The role of macromolecular antifreeze in the darkling beetle,Meracantha contracta

Summary Macromolecular antifreeze solutes are present in the hemolymph of the overwintering larvae of the darkling beetle,Meracantha contracta. These antifreeze solutes produce a thermal hysteresis in the hemolymph of overwinteringMeracantha larvae whereby the freezing point of the hemolymph may be 3–4 °C below the melting point. This thermal hysteresis is very similar to that produced by proteinaceous and glycoproteinaceous antifreezes which are used by many cold water, marine teleost fishes to prevent freezing. One function of the macromolecular antifreeze inMeracantha may be to hinder inoculative freezing which might otherwise occur because of the dampness of the hibernaculae. A probably more important function is to depress the supercooling point of the frost susceptibleMeracantha larvae, thereby preventing lethal ice formation in the larvae's body fluids down to temperatures of approximately –11 °C.     

Transmembrane ion distribution during recovery from freezing in the woolly bear caterpillar Pyrrharctia isabella (Lepidoptera: Arctiidae)

During extracellular freezing, solutes in the haemolymph are concentrated, resulting in osmotic dehydration of the cells, which must be reversed upon thawing. Here, we used freeze tolerant Pyrrharctia isabella (Lepidoptera: Arctiidae) larvae to examine the processes of ion redistribution after thawing. To investigate the effect of the intensity of cold exposure on ion redistribution after thawing, we exposed caterpillars to −14 °C, −20 °C or −30 °C for 35 h. To investigate the effect of duration of cold exposure on ion redistribution after thawing, we exposed the caterpillars to −14 °C for up to 6 weeks while sampling several time points. The concentrations of Na⁺, K⁺, Mg²⁺ and Ca²⁺ were measured after thawing in the haemolymph, fat body, muscle, midgut tissue and hindgut tissue. Being frozen for long durations (>3 weeks) or at low temperatures (−30 °C) both result in 100% mortality, although different ions and tissues appear to be affected by each treatment. Both water distribution and ion content changes were detected after thawing, with the largest effects seen in the fat body and midgut tissue. Magnesium homeostasis appears to be vital for post-freeze survival in these larvae. The movement of ions during thawing lagged behind the movement of water, and ion homeostasis was not restored within the same time frame as water homeostasis. Failure to regain ion homeostasis after thawing is therefore implicated in mortality of freeze tolerant insects.     

Thermal stability properties of an antifreeze protein from the desert beetle Microdera punctipennis

An insect antifreeze protein gene Mpafp698 was cloned by the RT-PCR approach from the desert beetle Microdera punctipennis. The gene was constructed and heterogeneously expressed in Escherichia coli as fusion proteins, His-MpAFP698, glutathione S-transferase (GST)-MpAFP698, and maltose-binding protein (MBP)-MpAFP698. The thermostability and thermal hysteresis activity of these proteins were determined, with the aim of elucidating the biological characteristics of this protein. The approximate thermal hysteresis (TH) value of the purified His-MpAFP698 was 0.37 °C at 0.84 mg/ml, and maintained approximately 95.7% of the TH activity at 100 °C for 5 min. Furthermore, heat incubation showed that MBP-MpAFP698 was 10 °C more thermostable than MBP protein, indicating that MpAFP698 could, to some extent, improve the thermal stability of the fused partner MBP protein. This study suggests that MpAFP698 has a high thermal stability and could be used to improve the thermal stability of the less stable proteins by producing fusion proteins, which could be used for biotechnological purposes.     

Distribution of nutrient reserves during spinning in tissues of the larva of the fly, Rhynchosciara americana

The amount of protein, carbohydrate, lipids, and free amino acids were examined in the spinning stage in the fat body, haemolymph, skeletal muscle, and gut of Rhynchosciara americana. Protein and lipids increase in the fat body soon after the animal stopped feeding, probably at the expense of the digestion of the gut contents and of the reserves of the gut wall. Afterwards there is a fall in protein and lipids in the fat body. Haemolymph protein rises a little at the beginning of spinning and then decreases steadily during cocoon production. Carbohydrate and free amino acids decrease from the beginning of spinning in all tissues studied. Quantitatively, the most important decrease of carbohydrate during spinning occurs in the fat body whereas that of free amino acids occurs in the haemolymph. Lipid increases during spinning in the skeletal muscle, probably due to enlargement of the lateral fat body which occurs as a contaminant in the skeletal muscle preparation. The Malpighian tubules contain a large amount of calcium carbonate, which is eliminated during spinning. A correlation of our chemical data with histochemical data recently published is presented and the physiological implications of our findings are discussed in comparison to other insects.     

家蚕中的5-氧脯氨酸酶及保幼激素类似物对它的影响

本工作首次在家蚕Bombyx mori的马氏管、中肠、丝腺及脂肪体等组织中测到了γ-谷氨酰循环中一个关键酶——5-L-氧脯氨酸酶的活力.该酶以马氏管中活力最高,在蚕的中肠、血淋巴中均存在有游离的5-氧脯氨酸.观察了保幼激素类似物(JHA)处理后,家蚕中肠、丝腺和脂肪体中5-L-氧脯氨酸酶活力的变化,同时观察了血淋巴中5-氧脯氨酸含量的变化.对该酶及γ-谷氨酰循环在蚕体中氨基酸转运上的可能作用进行了讨论.     

Age dependency and tissue distribution of ecdysteroids in adult male crickets,Gryllus bimaculatus de Geer (Ensifera,Gryllidae)

Ecdysteroid titers were determined in tissues (gut plus Malpighian tubules, carcass tissue, fat body, muscles, haemolymph, accessory reproductive glands, and testes) of male adult crickets, Gryllus bimaculatus, during the first 20 days of adult life as well as in spermatophores. In all tissues, except testes, total ecdysteroid titers are high on the day of imaginal moulting and then drop more or less continuously until day 8 after moulting. Distinctly higher levels are found on day 12 and 18 as well. Freshly moulted males contain high quantities of polar ecdysteroid conjugates in the digestive tract, testes, accessory reproductive glands, and haemolymph. Apolar ecdysteroid conjugates are mainly detectable in carcass tissue and fat body, but also in the haemolymph during entire adulthood. Free ecdysteroids represent the domineering class of moulting hormones in the gut during all stages of adult life. The significance of cycling ecdysteroid concentrations during adulthood is discussed in relation to spermatophore production and development of male accessory reproductive glands.     

Fat body catalase activity as a biochemical index for the recognition of thermotolerant breeds of mulberry silkworm, Bombyx mori L.

The fifth instar larvae of the silkworm Bombyx mori L. were exposed to selected high temperatures (35 and 40 °C) in order to understand the changes in the level of catalase activity in the three tissues of fat body, midgut and haemolymph of the five selected bivoltine breeds and their 9 quantitative traits, namely larval weight, cocoon weight, shell weight, shell ratio, filament length, filament weight, denier, renditta and effective rearing rate (ERR), also the correlation between them under high temperature conditions were examined. Catalase activity resulting in fat body revealed a positive correlation between the control (28±1 °C) and 40±1 °C. The CSR₂ breed showed the most level of thermotolerance and catalase activity, compared with the CSR₄, JROP, NB₄D₂ and KA breeds. It was found that the level of catalase activity in fat body may be a reliable biochemical index to recognize thermotolerant breeds in order to develop resistant hybrids for tropical areas.     

Physiological and biochemical analysis of overwintering and cold tolerance in two Central European populations of the spruce bark beetle, Ips typographus

Overwintering success is one of the key aspects affecting the development and outbreaks of the spruce bark beetle, Ips typographus (L.) populations. This paper brings detailed analysis of cold tolerance, and its influence on overwintering success, in two Central European populations of I. typographus during two cold seasons. Evidence for a supercooling strategy in overwintering adults is provided. The lower lethal temperature corresponds well to the supercooling point that ranges between −20 and −22 °C during winter months. The supercooled state is stabilized by the absence of internal ice nucleators and by seasonal accumulation of a mixture of sugars and polyols up to the sum concentration of 900 mM. The cryoprotective function of accumulated metabolites is probably based on increasing the osmolality and viscosity of supercooled body fluids and decreasing the relative proportion of water molecules available for lethal formation of ice nuclei. No activity of thermal hysteresis factors (stabilizers of supercooled state) was detected in hemolymph. Lethal times for 50% mortality (Lts50) in the supercooled state at −5, −10 or −15 °C are weeks (autumn, spring) or even months (winter), suggesting relatively little mortality caused by chill injury. Lts50 at −15 °C are significantly shorter in moist (6.9 days) than in dry (>42 days) microenvironment because there is higher probability of external ice nucleation and occurrence of lethal freezing in the moist situation.     

Short Communication: Increased gene dosage augments antifreeze protein levels in transgenic Drosophila melanogaster

One of the principal environmental adaptations of certain fishes inhabiting polar and northern coastal waters is the synthesis of antifreeze proteins (AFPs). AFPs bind to and prevent the growth of nascent ice crystals, thus depressing the serum freezing point. The transgenic expression of AFP holds great promise for conferring freeze resistance to commercially important plant and animal species. Since fish at the greatest risk of freezing have multiple AFP gene copies in order to synthesize higher levels of this protein, we have evaluated this evolutionary strategy as a way to maximize AFP expression in a model transgenic host, the fruit fly Drosophila melanogaster. A construct in which AFP genes of the Atlantic wolffish are fused to the Drosophila yolk protein 1,2 promoter/enhancer region was transferred to flies through P-element mediated transformation. Several independent transgenic fly lines were used in genetic crosses to obtain multi-insert lines. Haemolymph freezing point depression (thermal hysteresis) was greater in homozygotes relative to heterozygotes for a given insert. Similarly, multi-insert lines consistently displayed greater haemolymph AFP activity than the single insert lines from which they were derived. The thermal hysteresis value obtained with a fly line harboring 8 AFP gene copies, 0.43 °C, represents the highest such value to date recorded in a transgenic host, and is even higher than the levels found in some AFP-producing fish.     

Expression of a cystine-rich fish antifreeze in transgenicDrosophila melanogaster

We have usedDrosophila melanogaster as a model system for the transgenic expression of cystine-rich Type II antifreeze protein (AFP) from sea raven. This protein was synthesized and secreted into fly haemolymph where it migrated as a larger species (16 kDa) than the mature form of the protein (14 kDa) as judged by immunoblotting.Drosophila-produced Type II AFP demonstrated antifreeze activity both in terms of thermal hysteresis (0.13 °C) and inhibition of ice recrystallization. Recombinant AFP was purified and N-terminal sequencing revealed a 17 aa extension that began at the predicted signal peptide cleavage point. The expression of all three AFP types in transgenicDrosophila has now been achieved. We conclude that the globular Type II and Type III AFPs are better choices for antifreeze transfer to other organisms than is the more widely used linear Type I AFP.     

Kinetics of the thermal inactivation and aggregate formation of rabbit muscle pyruvate kinase in the presence of trehalose

In a previous study we found that 30-40% dimethylsulfoxide induces the active conformation of rabbit muscle pyruvate kinase. Because dimethylsulfoxide is known to perturb structure and function of many proteins, we have explored the effect of trehalose on the kinetics of thermal inactivation and stability of pyruvate kinase; this is because trehalose, in contrast to dimethyl sulfoxide, is totally excluded from the hydration shell of proteins. The results show that 600 mM trehalose inhibits the activity of pyruvate kinase by about 20% at 25 °C, however, trehalose protects pyruvate kinase from thermal inactivation at 60 °C, increases the Tm_app of unfolding by 7.2 °C, induces a more compact state, and stabilizes its tetrameric structure. The inactivation process is irreversible due to the formation of protein aggregates. Trehalose diminishes the rate of formation of intermediates with propensity to aggregate, but does not affect the extent of aggregation. Remarkably, trehalose affects the aggregation process by inducing aggregates with amyloid-like characteristics.     

甲虫抗冻蛋白热滞活性的二维吸附结合模型

甲虫抗冻蛋白是一种具有规则结构的昆虫抗冻蛋白。在相同浓度条件下,甲虫抗冻蛋白比鱼类抗冻蛋白有更高的热滞活性,目前已成为人们重点研究的一类抗冻蛋白。根据甲虫抗冻蛋白的结构特点及其在冰晶表面的吸附模式,应用二维吸附结合模型计算分析了具有6￣11个β-螺旋(β-helix)结构片段的甲虫抗冻蛋白变体分子,得到了它们的热滞活性随溶液浓度变化的规律,特别是热滞活性与甲虫抗冻蛋白的β-螺旋结构片段数的关系。结果显示,抗冻蛋白在冰晶表面的覆盖度是一个影响其热滞活性的重要因素。     

Probability of freezing in the freeze-avoiding beetle larvae Cucujus clavipes puniceus (Coleoptera: Cucujidae) from interior Alaska

Freeze-avoiding insects must resist freezing or die. A suite of adaptations to low temperatures, including the production of antifreeze proteins, colligative antifreezes (polyols), and dehydration allows most individuals to prevent freezing below the lowest ambient temperatures experienced in situ; however, there can be a wide variance in the minimum temperatures that individuals of freeze-avoiding species reach before freezing. We used logistic regression to explore factors that affect this variance and to estimate the probability of freezing in larvae of the freeze-avoiding beetle Cucujus clavipes puniceus. We hypothesized that water content ≤ 0.5 mg mg⁻¹ dry mass would lead to deep supercooling (avoidance of freezing below −58 °C). We found a significant interaction between water content and ambient below-snow temperature and a significant difference between individuals collected from two locations in Alaska: Wiseman and Fairbanks. Individuals collected in Wiseman deep supercooled with greater water content and to a greater range of ambient temperatures than individuals collected in Fairbanks, leading to significantly different lethal water contents associated with 50% probability of freezing.     

Freezing avoidance of the Antarctic icefishes (Channichthyidae) across thermal gradients in the Southern Ocean

Biogeographic studies separate the Antarctic Notothenioid fish fauna into high- and low-latitude species. Past studies indicate that some species found in the high-latitude freezing waters of the High-Antarctic Zone have low-serum hysteresis freezing points, while other species restricted to the low-latitude seasonal pack ice zone have higher serum hysteresis freezing points above the freezing point of seawater (−1.9°C), but the relationship has not been systematically investigated. Freeze avoidance was quantified in 11 species of Antarctic icefishes by determining the hysteresis freezing points of their blood serum, in addition, the freezing point depression from serum osmolytes, the antifreeze activity from serum antifreeze glycoproteins (AFGPs), and the antifreeze activity from serum antifreeze potentiating protein were measured for each species. Serum hysteresis freezing point, a proxy for organismal freeze avoidance, decreased as species were distributed at increasing latitude (linear regression r ² 0.66, slope −0.046°C °latitude⁻¹), which appeared largely independent of phylogenetic influences. Greater freeze avoidance at high latitudes was largely a result of higher levels of antifreeze activity from serum AFGPs relative to those in species inhabiting the low-latitude waters. The icefish fauna could be separated into a circum High-Antarctic Group of eight species that maintained serum hysteresis freezing points below −1.9°C even when sampled from less severe habitats. The remaining three species with low-latitude ranges restricted to the waters of the northern part of the west Antarctic Peninsula and Scotia Arc Islands had serum hysteresis freezing points at or above −1.9°C due to significantly lower combined activity from all of their serum antifreeze proteins than found in the High-Antarctic Zone icefish.     

Effects of ice-seeding temperature and intracellular trehalose contents on survival of frozen Saccharomyces cerevisiae cells

Freezing tolerance is an important characteristic for baker’s yeast, Saccharomyces cerevisiae, as it is used to make frozen dough. The ability of yeast cells to survive freezing is thought to depend on various factors. The purpose of this work was to study the viability of yeast cells during the freezing process. We examined factors potentially affecting their survival, including the growth phase, ice-seeding temperature, intracellular trehalose content, freezing period, and duration of supercooling. The results showed that the ice-seeding temperature significantly affected cell viability. In the stationary phase, trehalose accumulation did not affect the viability of yeast cells after brief freezing, although it did significantly affect the viability after prolonged freezing. In the log phase, the ice-seeding temperature was more important for cell survival than the presence of trehalose during prolonged freezing. The importance of increasing the extracellular ice-seeding temperature was verified by comparing frozen yeast survival rates in a freezing test with ice-seeding temperatures of −5 °C and −15 °C. We also found that the cell survival rates began to increase at 3 h of supercooling. The yeast cells may adapt to subzero temperatures and/or acquire tolerance to freezing stress during the supercooling.     

Recombinant Dendroides canadensis antifreeze proteins as potential ingredients in cryopreservation solutions

Expanding cryopreservation methods to include a wider range of cell types, such as those sensitive to freezing, is needed for maintaining the viability of cell-based regenerative medicine products. Conventional cryopreservation protocols, which include use of cryoprotectants such as dimethylsulfoxide (Me₂SO), have not prevented ice-induced damage to cell and tissue matrices during freezing. A family of antifreeze proteins (AFPs) produced in the larvae of the beetle, Dendroides canadensis allow this insect to survive subzero temperatures as low as −26 °C. This study is an assessment of the effect of the four hemolymph D. canadensis AFPs (DAFPs) on the supercooling (nucleating) temperature, ice structure patterns and viability of the A10 cell line derived from the thoracic aorta of embryonic rat. Cryoprotectant solution cocktails containing combinations of DAFPs in concentrations ranging from 0 to 3 mg/mL in Unisol base mixed with 1 M Me₂SO were first evaluated by cryomicroscopy. Combining multiple DAFPs demonstrated significant supercooling point depressing activity (∼9 °C) when compared to single DAFPs and/or conventional 1 M Me₂SO control solutions. Concentrations of DAFPs as low as 1 μg/mL were sufficient to trigger this effect. In addition, significantly improved A10 smooth muscle cell viability was observed in cryopreservation experiments with low DAFP-6 and DAFP-2 concentrations in combination with Me₂SO. No significant improvement in viability was observed with either DAFP-1 or DAFP-4. Low and effective DAFP concentrations are advantageous because they minimize concerns regarding cell cytotoxicity and manufacturing cost. These findings support the potential of incorporating DAFPs in solutions used to cryopreserve cells and tissues.     

Cold hardiness in the Alpine beetles Patrobus septentrionis and Calathus melanocephalus

Alpine Patrobus septentrionis and Calathus melanocephalus (Col., Carabidae) were found to be susceptible to freezing. In the summer, the supercooling points were about ?5 to ?6°C. They were lowered during acclimation in the field and in the laboratory at 0 or ?3°C. Cold hardiness was correlated to, but not determined by, haemolymph osmolality. Thermal hysteresis was not detected. Increase in cold hardiness was concluded to be mainly a result of the influence of acclimation conditions on ice-nucleating compounds. In P. septentrionis, the results indicate that different compounds with ice-nucleation activity at different temperatures determine the limit of supercooling at different times. The haemolymph of both species supercooled well below the intact beetles at all seasons. Changes in haemolymph supercooling points could be ascribed to inactivation of ice nucleators in early autumn and to the effect of changes in solute concentration. In P. septentrionis, myo-inositol increased during cold-acclimation to 80–120 mMol concentrations, whereas C. melanocephalus produced 40–60 mMol trehalose.     

Avoidance of intracellular freezing by the freezing-tolerant New Zealand Alpine weta Hemideina maori (Orthoptera: Stenopelmatidae)

Calorimetric analysis indicates that 82% of the body water of Hemideina maori is converted into ice at 10 degrees C. This is a high proportion and led us to investigate whether intracellular freezing occurs in H. maori tissue. Malpighian tubules and fat bodies were frozen in haemolymph on a microscope cold stage. No fat body cells, and 2% of Malpighian tubule cells froze during cooling to -8 degrees C. Unfrozen cells appeared shrunken after ice formed in the extracellular medium. There was no difference between the survival of control tissues and those frozen to -8 degrees C. At temperatures below -15 degrees C (lethal temperatures for weta), there was a decline in survival, which was strongly correlated with temperature, but no change in the appearance of tissue. It is concluded that intracellular freezing is avoided by Hemideina maori through osmotic dehydration and freeze concentration effects, but the reasons for low temperature mortality remain unclear. The freezing process in H. maori appears to rely on extracellular ice nucleation, possibly with the aid of an ice nucleating protein, to osmotically dehydrate the cells and avoid intracellular freezing. The lower lethal temperature of H. maori (-10 degrees C) is high compared to organisms that survive intracellular freezing. This suggests that the category of 'freezing tolerance' is an oversimplification, and that it may encompass at least two strategies: intracellular freezing tolerance and avoidance.     

Antifreeze activity in the cerambycid beetle Rhagium inquisitor

The present study revealed that hibernating freeze-avoiding Rhagium inquisitor beetles have thermal hysteresis antifreeze agents in the intracellular fluid as well as in the intestinal fluid and the haemolymph. The antifreeze activity in all three compartments increased with diminishing size of the seeding ice crystal, suggesting that all three compartments are well protected against spontaneous ice nucleation at low sub-zero temperatures. Accepted: 4 October 1998