Role of membrane transport of water and glycerol in the freeze tolerance of the rice stem borer, Chilo suppressalis Walker (Lepidoptera: Pyralidae)

Overwintering larvae of the rice stem borer, Chilo suppressalis accumulate glycerol and are freezing tolerant to about -25 degrees C. However, non-diapausing larvae cannot accumulate glycerol and are killed by freezing. We compared the extent of tissue damage, the effects of glycerol concentration, and the transport of glycerol and water in fat body tissues from these larvae at selected freezing temperatures. Tissues from overwintering larvae, but not non-diapausing larvae, survive when frozen at -20 degrees C with 0.25 M glycerol, but the protection afforded by glycerol is offset by the water-channel inhibitor mercuric chloride. Glycerol in higher concentration (0.75 M) affords some protection even to the fat body of non-diapausing larvae. Radiotracer assays of overwintering larvae show that water leaves the tissues during freezing while glycerol enters, and that mercuric chloride disrupts this process. Transport is also disrupted after lethal freezing at -35 degrees C. Therefore, membrane transport of water and glycerol is involved in the avoidance of freezing injury to fat body cells of the rice stem borer, apparently by mediating the replacement of water with glycerol in freezing-tolerant tissues.     

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。     

Seasonal changes in glycerol content and cold hardiness in two ecotypes of the rice stem borer, Chilo suppressalis, exposed to the environment in the Shonai district, Japan

The rice stem borer, Chilo suppressalis, is divided into at least two ecotypes in Japan, the Shonai ecotype (SN) which is distributed in the northern part of Japan, and the Saigoku ecotype (SG) which is distributed in the southwestern region. Cold hardiness is positively correlated with the level of glycerol in both ecotypes. To investigate whether ecological distribution affects glycerol accumulation and cold hardiness development in these two ecotypes, overwintering larvae of the SN and SG ecotypes were concurrently exposed to the Shonai district. Obvious differences in the progress of glycerol accumulation and cold hardiness development in SN and SG larvae were found in early winter in the Shonai district. The levels of glycerol content and cold hardiness were low in October and high in January in both ecotypes, but those levels were different within this period (November and December) between ecotypes; the levels in SN larvae quickly reached their maximum, whereas, in SG larvae levels increased slowly. Under controlled conditions, the effect of the period of acclimation at 10 degrees C and subsequent low-temperature (5 degrees C) exposure on glycerol accumulation was investigated. These results indicated that glycerol accumulation in SN was stimulated by the progression of diapause termination, whereas a higher cumulative effect on glycerol production in SG was found when diapause was in a deep state.     

Intracellular freezing, viability, and composition of fat body cells from freeze-intolerant larvae of Sarcophaga crassipalpis.

Although it is often assumed that survival of freezing requires that ice formation must be restricted to extracellular compartments, fat body cells from freeze-tolerant larvae of the gall fly, Eurosta solidaginis (Diptera, Tephritidae) survive intracellular freezing. Furthermore, these cells are highly susceptible to inoculative freezing by external ice, undergo extensive lipid coalescence upon thawing, and survive freezing better when glycerol is added to the suspension medium. To determine whether these traits are required for intracellular freeze tolerance or whether they are incidental and possessed by fat body cells in general, we investigated the capacity of fat body cells from nondiapause-destined and diapause-destined (i.e., cold-hardy) larvae of the freeze-intolerant flesh fly Sarcophaga crassipalpis (Diptera, Sarcophagidae) to survive intracellular freezing. Fat body cells from both types of larvae were highly susceptible to inoculative freezing; all cells froze between -3.7 to -6.2 degrees C. The highest rates for survival of intracellular freezing occurred at -5 degrees C. The addition of glycerol to the media markedly increased survival rates. Upon thawing, the fat body cells showed little or no lipid coalescence. Fat body cells from E. solidaginis had a water content of only 35% compared to cells from S. crassipalpis larvae that had 52-55%; cells with less water may be less likely to be damaged by mechanical forces during intracellular freezing.     

二化螟滞育幼虫的蛋白和核酸含量以及保护酶活性的变化

为了阐明二化螟Chilo supprressalis滞育幼虫的分子特征及滞育期间保护酶活性的变化规律, 本研究应用Trizol法、 总量DNA提取法和蛋白定量试剂盒, 测定了在长光周期16L∶8D和25℃下发育的非滞育老熟幼虫、 在短光周期12L∶12D 和25℃下诱导滞育51 d的幼虫（称为滞育0个月）、 滞育1, 2和3个月幼虫的核酸含量和总蛋白含量; 同时应用试剂盒测定了老熟幼虫、 滞育0, 1和2个月的二化螟幼虫5种保护酶（POD, CAT, SOD, LDH和ATP酶）的活性。结果表明： 滞育幼虫的总RNA含量显著低于非滞育的老熟幼虫（P<0.05）, 而滞育1, 2和3个月的幼虫之间没有显著差异（P≥0.05）。老熟幼虫的总DNA含量显著高于滞育幼虫（P<0.05）。老熟幼虫的RNA/DNA比值较低, 滞育幼虫的RNA/DNA比值较高, RNA/DNA比值随着滞育时间的推移呈现出先上升后下降的趋势。滞育期大于1个月的幼虫中蛋白含量均显著高于非滞育的老熟幼虫（P<0.05）, 而滞育1, 2和3个月的幼虫之间没有显著差异（P≥0.05）。二化螟幼虫体内5种保护酶活性随发育阶段不同而存在差异。滞育幼虫中POD, CAT和SOD的活性随滞育时间延长而逐渐增强, 滞育2个月幼虫中的活性最高, 而非滞育老熟幼虫中的活性最低; LDH和ATP酶的活性则相反, 非滞育老熟幼虫中的活性最高, 滞育2个月幼虫中的活性最低。这些结果说明, 总RNA和DNA含量降低、 RNA/DNA比值先升后降、 总蛋白含量升高以及保护酶活性的变化是二化螟幼虫滞育过程中的主要生理特征。     

Hydrolysis of juvenile hormone in diapausing and non-diapausing larvae of the southwestern corn borer,Diatraea grandiosella

Summary The role of juvenile hormone (JH) esterases in relation to the diapause state of the southwestern corn borer,Diatraea grandiosella, was examined. The facultative larval diapause of this insect is dependent upon the presence of JH. Plasma, fat body, midgut, and body wall extracts metabolized [³H]JH I and [³H]JH III to JH-acid in vitro. JH-diol, JH-acid-diol, or conjugated polar metabolites were not detected. A longer half life of [³H]JH I was found in vitro in the plasma of diapausing larvae than in that of non-diapausing larvae. Although JH hydrolytic activity was relatively low in the plasma of pre-diapausing and diapausing larvae, systematic changes were observed suggesting that JH esterases may be involved in regulating the JH titer during this period. The JH hydrolytic activity found in the plasma of diapausing larvae was 3 to 5 times lower than that found in the plasma of mid-last instar non-diapausing larvae. Gel filtration profiles obtained from the plasma of diapausing and non-diapausing larvae suggested that JH esterases and -naphthyl-acetate esterases are different enzymes. Multiple overlapping peaks of JH hydrolytic activity with an apparent molecular weight range of 43,000 to 75,000 were detected, whereas 2 separate peaks of -naphthyl-acetate hydrolytic activity (apparent mol. wt. ca. 54,000, and 120,000) were detected. Gel filtration of supernatants of fat body indicated that JH was hydrolyzed at a lower rate by the fat body of pre-diapausing larvae than by that of non-diapausing larvae.     

Ultrastructure and respiration of the fat body of diapausing and non-diapausing larvae of the corn borer,Diatraea grandiosella

A comparative study of the fat body of diapausing and non-diapausing larvae of the corn borer, Diatraea grandiosella, was undertaken using the electron microscope and the oxygen electrode. The electron microscopic results showed a shift from a synthetic to a storage function taking place in a 1 to 2 day period during the final instar of non-diapausing larvae, and in a 4 to 8 day period in that of pre-diapausing larvae. This transition was characterized by a decrease in the number of mitochondria and amount of rough endoplasmic reticulum, and by an increase in the number of proteinaceous granules and lysosomes. In vitro measurements using the oxygen electrode showed that the fat body is a normal aerobic respiratory tissue. The tissue reacted in a predictable manner to inhibitors of oxidative metabolism, including malonate, rotenone, oligomycin, and antimycin, and to the uncoupler, dinitrophenol. During the last instar the observed decrease in the respiratory rate of the fat body coincided with the observed ultrastructural changes in its cells. The fat body of 75 day old environmentally induced and juvenile hormone induced diapausing larvae consumed 90% and 78% less oxygen, respectively than that of 14 day old non-diapausing larvae.     

Synchrotron X-Ray Visualisation of Ice Formation in Insects during Lethal and Non-Lethal Freezing

Although the biochemical correlates of freeze tolerance in insects are becoming well-known, the process of ice formation in vivo is subject to speculation. We used synchrotron x-rays to directly visualise real-time ice formation at 3.3 Hz in intact insects. We observed freezing in diapausing 3^rd instar larvae of Chymomyza amoena (Diptera: Drosophilidae), which survive freezing if it occurs above −14°C, and non-diapausing 3^rd instar larvae of C. amoena and Drosophila melanogaster (Diptera: Drosophilidae), neither of which survive freezing. Freezing was readily observed in all larvae, and on one occasion the gut was seen to freeze separately from the haemocoel. There were no apparent qualitative differences in ice formation between freeze tolerant and non-freeze tolerant larvae. The time to complete freezing was positively related to temperature of nucleation (supercooling point, SCP), and SCP declined with decreasing body size, although this relationship was less strong in diapausing C. amoena. Nucleation generally occurred at a contact point with the thermocouple or chamber wall in non-diapausing larvae, but at random in diapausing larvae, suggesting that the latter have some control over ice nucleation. There were no apparent differences between freeze tolerant and non-freeze tolerant larvae in tracheal displacement or distension of the body during freezing, although there was markedly more distension in D. melanogaster than in C. amoena regardless of diapause state. We conclude that although control of ice nucleation appears to be important in freeze tolerant individuals, the physical ice formation process itself does not differ among larvae that can and cannot survive freezing. This suggests that a focus on cellular and biochemical mechanisms is appropriate and may reveal the primary adaptations allowing freeze tolerance in insects.     

Expression of larval hemolymph proteins (Lhp) genes and protein synthesis in the fat body of greater wax moth (Galleria mellonella) larvae during diapause

When one-day-old, last instar Galleria mellonella larvae are exposed to 18 degrees C they enter diapause and cease further development for several months. During diapause a group of proteins (72-84 kDa) synthesized in the fat body and secreted into the hemolymph is markedly elevated. Partial sequencing of the N-terminus of two proteins from this group confirmed their identity with larval hemolymph proteins (LHP) belonging to the family of hexameric storage proteins. The expression of two Lhp genes of known sequence (Lhp76 and Lhp82) were monitored in both diapausing and non-diapausing individuals. The expression of both genes and subsequent synthesis of the proteins (LHP76 and LHP82) is maintained until at least 90-100 days of diapause.     

Protein release from the larval fat body of the southwestern corn borer, Diatraea grandiosella: An in vitro study

The release of protein from the perivisceral fat body of non-diapausing, pre-diapausing and diapausing larvae of the southwestern corn borer, Diatraea grandiosella, was examined in vitro. Time course studies showed a selective release of proteins into macromolecule-free Grace's medium. The rate of release of individual proteins differed. The release of some proteins was partially inhibited by the incorporation of potassium cyanide (10^?2 M) and ouabain (5 × 10^?3 M) into the medium. During a 5 min incubation a single major high molecular weight protein fraction was released at a high rate from the fat body of both non-diapausing and diapausing larvae. A low molecular weight protein (the diapause-associated protein) was also released readily from the fat body of diapausing larvae. Although most proteins released from the fat body in vitro appeared to be present in the haemolymph in vivo, one notable exception was the absence of the diapause-associated protein from the haemolymph. The method holds promise for facilitating further studies of protein release from insect fat body.     

梨小食心虫滞育与非滞育幼虫过冷却能力与体内主要生化物质含量

梨小食心虫Grapholitha molesta(Busck)是我国北方果园中重要的果树害虫,现已成为泰安肥城桃园中为害最为严重的一种食心虫。本文主要测定了梨小食心虫滞育与非滞育幼虫的过冷却能力与体内主要生化物质的含量。研究结果表明;在26℃的温度条件下,滞育幼虫的过冷却点与结冰点均低于非滞育幼虫,但差异均不显著。滞育幼虫体内的含水量、糖原和蛋白质含量均极显著低于非滞育幼虫,但是滞育幼虫体内的总脂肪、甘油和海藻糖含量均极显著高于非滞育幼虫。研究结果说明,滞育幼虫在体内生理生化代谢做了调整,以应对不利环境条件的来临。     

Cold hardiness of the fly pupal parasitoid Nasonia vitripennis is enhanced by its host Sarcophaga crassipalpis

Supercooling points (SCPs) and low temperature survival were determined for diapausing and nondiapausing larvae of the ectoparasitoid Nasonia vitripennis. Neither nondiapausing nor diapausing larvae could survive tissue freezing. The SCP profiles were nearly identical for nondiapause-destined (-27 degrees C) and diapausing larvae (-25 degrees C), but these values were not indicative of the lower limits of tolerance in either type of larvae: larvae were killed by chilling at temperatures well above the SCP. Diapausing larvae could withstand low temperature exposures 3-8 times longer than their nondiapausing counterparts. Low temperature survival was enhanced in diapausing and nondiapausing larvae by their encasement within the puparium of the host flesh fly, SARCOPHAGA CRASSIPALPIS: the LT(50)s determined for nondiapausing and diapausing larvae enclosed by fly puparia were 2-3 times higher than values calculated for larvae removed from the puparia. Additional low temperature protection was gained through acquisition of host cryoprotectants during larval feeding: nondiapausing parasitoid larvae that fed on diapausing flesh fly pupae with high levels of glycerol were able to survive exposure to a subzero temperature 4-9 times longer than wasps reared on nondiapausing fly pupae that contained lower quantities of glycerol. Alanine may also contribute to the cold hardiness of N. vitripennis, as evidenced by the fact that larvae feeding on diapausing fly pupae both contained higher concentrations of alanine and exhibited greater cold hardiness. The results thus demonstrate that several critical features of cold hardiness in the wasp are derived from biochemical and physical attributes of the host.     

Glycerol accumulation and water content in larvae of Limenitis archippus: Their importance to winter survival

Half-grown (third instar) larvae of the viceroy butterfly enter facultative winter diapause in response to short-day photoperiod after constructing tubular silk hibernacula in the basal portions of partly eaten willow leaves. Larval water content soon decreases from 80% to about 55%. No detectable quantities of glycerol occur in diapausing larvae maintained at room temperature. Subjection to cold and freezing temperatures causes high levels of glycerol to accumulate (up to 1.9 M or 7.8 g%) within the larvae. These metabolic changes probably lower the supercooling points of the larval fluids and retard both nucleative and inoculative freezing. Diapause termination is not photoperiod dependent, but involves an increase in water content and glycerol breakdown. An unidentified enzyme possibly removes the phosphate group from α-glycerophosphate, thus forming glycerol in the diapausing larvae.     

Cold tolerance in diapausing and non-diapausing stages of the flesh fly, Sarcophaga crassipalpis

ABSTRACT. Supercooling points (SCP) and low temperature tolerance were determined for larval, pupal and adult stages of Sarcophaga crassipalpis Macquart (Diptera: Sarcophagidae). No stage tolerates tissue-freezing. Ontogenetic changes in SCP profiles are similar for comparable developmental stages of diapause and non-diapause groups. Feeding larvae have SCPs near -7°C which decrease to -11°C in the postfeeding wandering phase of the final larval instar. The lowest SCPs are recorded for pupae at -23°C. The capacity to survive at -17°C varies with age of the diapausing pupae: 10-day-old pupae are less cold tolerant than pupae that have been in diapause for 45–80 days. Although the SCP of non-diapausing pupae is as low as in diapausing pupae, non-diapausing pupae are extremely sensitive to low temperature exposure and do not survive to adult eclosion when exposed to -17°C for as little as 20 min. The use of hexane to break pupal diapause has no effect on SCPs or low temperature tolerance.     

Relationship between an increase of juvenile hormone titer in early instars and the induction of diapause in fully grown larvae of Sesamia nonagrioides

The larvae of Sesamia nonagrioides (Lepidoptera: Noctuidae) grown at 25 degrees C and long photoperiod (16:8h light:dark) pupate in the 5th or 6th (mostly) larval instar, while the larvae reared under a short photoperiod (12:12h) enter diapause during which they consume some food and undergo up to 12 (usually 3-4) stationary larval molts. Diapause programming includes an increase of juvenile hormone (JH) titer in the hemolymph from about 20 to 50 nM in the 4th and 5th instar larvae (titer in earlier instars was not measured). JH I, II, and III are present in approximate ratio 1-2:10:1. The JH titer drops to zero before pupation but remains around 20 nM during diapause. Perfect extra larval molts associated with a body weight increase can be induced in the non-diapausing larvae with a JH analogue (JHA). The weight rise is due to accumulation of reserves and not to a general body growth. The timing of extra molts is similar to the molting pattern of the diapausing larvae only when JHA is present since early larval instars. In the diapausing larvae, JHA application affects neither molting periodicity nor the body weight. It is concluded that (1) Increased JH titer in early larval instars is a part of diapause programming; (2) The extension of larval stage in the diapausing larvae, but not the timing pattern of extra molts, is due to continuously high JH titer; (3) The diapause program includes low food intake, maintenance of a certain body weight, and periodic larval molts.     

Diapause detection and monitoring in the Mediterranean corn stalk borer

Abstract. Sesamia nonagrioides Lefebvre diapauses as mature larvae. Once diapause is induced, larvae continue to grow and moult with no apparent changes, so distinction between non-diapausing and diapausing larvae is difficult. In the present work two physiological markers of diapause induction are obtained and their efficacy in detecting diapause onset and in monitoring diapause development in field populations is evaluated. The first marker is based on the differential capacity of two photoregimes, LD 0:24 h and LD 16:8 h, to reverse diapause induction. When larvae of the first and second stadia were subjected to the diapause-inducing LD 12:12 h light cycle and then transferred to LD 0:24 h, larvae pupated after a development duration significantly higher than that of the larvae transferred to LD 168 h. This criterion was used to monitor diapause development in overwintering larvae until field-collected larvae submitted to LD 0:24 h pupated synchronously with those submitted to LD 16:8 h. This occurred between late January and early March. The second marker refers to development of imaginal wing discs. A relative index of the tracheal mass area divided by the total disc area diminishes steadily during development in non-diapausing sixth-instar larvae until it becomes zero just before pupation, whereas it remains constant in diapausing larvae. Though wing disc development was blocked in diapausing sixth-instar larvae, the disc continued to grow and, consequently, the total area of the disc was not a suitable marker of diapause induction. When the constancy of the relative area index was used to monitor diapause development and termination in overwintering larvae, the results agreed with those obtained using the first criterion and with previous field observations.     

Effects of acclimation and diapause on the thermal tolerance of the two-spotted spider mite Tetranychus urticae

The two-spotted spider mite, Tetranychus urticae, is a worldwide pest species that overwinters as diapausing females. Cold hardening is presumed to start during diapause development to ensure the successful overwintering of this species. To address this hypothesis, we compared cold tolerance between non-diapausing and diapausing females. We measured supercooling point (SCP) and survival to acute cold stress by exposing the mites at a range of sub-zero temperatures (from −4 to −28 °C for 2 h). The mean SCPs of non-diapausing and diapausing females were −19.6±0.5 and −24.7±0.3 °C respectively, and freezing killed the mites. Diapausing females were significantly more cold tolerant than non-diapausing ones, with LT₅₀ of −19.7 and −13.3 °C, respectively. Further, we also examined the effects of cold acclimation (10 d at 0 or 5 °C) in non-diapausing and diapausing females. Our findings indicated that diapause decreased SCP significantly, while cold acclimation had no effect on the SCP except for non-diapausing females that were acclimated at 5 °C. Acclimation at 5 °C enhanced survival to acute cold stress in diapausing and non-diapausing females, with LT₅₀ of −22.0 and −17.1 °C, respectively. Altogether, our results indicate that T. urticae is a chill tolerant species, and that diapause and cold acclimation elevate cold hardiness in this species.     

Antioxidant defense in mitochondria during diapause and postdiapause development of European corn borer (Ostrinia nubilalis, Hubn.)

Antioxidant enzymes (CAT, catalase; GPx, selenium nondependent glutathione peroxidase; GST, glutathione-S-transferase; GR, glutathione reductase; DHAR, dehydroascorbate reductase) were determined in the mitochondria of diapausing and non-diapausing larvae and pupae of both diapausing and non-diapausing larvae of the European corn borer (Ostrinia nubilalis, Hubn., Lepidoptera: Pyralidae). CAT, GST, and DHAR activity in mitochondria of diapausing larvae were reduced compared to non-diapausing larvae. Pupae of diapaused-larvae possessed lower GST, but higher DHAR activities compared to pupae of non-diapaused individuals. Comparison between larvae and pupae revealed lower GPx activity in the mitochondria of pupae. CAT activity in the mitochondria of pupae was higher compared to diapausing larvae, but lower than in non-diapausing ones. Correlation and canonical discriminant analyses revealed different antioxidant enzyme compositions for a particular stage and developmental pattern. Our results show that antioxidant enzymes have a similar role in the regulation of energetics in mitochondria as that in diapause and metamorphosis.     

Termination and induction of diapause in the gypsy moth larval parasitoid, Apanteles melanoscelus

Diapause in Apanteles melanoscelus can be terminated by exposure of the diapausing last instar larvae within their cocoons to 5°C for a period of 8 or more weeks. Photoperiod has no consistent influence upon diapause termination, but is of paramount importance for diapause induction. At less than 16 hr light per day virtually all larvae diapause, and at 18 hr and above very few larvae diapause. By exposing different larval stages to different photoperiods it was found that older larvae were most sensitive to the light-dark cycle. It was also noted that cocoons of diapausing larvae are larger than those of non-diapausing larvae.