Properties,synthesis, and accumulation of storage proteins in Pieris rapae L.

Two kinds of storage proteins (SP-1, SP-2) were confirmed in hemolymph and fat body of Pieris rapae during metamorphosis. Both proteins were present in high concentrations in the hemolymph during the last larval instar. Hemolymph concentrations of SP-1 and SP-2 dropped after pupation as the proteins were being deposited in fat bodies. SP-2 is present in a larger amount than SP-1. Detailed studies on storage proteins determined their properties, mode of synthesis, and accumulation in the fat body. SP-1 has a molecular weight of 500,000 and consists of one type of subunit (M_r 77,000), while SP-2 has a molecular weight of 460,000 and is composed of two types of subunits (M_r 80,000 and 69,000). The pl values of SP-1 and SP-2 were determined to be 6.97 and 7.06, respectively. Fat body cells from 1-day-old fifth instar larvae synthesized storage proteins in large amounts, whereas those from late prepupae exhibited high protein sequestration. Proteins taken up in fat body accumulated in dense granules during the pupal stage but sharply decreased at the adult stage. Morphological changes in the fat body tissues were observed during the larval-pupal transformation; the nuclei of fat body cells became irregularly shaped, and the boundaries between cells seemed to be obscure. Synthesis, storage, or degradation of storage proteins in fat body during development is closely associated with morphological changes in the tissues.     

Storage proteins of the fall webworm,Hyphantria cunea drury

Two storage proteins, storage protein-1 (SP1) and storage protein-2 (SP2), were found in hemolymph and fat body during the development of Hyphantria cunea, the fall webworm. Both storage proteins show similiar quantitative changes during development in males and females; however, SP1 is more abundant. The hemolymph of last instar larvae contains high concentrations of the storage proteins. However, following pupation, the storage proteins accumulate in fat bodies. SP1 peaks in the hemolymph of males and females late in last instar larvae (8-day-old 7th instar larvae). SP1 has a native molecular weight of 460,000 and consists of six identical subunits (Mr = 76,700), while SP2 has a molecular weight of 450,000 and is composed of two different subunits (Mr = 74,100 and 72,400). Both SP1 and SP2 are hexamers and are phosphorylated glycolipoproteins. The pl values of SP1 and SP2 were determined to be 5.70 and 5.50, respectively. Antibodies raised against SP1 react positively with vitellogenin and ovary extract, as well as with proteins in the hemolymph from last instar larvae and proteins in pupal fat bodies. Storage protein synthesis starts in fat bodies of a 4-day-old 7th instar larvae and in female peaks at 6–8 days of the 7th instar.     

Storage protein uptake in helicoverpa zea: Arylphorin and VHDL share a single receptor

The major lepidopteran storage protein arylphorin is selectively taken up into perivisceral fat body of prepupae by receptor mediated endocytosis. The arylphorin receptor was identified by ligand blotting and in vitro binding studies. Fat body membranes contain a glycosylated receptor protein with an apparent molecular weight of 80,000 that binds arylphorin with a K_D of 9.02 × 10^?8 M. Competitive binding experiments revealed that the arylphorin receptor is identical with the previously identified VHDL receptor. Apparently a single receptor mediates the uptake of structurally distinct storage proteins. This storage protein receptor is present only in perivisceral fat body and only during the period around pupation when both storage proteins are sequestered. © 1994 Wiley-Liss, Inc.     

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.     

蜜蜂脂肪体的形态和功能研究进展

脂肪体是昆虫体内的一种多功能器官,近似于脊椎动物的肝脏,分布于昆虫腹部、胸部甚至头部腔体中,以腹部脂肪体最为发达。蜜蜂脂肪体有外周脂肪体和围脏脂肪体两种类型,由营养细胞、尿酸盐细胞和绛色细胞组成。同其他昆虫中类似,脂肪体在蜜蜂的生命活动中扮演着重要的角色,其形态和功能随发育阶段、季节和劳动分工的变化而变化。脂肪体结构相对简单,但生理功能非常复杂。脂肪体最主要的功能是能量物质的储存和代谢,其不仅是蜜蜂营养物质(即脂质、碳水化合物和蛋白质)的中央储存库,而且是营养代谢的中间站,具有多种能量和物质相互转换的酶系,承担代谢水的供应并合成嘌呤和嘧啶及许多重要的蛋白质。同时,脂肪体是昆虫发育和行为调控过程中各种激素和营养信号的交换中心,脂肪体激素和营养信号参与调控蜜蜂脂肪体发育、营养物质代谢、生殖及劳动分工。脂肪体兼具能量储存和释放、生物合成和分解、营养感知调节、代谢信号整合、内分泌调节、免疫和解毒、磁场感受、提高抗寒能力、保护体腔内器官等多种功能。鉴于脂肪体的重要作用,蜜蜂脂肪体形态和功能的研究成果可以对昆虫营养信号通路的解析、蜂产品高产良种的选育和蜜蜂病害防治的研究提供参考和思路。     

Antiapoptotic activity of 30 kDa lipoproteins family from fat body tissue of silkworm,Bombyx mori

The family of 30 kDa lipoproteins (LP1–5) is abundant in silkworm pupa fat body (FB) and hemolymph. One of its members, the 29 kDa protein decreased in concentration from peripheral (PP) FB tissue but was sustained in perivisceral (PV) FB tissue at the time of apoptosis. This study investigated the correlation of the 30 kDa proteins with FB apoptosis. Two protein fractions were purified, a 29 and a 30/31 kDa protein fraction, and they were used to test for activity against actinomycin D‐induced apoptosis in the FB tissues. Concentrations as little as 50 μg/mL of the 29 kDa protein fraction efficiently inhibited apoptosis. Less antiapoptotic activity was detected for the higher MW fraction; DNA fragmentation was observed in FB tissue treated with 50 μg/mL of the 30/31 kDa fraction. The viability of the cells in the 29 kDa protein‐supplemented culture was 40% higher than in the 31 kDa protein‐supplemented culture. However, the 30 kDa lipoproteins were not able to prevent scheduled FB degeneration during silkworm metamorphosis. Thus, it is hypothesized that the antiapoptotic 29 kDa protein needs to be proteolytically degraded by a regulatory mechanism to allow programmed cell death of FB tissue.     

Lipophorin uptake by the larval fat body and adult ovary in the wax moth Galleria mellonella

Lipophorin (Lp) acts in the circulation of insects to selectively deliver lipids to target tissues. In the present study, we wanted to show that Lp is taken up into larval fat body cells and the adult ovary in Galleria mellonella. Larval fat body and adult ovary tissues were incubated at room temperature for 30 min with fluorescein isothiocyanate (FITC)‐labeled Lp. Fluorescence microscopy and sodium dodecylsulfate (SDS)–polyacrylamide gel electrophoresis (PAGE) revealed that fat body and ovary tissues internalize fluorescence‐labeled Lp. The results suggest that both lipids and proteins are taken up by fat body cells and the ovary and also that large amounts of proteins and lipids taken up can serve as building blocks and as a source of energy. Immunological relationships with other insects were investigated using western blotting. The data showed that the Lp of Galleria mellonella is related to that of Hyphantria cunea.     

Absence of female-specific protein in the hemolymph of stable fly Stomoxys calcitrans (L.) (Diptera: Muscidae)

Changes, during the reproductive cycle, in fat body, hemolymph, and ovarian proteins of the stable fly Stomoxys calcitrans were characterized quantitatively and qualitatively using sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE). Protein content of all three tissues increased after blood feeding. Fat body protein increased first, followed by hemolymph and ovarian proteins. SDS-PAGE failed to identify vitellogenin in both female hemolymph and fat body samples. No single protein or group of proteins predominated at any stage of the reproductive cycle. Comparisons between male and female stable fly hemolymph and fat body proteins failed to detect female-specific proteins. Female-specific proteins, however, were detected in the hemolymph of four other species of Diptera.     

Schlank,a member of the ceramide synthase family controls growth and body fat in Drosophila

Ceramide synthases are highly conserved transmembrane proteins involved in the biosynthesis of sphingolipids, which are essential structural components of eukaryotic membranes and can act as second messengers regulating tissue homeostasis. However, the role of these enzymes in development is poorly understood due to the lack of animal models. We identified schlank as a new Drosophila member of the ceramide synthase family. We demonstrate that schlank is involved in the de novo synthesis of a broad range of ceramides, the key metabolites of sphingolipid biosynthesis. Unexpectedly, schlank mutants also show reduction of storage fat, which is deposited as triacylglyerols in the fat body. We found that schlank can positively regulate fatty acid synthesis by promoting the expression of sterol‐responsive element‐binding protein (SREBP) and SREBP‐target genes. It further prevents lipolysis by downregulating the expression of triacylglycerol lipase. Our results identify schlank as a new regulator of the balance between lipogenesis and lipolysis in Drosophila. Furthermore, our studies of schlank and the mammalian Lass2 family member suggest a novel role for ceramide synthases in regulating body fat metabolism.     

Hamster contraception associated protein 1 (CAP1)

Based on cDNA and amino acid sequence, we demonstrate that hamster contraception associated protein 1 (CAP1) protein (an homolog of DJ-1 in mouse, CAP1/SP22/RS in rat and DJ-1/RS in human) is conserved during evolution. Through solubilization studies, it was demonstrated that hamster CAP1 has a peripheral membrane localization. SDS-PAGE analysis revealed that the migration pattern for hamster CAP1 compared to the other rodent counterparts, rat and mouse was different; indicating species-specific differences in the protein (possibly due to post-translational modifications). This protein also shows a ubiquitous presence in both somatic and germ tissues, and has been localized to the sperm tail. It was noticed that hamster CAP1 was lost from the mid piece of spermatozoa during capacitation. Interestingly, following in vitro treatment with ornidazole, CAP1 was lost from the spermatozoa and immunofluorescence studies showed that the major loss was from the mid piece of the spermatozoa. Another interesting feature highlighted about hamster CAP1 is its tendency to exist in two pI isoforms. Summarily, hamster CAP1 appears to exhibit species-specific differences compared to its rodent counterparts with respect to its unique peripheral localization, its size, two pI isoforms, and fate during capacitation, which may have implications in its functions.     

Culture of honeybee organs: Development of a new medium and the importance of tracheation

Summary A culture system for honeybeen fat body and ovary was developed that supported optimal levels of protein synthesis by the explanted tissues. Abdominal body wall preparations of honeybee workers and queens, with adhering fat body, and ovaries of egg-laying queens were incubated in a culture medium designed to match honeybee hemolymph composition as closely as possible. Incorporation of [³H]eucine into soluble tissue proteins was measured. The new medium makes possible rates of tracer incorporation into fat body proteins that are up to three times higher than other media tested. When the tracheal system of the organs was let intact and open to the air during incubation, protein synthesis increased 17-fold (fat body) or 15-fold (ovary) as compared to preparations without open tracheas. After explantation into the medium, labeled proteins were synthesized at a highly variable rate for 10 h, probably due to wound response, and at a constant rate for the next 60 h. In contrast, ovarian protein synthesis occurred at a constant rate for at least 20 h and showed no wound response. The rate of tracer incorporation into fat body proteins was 3.2 times greater in tissues from the queen. This culture system is therefore suitable for a variety of investigations in honeybeen development and reproduction. These studies were supported by grants from the Deutsche Forschungsgemeinschaft, a Senior Scientist Award from the Alexander v. Humboldt Foundation for H. H. Hagedorn, and a fellowship from the Deutscher Akademischer Austauschdienst for H. H. Kaatz.     

Biochemical changes in tissue composition of Periplaneta americana (Linn.) acclimated to high and low temperatures

1. 1.|Cold acclimation apparently favours an increase of water content in fat body, but not in coxal muscle, of cockroaches.

2. 2.|A remarkable enhancement in the accumulation of total protein in fat body characterizes the cold acclimation of cockroaches, particularly adult males (175% increase in protein/DNA ratio). The increase in protein content of coxal muscle during acclimination to 15°C, observed in nymphs (16%) and males (16%) but not in females, is less pronounced than that of fat body.

3. 3.|A diminution (28–32%) in the free amino acid/DNA ratio due to cold acclimation has been recorded in both coxal muscle and fat body of nymphs and females, but not in males.

4. 4.|No qualitative change occurs in the free amino acid spectrum of haemolymph and tissues of this insect during acclimation to 15 and 35°C.

5. 5.|An augmentation (15–30%) of the RNA/DNA ratio occurs in fat body and coxal muscle of nymphs and males but in fat body alone of females following cold acclimation.

6. 6.|The glycogen reserve has been shown to increase by up to 30% in fat body and coxal muscle of cold acclimated cockroaches compared to warm acclimated ones.

Synthesis and transport of storage proteins by testes in Heliothis virescens.

The synthesis of two storage protein subunits, 76,000-Mr and 82,000-Mr polypeptides, by the testes sheath has been studied in Heliothis virescens. Like fat body, which is the primary site of synthesis for the large extratesticular pool, cells of the testes sheath secrete glycosylated storage proteins assembled into hexamers. The testis sheath differed from fat body in several important respects, including the failure to synthesize an abundant (in the hemolymph) 74,000-Mr storage protein, its relatively reduced expression of the 76,000-Mr polypeptide, and the absence of resorption of storage proteins from the lumen of the testis during pupal development. Cyst cells were also shown to import actively the 82,000-Mr storage protein by pinocytosis of testicular fluid and transfer it to the developing spermatids. Unlike other cell types that sequester storage proteins in the form of cytoplasmic granules, their localization within spermatids was exclusively mitochondrial. These observations suggest that expression of the storage protein genes is regulated tissue specifically and reveal novel pathways for their transport and, perhaps, utilization and function during development.