larval development and diapause

Seven types of haemocytes were observed in the last larval instar of the pink bollworm, Pectinophora gossypiella (Saunders): prohaemocytes, plasmatocytes, granular haemocytes, spherule cells, adipohaemocytes, oenocytoids, and podocytes. Total and differential haemocyte counts made from diapausing and non-diapausing larvae showed that during diapause there was a significant reduction in the numbers of all haemocyte types. Upon termination of diapause, the haemocyte level increased. There were no significant differences in the level of haemocytes in the pharate pupae that developed from diapause or non-diapause type larvae, except in the case of adipohaemocytes, which were three times as prevalent in pharate pupae from diapausing larvae. Functional aspects of various types of haemocytes are discussed, and it is suggested that the lower haemocyte level observed during diapause is the result of lower metabolic activity.