Incorporation of arylphorins (LSP-1) and LSP-2 like protein into the integument of Ceratitis capitata during pupariation

The arylphorins and LSP-2 like polypeptide were detected by immunoblotting analysis during development in the integument of C. capitata. In vitro translation of total RNA from fat body and integument during pupariation, clearly revealed that the polypeptides under consideration were exclusively synthesized in the fat body. Furthermore, in vitro experiments demonstrated that radiolabeled arylphorins and LSP-2 like polypeptide were taken up by the integument, in an undegraded state. Immunofluorescence experiments in cross sections of wandering stage larvae and white pupae revealed that the LSP-2 like polypeptide was mainly localized in the epidermal cells, and a very weak signal was also given by the cuticle. Furthermore, the presented results indicated that a small portion of the extracted proteins exist in high molecular weight aggregate(s).     

Immunocytochemical and electrophoretic studies on the localization of the major haemolymph proteins (ceratitins) inCeratitis capitata during development

Summary The developmental profile of the major haemolymph proteins (ceratitins) inCeratitis capitata was studied. Ceratitin concentration in the haemolymph decreases dramatically during the last days of pupal life, while the amounts of ceratitins in whole organism extracts remain unchanged. By electrophoretic, immunological and immunofluorescence techniques it was revealed that ceratitins are reabsorbed by the fat body and a fraction of them is deposited in the cuticle. The possible role of ceratitins is discussed.     

Possible involvement of cockroach haemocytes in the storage and synthesis of cuticle proteins

The injection of UL¹⁴C-leucine into newly ecdysed immature cockroaches resulted in the labelling of both haemocyte and serum proteins. Serum proteins were purified by gel filtration, concentrated and reinjected into other freshly ecdysed animals. After incubations of one hour, radioactivity was detected in serum, haemocyte, and cuticle proteins. Similar experiments using labelled soluble blood cell proteins also produced radioactivity in the serum, cells and cuticle. The possible rôle of haemocytes in cuticle protein synthesis is denoted and its significance in regard to cuticular tanning is discussed.     

Major haemolymph proteins inCeratitis capitata: Biosynthesis and secretion during development

Summary The accumulation of major haemolymph proteins (a group of proteins immunologically related to Calliphorin) their biosynthesis in vivo and in organ culture as well as their secretion, has been studied during the late larval stages and white pupae of the Mediterranean fruit flyCeratitis capitata. The accumulation of major haemolymph proteins in the haemolymph, shows a twenty fold increase from the 4-day old larvae to the white pupae stage, while in the fat body there is only a seven fold increase. It is evident from the in vivo and organ culture studies, that the major haemolymph proteins are synthesized during the late larval stage and their synthesis declines abruptly during the stage of white pupae. It seems also that each polypeptide has its own characteristic developmental kinetics of synthesis. The major haemolymph proteins are synthesized in the fat body and are very quickly secreted into the haemolymph.     

Immunochemical evidence for the transport of haemolymph protein into the cuticle of Manduca sexta

Larvae and pupae of Manduca sexta were utilized to determine whether haemolymph proteins can traverse the epidermal cell and enter the newly deposited pupal cuticle in an unaltered state. The proteins examined were those that function in carrying dopamine (or a dopamine metabolite) from the haemolymph into the cuticle. Radiotracer studies and electrophoretic analysis suggested that the haemolymph carrier proteins were indeed transported into the cuticle. Antibodies against the haemolymph carrier proteins reacted with proteins extracted from the cuticle. Further work demonstrated that proteins extracted from the cuticle are immunologically similar to the haemolymph carrier proteins.     

Synthesis and deposition of PCG-100, the main pupal cuticle glycoprotein of the medfly Ceratitis capitata

We have studied the developmental expression of the main pupal cuticle glycoprotein, PCG-100, in the Medfly Ceratitis capitata. A polyclonal antiserum was raised against this protein. Western blotting analysis showed that this glycoprotein is integument- and stage-specific. No PCG-100 or immunologically related polypeptides were detected in other tissues or instars. As studied by microinjection of [³⁵S]methionine in individual flies, in vivo synthesis and deposition of PCG-100 begins approximately 48 h after the onset of pupariation, shortly after the time of head eversion. Synthesis is maximal at 54–64 h, decreases at 72 h, and practically ceases in fully shaped 4-day-old pupae. The time required for PCG-100 deposition into the cuticle was found to be less than 10 min after its synthesis. This is the first time such in vivo analysis has been performed. © 1994 Wiley-Liss, Inc.     

Regulation of the low-CO2-inducible polypeptides in Chlamydomonas reinhardtii

Polypeptides of 21, 36 and 37 kDa are induced in the unicellular green alga Chlamydomonas reinhardtii Dang. when cells are transferred from high (2%) to low (0.03%) CO₂ concentrations. The synthesis of these polypeptides is correlated with the induction of the CO₂-concentrating mechanism. In this work we studied the effect of the growth conditions on the synthesis of these polypeptides with the aim of clarifying whether the induction of all three of these low-CO₂-inducible polypeptides requires the same environmental factor. Our results showed that induction of the 21- and 36-kDa polypeptides under low-CO₂ conditions occurred only in the light, while the 37-kDa periplasmic carbonic anhydrase (EC 4.2.1.1) was induced in light, darkness, and in both synchronous and asynchronous cultures. In addition, induction of these polypeptides appeared to be determined more by the O₂/CO₂ ratio than by the CO₂ concentrations. None of these polypeptides could be induced in either of two different mutants of C. reinhardtii, one lacking ribulose-1,5-bisphosphate carboxylase/oxygenase (EC 4.1.1.39) and the other with inactive enzyme. Our results indicate that the 21- and 36-kDa polypeptides are regulated by a mechanism different from that controlling the 37-kDa polypeptide.Abbreviations pCA (periplasmic) carbonic anhydrase - Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase - TAP Trisacetate phosphate medium The authors thank Prof. M. Spalding (Iowa State University, USA) for providing antisera to LIP-21 and LIP-36. We thank Prof. S. Bartlett and Dr. J. Moroney (Louisiana State University, USA) for providing antibodies to C. reinhardtii, Rubisco and 37-kDa pCA, respectively. This work was supported by the Instituto Tecnologico de Canarias.     

Synthesis of the major adult cuticle proteins of Drosophila melanogaster during hypoderm differentiation

Differentiating imaginal hypodermal cells of Drosophila melanogaster form adult cuticle during the second half of the pupal stage (about 40 to 93 hr postpupariation). A group of proteins with molecular weights of 23,000, 20,000, and 14,000 is identified as putative major wing cuticle proteins with the following biological properties: These proteins are abundant components of cuticle and are major synthetic products of cuticle-secreting hypodermal cells. They are leucine-rich and methionine-free and are the most prominent proteins of this type synthesized by wing hypoderm at 65 hr, during the period of procuticle formation. Electron microscopic autoradiography shows that leucine-rich, methionine-free proteins specifically localize to the apical cell surface and newly secreted cuticle of 65-hr wing cells. This strongly suggests the export of these proteins to the cuticle. Lastly, these proteins undergo a reduction in extractability just after eclosion, during the period of cuticle protein crosslinking (sclerotization). The synthesis of these major hypoderm proteins is temporally regulated in development. In wing cells, the 14-kDa proteins are synthesized first, from 53 to 78 hr, and the 20- and 23-kDa proteins are synthesized from 63 to 93 hr. The pattern of synthesis for these proteins is similar in abdominal cells but delayed by 6 to 10 hr. Two-dimensional gel electrophoresis shows that each of the 23-, 20-, and 14-kDa size classes contains at least two component polypeptides. Patterns of protein synthesis in cells of the imaginal hypodermis are regulated in a precise temporal sequence during the production of adult cuticle. Their study yields a useful system for the analysis of molecular events in gene control and cell differentiation.     

DNA primase isolated from the yeast DNA primase-DNA polymerase complex. Immunoaffinity purification and analysis of RNA primer synthesis

We have utilized immunoaffinity chromatography as a means of efficiently isolating a stable yeast DNA primase from the DNA primase-DNA polymerase complex, allowing identification of the polypeptides associated with this DNA primase activity and comparison of its enzymatic properties with those of the larger protein complex. A mouse monoclonal antibody specifically recognizing the DNA polymerase subunit was used to purify the complex. Stable DNA primase was subsequently separated from the complex in high yield. The highly purified protein fraction which bound to the DNA polymerase antibody column consisted of polypeptides with apparent molecular masses of 180, 86, 70, 58, 49, and 47 kDa. DNA primase activity eluted with a fraction containing only the 58-, 49-, and 47-kDa polypeptides. Partial chemical cleavage analysis of these three proteins demonstrated that the 49- and 47-kDa polypeptides are structurally related while the 58-kDa protein is unrelated to the other two. A DNA primase inhibitory monoclonal antibody was able to inhibit the activity of the purified DNA primase as well as the activity of the enzyme in the larger complex. In immunoprecipitation experiments, all three polypeptides were found in the immune complex. Thus, these three polypeptides are sufficient for DNA primase activity. In reactions using ribonucleotide substrates and natural as well as synthetic DNA templates, the purified DNA primase exhibited the same precise synthesis of unit length oligomers as did the larger protein complex and was able to extend these RNA oligomers by one additional unit length. An examination of the effects of deoxynucleotides on these DNA primase-catalyzed reactions revealed that the yeast DNA primase is an RNA-polymerizing enzyme and lacks significant DNA-polymerizing activity under the conditions tested.     

Morphogenesis and cuticular markers during the larval-pupal transformation of the medfly Ceratitis capitata

Changes in morphology during early metamorphosis of the medfly, Ceratitis capitata (Wied.) (Tephritidae) were correlated with biochemical differentiation events. Protein profiles were studied both in the 3rd instar larval cuticle further transformed into puparium and the newly synthesized pupal cuticle. Beta-alanine incorporation into the puparium (0–20 h) correlates with concomitant pigmentation (completed by 16 h) and sclerotization phenomena. This early tannification program seems to be followed by deposition of a layer of substances, probably ecdysial fluid remnants, into the puparium. Their deposition ends approximately at +46 h. Simultaneously, pupal cuticle material starts to be deposited. Synthesis and deposition of the main pupal cuticle protein was detected 48 h after pupariation. At that time, eversion of the pupal head occurs. The definitive profile of pupal cuticle proteins was attained at around +72 h together with the establishment of adult body proportions.     

Superhydrophobic cuticle with a "pinning effect" in the larvae of the iris sawfly, Rhadinoceraea micans (Hymenoptera, Tenthredinidae)

The integument of some sawfly larvae can be easily damaged causing haemolymph bleeding (easy bleeding phenomenon). In the present study, we investigated intact cuticle, cuticle without wax coverage and cuticle replicas of sawfly larvae by using cryo-scanning electron microscopy and contact angle (CA) measurements. The easy bleeder Rhadinoceraea micans was compared to the non-easy bleeder Nematus pavidus (both Tenthredinidae), and the examination showed that the surface structures of R. micans were hierarchically arranged, whereas the cuticle surface of N. pavidus appeared much smoother. The intact cuticle proved to be superhydrophobic in R. micans (CAs: 156° dorsally, 120° ventrally), but not in N. pavidus (CAs: 67° dorsally, 47° ventrally). The wettability of R. micans increased significantly after the waxes had been peeled off. Replicas of the intact cuticle surface were hardly wettable in both species. It is suggested that wax crystals in combination with cuticle microsculptures are the most important features for rendering the integument of the easy bleeder species superhydrophobic. The wax-free tips of the cuticle microsculptures in R. micans are sites where haemolymph droplets can adhere. The integument surface of easy bleeders is assumed to be adapted to their particular defence strategy, simultaneously contributing to the maintenance and "reuse" of released haemolymph droplets on the superhydrophobic surface due to this "pinning effect".     

Cuticular collagen synthesis by Ascaris suum during development from the third to fourth larval stage: identification of a potential chemotherapeutic agent with a novel mechanism of action.

The dominant proteins released by Ascaris suum during development in vitro from the L3 to L4 stage were identified as collagenous cuticular proteins by sequence analysis and susceptibility to digestion by collagenase. Under reducing sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), the collagen proteins separated into 3 groups with molecular weights estimated at 32 kDa, 54-60 kDa, and 71-91 kDa. The 32-kDa protein represents monomeric collagen; the 54-60- and 71-91-kDa components represent dimeric and trimeric forms, respectively, polymerized by nonreducible cross-links. Furthermore, the release of these forms of collagen was developmentally regulated, as exemplified by a sequential temporal progression from monomeric to dimeric to trimeric forms in association with the in vitro transition from L3 to L4. The data suggest that collagen released in vitro during development of A. suum L3 to L4 reflects the increased translation of collagen gene products and their initial assembly into higher molecular weight molecules associated with the synthesis of the L4 cuticle. A biotinylated dipeptidyl fluoromethylketone cysteine protease inhibitor (Bio-phe-ala-FMK) bound specifically to the 32-kDa collagen and, to a lesser extent, to a 30-kDa protein; binding was dependent on the presence of dithiothreitol (DTT) and was prevented by iodoacetamide. Because cysteine residues play an essential role in the initial assembly of the collagen monomers into the higher molecular weight oligomers present in the mature nematode cuticle, inhibition of molting of A. suum L3 to L4 by the cysteine protease inhibitor Z-phe-ala-FMK might be due to its binding to thiol groups of collagen monomers during a critical phase of collagen assembly. Prevention of cystine cross-links during this critical period of cuticle assembly by peptide-FMK inhibitors may represent a potential control mechanism having a novel mechanism of action.     

Ultrastructural localization of tyrosinase in the tardigrade cuticle

Tyrosinase activity has been demonstrated ultra-structurally in the cuticle of the eutardigrade Macrobiotus hufelandi. The enzyme could be localized in the outer layer (=epicuticle) of the integument. A weak deposition of reaction product was also seen in the cytoplasm of storage cells, free floating in the haemolymph.     

Temporal programming of epidermal cell protein synthesis during the larval-pupal transformation ofManduca sexta

Summary During the final larval instar the epidermis of the tobacco hornworm,Manduca sexta, synthesizes the larval cuticular proteins and the pigment insecticyanin. Then at the onset of metamorphosis the cells first become pupally-committed, then later produce the pupal cuticle. The changes in the pattern of epidermal protein synthesis during this period were followed by incubating the integument in vitro with either³H-leucine or³⁵S-methionine, then analyzing the proteins by 2-dimensional gel electrophoresis. Precipitation by larval and pupal cuticular antisera and by insecticyanin antibody identified these proteins. Three distinct changes in epidermal protein synthesis were noted: 1) Stage-specific proteins, some of which are larval cuticular proteins, appear just before and during the change of commitment on day 3. (2) By late the following day (wandering stage), synthesis of these and many other proteins including all the identified larval cuticular proteins and insecticyanin was undetectable. Several noncuticular proteins were transiently synthesized by this pupally committed cell during wandering and sometimes the following day. (3) During the production of pupal cuticle a new set of pupal-specific cuticular proteins as well as some common cuticular proteins (precipitated by both antisera) were synthesized. Some of the latter were also synthesized during the period between pupal commitment and pupal cuticle deposition.In spite of an apparent absence of methionine in both larval and pupal cuticle, many cuticular proteins incorporated³⁵S-methionine. Thus they may be synthesized as proproteins.Insecticyanin was shown to have two forms differing in isoelectric point, the cellular form being more acidic than the hemolymph form. Synthesis of the cellular form ceased before that of the hemolymph form.     

Stable expression of human growth hormone over 50 generations in transgenic insect larvae

Developments in insect transgenesis using transposons combined with available mass rearing technology for insects such as the Medfly, Ceratitis capitata, provide opportunity for the production of protein for industrial, agricultural and healthcare purposes on a very large scale. In this study, we report the germ-line transformation and expression of a cDNA encoding human growth hormone (hGH) in transgenic Drosophila using the Minos transposon. Production and secretion of a bioactive hGH into the haemolymph of transgenic larvae was demonstrated by immunoblot analysis, ELISA and a proliferation bioassay. Stable expression of hGH was observed over 50 generations. The results indicate that mass reared transgenic diptera with a rapid period of larval growth could provide cost effective production systems for the manufacture of therapeutic and other high value proteins.     

The life cycle of the insect pathogenic fungus Metarhizium anisopliae in the termite Nasutitermes exitiosus

In in vitro and in vivo studies the mode of penetration from Metarhizium anisopliae through the termite integument is elucidated. Serial sections and haemolymph studies elucidate the infective cycle within the host.Conidia germinate and penetrate the cuticle after a not-obligate formation of one or more appressoria. A penetration plate or hyphal bodies between cuticle layers form the base for the invasion of the body cavity, where the haemolymph distributes the multiplicating hyphal bodies. After the death of the insect due to various fungal toxins, organs and tissues are penetrated. Before the gut is invaded, the fungus breaks through to the outside and grows with a special air mycelium, which forms the conidiophores. From these structures the conidia, which stick together in bunches of chains, develope. These conidia can infect the nest mates.     

Characterization of the integral membrane polypeptides of rat liver peroxisomes isolated from untreated and clofibrate-treated rats.

We have characterized the integral membrane polypeptides of liver peroxisomes from untreated rats and rats treated with clofibrate, a peroxisome proliferator. Membranes, prepared by treatment of purified peroxisomes with sodium carbonate, were used to raise an antiserum in rabbits. Immunoblot analysis demonstrated the reaction of this antiserum with six peroxisomal integral membrane polypeptides (molecular masses, 140, 69, 50, 36, 22, and 15 kDa). Treatment of rats with the hypolipidemic drug clofibrate caused a 4- to 10-fold induction in the 69-kDa integral membrane polypeptide, while the other integral membrane polypeptides remained unchanged or varied to a lesser extent. The anti-peroxisomal membrane serum reacted with two integral membrane polypeptides of the endoplasmic reticulum which co-migrated with the 50- and 36-kDa integral membrane polypeptides of the peroxisome. Biochemical and immunoblot analyses indicated that these integral membrane polypeptides were co-localized to peroxisomes and endoplasmic reticulum. Immunoprecipitation of in vitro translation products of RNA isolated from free and membrane-bound polysomes indicated that the 22-, 36-, and 69-kDa integral membrane polypeptides were synthesized on free polysomes, while the 50-kDa integral membrane polypeptide was predominantly synthesized on membrane-bound polysomes. The predominant synthesis of the 50-kDa integral membrane polypeptide on membrane-bound polysomes raises interesting possibilities concerning its biosynthesis.     

Differential protein synthesis in response to sulphate and phosphate deprivation: Identification of possible components of plasma-membrane transport systems in cultured tomato roots

Isolated roots of Lycopersicon esculentum Mill., cultured in axenic conditions were starved of sulphate or phosphate, and uptake capacities for the respective oxyanion-transport systems were observed for several days after sulphate or phosphate withdrawal. Sulphate-uptake capacity of the intact roots, measured in a 20-min period, increased from a control level of 100 nmol · g^–1 · h^–1 to 1100 nmol · g^–1 · h^–1 in 10 d, and phosphate-uptake capacity increased from 500 to 1400 nmol · g^–1 · h^–1 over 4 d. Newly synthesised polypeptides of these root cultures were pulse-labelled in vivo for 2 h, by adding [³H]leucine to the culture medium. The tissue was immediately homogenised and soluble and membrane fractions were prepared. A highly purified plasma-membrane fraction was separated from the crude microsomal membrane fraction using an aqueous two-phase partitioning technique. All fractions were analysed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis and autoradiography. A 28-kilodalton (kDa) soluble polypeptide, and 36-, 43-, and 47-kDa plasma-membrane polypeptides were observed to have increased labelling after 4 d of sulphate deprivation. Longer periods resulted in additional polypeptides with increased [³H]leucine incorporation. The synthesis of a 25-kDa membrane polypeptide and a 65-kDa soluble polypeptide was increased after 4 d of phosphate deprivation. Two-dimensional electrophoresis afforded greater resolution of the plasmamembrane polypeptides, confirming increased synthesis of the 36-kDa polypeptide and the presence of the 28-kDa polypeptide in the plasma-membrane preparation from sulphate-starved roots. These polypeptides were also observed in protein-stained two-dimensional gels as low-abundant protein components of the plasmamembrane fraction. It is suggested that the 36-kDa polypeptide may be a component of the plasma-membrane sulphate-transport system and that the 25-kDa polypeptide may be a component of a phosphate-transport system.Abbreviations kDa kilodalton(s) - PAGE polyacrylamide gel electrophoresis - pI isoelectric point - SDS Sodium dodecyl sulphate This work was supported by the Agricultural and Food Research Council via grants-in-aid to Long Ashton Research Station. We are also grateful for discussions with our colleagues D.T. Clarkson (LARS) and J.-C. Davidian (ENSA/INRA, Montpellier).     

Tyrosine and phenylalanine concentrations in haemolymph and tissues of the American cockroach, Periplaneta americana, during metamorphosis

Phenylalanine and tyrosine concentrations were measured in the haemolymph, fat body, and abdominal integument of the American cockroach, Periplaneta americana, during the pre- and post-ecdysial periods of cuticle formation and sclerotization.Gas-liquid chromatography of trimethylsilyl derivatives of phenylalanine, tyrosine, and their metabolites provided a very sensitive and rapid method for determining those amino acids in small haemolymph and tissue samples.Haemolymph tyrosine increased in two stages: initially near apolysis and 16 to 25 hr pre-ecdysis, reaching its highest concentration at ecdysis (3·5 μg tyrosine/mg haemolymph). During that time, total haemolymph tyrosine increased by approximately 700 μg/insect. Fat body and abdominal integument began to accumulate tyrosine near apolysis. Fat body tyrosine peaked between ecdysis and 3·3 hr post-ecdysis whereas abdominal integument tyrosine peaked at ecdysis. Maximum concentrations were 6·0 μg and 4·1 μg tyrosine/mg wet wt. of tissue, respectively. Between ecdysis and 24 hr post-ecdysis, the period of maximum sclerotization, total tyrosine in haemolymph and fat body decreased by approximately 600 μg and 420 μg/insect, respectively. Phenylalanine concentrations did not change significantly in the haemolymph, fat body, or abdominal integument during the pre- and post-ecdysial periods.The cockroach apparently does not store free phenylalanine or tyrosine in the fat body during larval development as compared to tyrosine storage in some Diptera. The rapid increase of haemolymph, fat body, and integument tyrosine just prior to ecdysis suggests another form of storage for this important amino acid.     

Biochemical genetics of a 7S globulin-like protein from Pinus pinaster seed

The megagametophytes of seeds of Pinus pinaster Ait. contain two types of oligomeric globulins of approximately 175 and 190 kDa that are comprised of 47-kDa and 27- and 22-kDa, monomers, respectively, joined by weak interactions. The 27- and 22-kDa components were purified and their N-terminal sequences determined. Both polypeptides were inherited as if they were coded by a single unit of recombination. The results obtained suggest that these two polypeptides originate from a single protein that undergoes proteolytic processing. The characteristics of this P. pinaster globulin indicate that it is a member of the 7S globulin family of seed storage proteins.