Newly identified, basic hemolymph proteins from noctuid species

A number of basic metamorphosis-associated proteins were identified from several noctuid species. All of these proteins have molecular weights in the range of 73,000 to 74,000. Two of the proteins in Trichoplusia ni and Heliothis virescens were found to be suppressible by a juvenile hormone analog.     

Evidences for a stage-specific juvenile hormone binding protein in the hemolymph of the silkworm,Bombyx mori L.: Identification and characterization by photoaffinity labeling and immunological analyses

Two molecular forms of juvenile hormone binding proteins were identified in the larval hemolymph of Bombyx mori by photoaffinity labeling. One form having an Mr of 33 kDa was present constantly in the hemolymph of the third to the fifth instar larvae while the other form having an Mr of 35 kDa was detected in the hemolymph until in the early fifth instar larvae but not in the prewandering larvae and prepupae. A 33 kDa binding protein was purified by hydrophobic interaction chromatography, gel filtration, and native PAGE. Antiserum against 33 kDa binding protein cross-reacted with 35 kDa binding protein on Western blots, suggesting that these binding proteins shared the same epitopes. From the results of saturation binding assays, it was inferred that 33 and 35 kDa binding proteins had a similar binding affinity for JH 1. It was revealed that one of these binding proteins, 35 kDa binding protein, was produced in the fat body in a stage-specific manner: fat body of the early fifth instar larvae synthesized both 33 and 35 kDa binding proteins while that of prewandering larvae synthesized only 33 kDa binding protein. © 1996 Wiley-Liss, Inc.     

Acute ACTH regulation of adrenal corticosteroid biosynthesis. Rapid accumulation of a phosphoprotein

Two-dimensional gel electrophoresis was used to monitor proteins synthesized in unstimulated control and in adrenocorticotropic hormone (ACTH)- or cAMP-stimulated rat adrenal cells. Four proteins, which have similar proteolytic peptide maps, have been identified. The two found primarily in unstimulated cells are referred to as pb and pa, where pb is the protein with more basic isoelectric point. Similarly, proteins ib and ia were detected only in stimulated cells. The synthesis of pb occurs only in unstimulated cells and that of ib only in stimulated cells. Protein ib accumulates with the same lag time, rate, and stimulant dose response as the increase in steroid hormone synthesis. Pulse-chase studies showed that protein ib is not produced from pb by a post-translational modification. Proteins pb and ib thus seem identical with proteins p and i previously identified in rat adrenal cortex and corpus luteum (Krueger, R.J., and Orme-Johnson, N. R. (1983) J. Biol. Chem. 258, 10159-10167, and Pon, L.A., and Orme-Johnson, N.R. (1986) J. Biol. Chem. 261, 6594-6599). The acidic forms, pa and ia, appear after a longer lag time and are produced at a slower rate than the basic forms. Pulse-chase studies showed that the disappearance of the basic form of each protein occurs concurrently with the appearance of the corresponding acidic form. Addition of [32P]orthophosphate to stimulated adrenal cells allowed direct demonstration that proteins ib and ia are phosphorylated. Moreover, alkaline phosphatase treatment of [35S]methionine-labeled, cAMP-stimulated adrenal cells caused a large decrease in the amounts of ib and ia and the appearance of proteins with the same two-dimensional electrophoretic mobilities as pb and pa. These observations suggest that protein ib may mediate stimulation of steroidogenesis, be produced by an ACTH- or cAMP-dependent, cotranslational phosphorylation of protein pb, and be lost by a cycloheximide-insensitive, post-translational conversion to ia.     

Juvenile hormone esterases of Lepidoptera II. Isoelectric points and binding affinities of hemolymph juvenile hormone esterase and binding protein activities

Summary The juvenile hormone esterase (JHE) and juvenile hormone binding protein (JHBP) activities from the last larval instar of 14 species of Lepidoptera (Pieris rapae, Colias eurytheme, Danaus plexippus, Junonia coenia, Hemileuca nevadensis, Pectinophora gossypiella, Spodoptera exigua, Trichoplusia ni, Heliothis virescens, Orygia vetusta, Ephestia elutella, Galleria mellonella, Manduca sexta andEstigmene acrea) were analyzed by analytical isoelectric focusing (IEF). While the multiplicity and isoelectric point of these proteins varied, all of them were mildly acidic (pI 4.0–7.0), and a large number of the species possessed only a single JHE and/or JHBP activity. The Michaelis constants (K _m's) of the whole hemolymph JHE activities from selected species for JH III were in the range of 10^–7M. The equilibrium dissociation constantK _d of the JHBP was determined by Scatchard analysis for selected species as well, with the majority of species having aK _d near 10^–7M. This information is consistent with JHE acting as a scavenger for JH at various times during development and relying entirely on mass action to remove JH from its protective JHBP complexes. The JHBP should limit nonspecific binding and thus facilitate the rapid transport of the intact hormone through-out the hemocoel. These data indicate that the species currently used in the study of the developmental biology of the Lepidoptera are biochemically similar to a variety of other species in this order.Abbreviations JH juvenile hormone - JHE juvenile hormone esterase - JHBP juvenile hormone binding protein - IEF isoelectric focusing - EPPAT O-ethyl-S-phenyl phosphoramidothiolate - DFP O O-diisopropyl phosphofluoridate     

Homology between chitinases that are induced by TMV infection of tobacco

Recently, four chitinases have been detected in tobacco mosaic virus (TMV) infected tobacco: two acidic chitinases that were identified as pathogenesis-related (PR) proteins P and Q and two basic chitinases (Legrand et al., Proc.Natl. Acad. Sci. USA, in press). Here, it was shown that P and Q are closely serologically related but not related to other known acidic tobacco PR proteins. Antisera to P and Q were used to characterize translation products of TMV-induced mRNAs that were hybrid-selected with cDNA clones described previously (Hooft van Huijsduijnen et al., EMBO J 5: 2057–2061, 1986). In this way cDNA clones corresponding to the acidic and basic chitinases were identified. The partial amino acid sequences of the acidic and basic tobacco chitinases that were represented in the clones, showed an approximately 70% homology to each other and to the sequence of a bean chitinase. Although the acidic and basic chitinases differ in apparent molecular weight, they were found to have homologous C-termini.Hybridization of cDNA probes to genomic blots indicated that the acidic and basic chitinases are each encoded by two to four genes in the amphidiploid genome of Samsun NN tobacco. A similar complexity was found for the genes encoding the tobacco PR protein that is homologous to the sweet-tasting protein thaumatin and to the bifunctional trypsin/-amylase inhibitor from maize.     

A High Mobility Group Protein from the Dipteran Insects Ceratitis capitata and Bactrocera oleae

Nuclei from Bactrocera oleae and Ceratitis capitata larvae contain a major protein that shares most of the characteristics of vertebrate high mobility group (HMG) proteins. Proteins are extracted from nuclei with 0.35 M NaCl, are soluble in 5% perchloric acid, are relatively small (molecular weight in the range of 10–16 kDa), and have both a high basic and a high acidic amino acid content. The amino acid constitution of these proteins is similar to that of the HMGB protein family of vertebrates. The proteins cross-react with antibodies raised against the HMGD chromosomal protein of Drosophila melanogaster. The possible relatedness of these proteins to high mobility group proteins is discussed.     

A novel protein that binds juvenile hormone esterase in fat body tissue and pericardial cells of the tobacco hornworm Manduca sexta L

Juvenile hormone esterase degrades juvenile hormone, which acts in conjunction with ecdysteroids to control gene expression in insects. Circulating juvenile hormone esterase is removed from insect blood by pericardial cells and degraded in lysosomes. In experiments designed to characterize proteins involved in the degradation of juvenile hormone esterase, a pericardial cell cDNA phage display library derived from the tobacco hornworm moth Manduca sexta L. was constructed and screened for proteins that bind juvenile hormone esterase. A 732-base pair cDNA encoding a novel 29-kDa protein (P29) was isolated. Western and Northern analyses indicated that P29 is present in both pericardial cell and fat body tissues and is expressed in each larval instar. In immunoprecipitation experiments, P29 bound injected recombinant juvenile hormone esterase taken up by pericardial cells and native M. sexta juvenile hormone esterase in fat body tissue, where the enzyme is synthesized. Binding assays showed that P29 bound juvenile hormone esterase more strongly than it did a mutant form of the enzyme with mutations that perturb lysosomal targeting. Based on these data, we propose that P29 functions in pericardial cells to facilitate lysosomal degradation of juvenile hormone esterase.     

Genome-wide identification,classification, and expression profiling of serine esterases and other esterase-related proteins in the tobacco hornworm,Manduca sexta

Serine esterases (SEs) are hydrolases that catalyze the conversion of carboxylic esters into acids and alcohols. Lipases and carboxylesterases constitute two major groups of SEs. Although over a hundred of insect genomes are known, systematic identification and classification of SEs are rarely performed, likely due to large size and complex composition of the gene family in each species. Considering their key roles in lipid metabolism and other physiological processes, we have categorized 144 M. sexta SEs and SE homologs (SEHs), 114 of which contain a motif of GXSXG. Multiple sequence alignment and phylogenetic tree analysis have revealed 39 neutral lipases (NLs), 3 neutral lipase homologs (NLHs), 11 acidic lipases (ALs), 3 acidic lipase homologs (ALHs), a lipase-3, a triglyceride lipase, a monoglyceride lipase, a hormone-sensitive lipase, and a GDSL lipase. Eighty-three carboxylesterase genes encode 29 α-esterases (AEs), 12 AEHs (e.g., SEH4-1–3), 20 feruloyl esterases (FEs), 2 FEHs, 2 β-esterases (BEs), 2 integument esterases (IEs), 1 IEH, 4 juvenile hormone esterases, 2 acetylcholinesterases, gliotactin, 6 neuroligins, neurotactin, and an uncharacteristic esterase homolog. In addition to these GXSXG proteins, we have identified 26 phospholipases and 13 thioesterases. Expression profiling of these genes in specific tissues and stages has provided insights into their functions including digestion, detoxification, hormone processing, neurotransmission, reproduction, and developmental regulation. In summary, we have established a framework of information on SEs and related proteins in M. sexta to stimulate their research in the model species and comparative investigations in agricultural pests or disease vectors.     

Molecular characteristics of lipophorin,the juvenile hormone-binding protein in the hemolymph of the Colorado potato beetle

Lipophorin, the protein that specifically binds juvenile hormone in the hemolymph of the Colorado potato beetle, Leptinotarsa decemlineata, is a high-density lipoprotein of M_r ～ 574,000. Lipophorin contains 43% lipid and is composed of two apoproteins: apolipophorin I (M_r ～ 251,000) and apolipophorin II (M_r ～ 78,000). Both apoproteins contain mannose residues. Carotenoids make up a substantial part of the lipid fraction. Lipophorin constitutes about 25% of the total hemolymph proteins. Its concentration in the hemolymph (26 μM in 4-day-old long-day and 40 μM in 4-day-old short-day beetles) changes with different physiological conditions concomitant with changes in total protein content. Lipophorin specifically binds 10R-juvenile hormone III with high affinity. The dissociation constant for 10R-juvenile hormone III is 12 ± 2 nM. One lipophorin molecule contains one specific juvenile hormone-binding site. The concentration of binding sites therefore equals that of lipophorin in hemolymph.     

Isolation and characterization of a high molecular weight JH-III transport protein in the hemolymph of locusta migratoria

The juvenile hormone binding protein in Locusta migratoria is a very high density lipoprotein of M_r ～ 566,000. It contains 15% lipid and is composed of six seemingly identical subunits of M_r ～ 77,000. It is a minor protein, constituting 1–2% of the total hemolymph proteins. Its concentration fluctuates with total protein content and follows a cyclic pattern related to the molting cycles. The binding protein has a high affinity for (10R)-juvenile hormone III. The dissociation constant for the hormone is 3.7 ～ 0.6 nM, and one binding molecule contains six hormone-specific binding sites. The concentration of binding sites in the hemolymph is therefore very high, reaching a value of 26 μM in the last larval instar and 11 μM in the adult male.     

An altered ribosomal protein in an edeine-resistant mutant of Saccharomyces cerevisiae

Summary The r-proteins of an edeine-resistant mutant of Saccharomyces cerevisiae were compared to those of the wild-type strain by using two different two-dimensional electrophoretic techniques: (1) the Kaltschmidt-Wittmann method and, (2) the Kaltschmidt-Wittmann system, in the first dimension and the Na Dodecyl-SO₄ system in the second.With the first technique, the results indicate that the patterns of basic ribosomal proteins are similar in the two strains. However, the pattern of acidic ribosomal proteins of the mutant revealed an additional protein band with respect to the normal one. Using the other technique, the patterns of basic and acidic ribosomal proteins of the mutant demonstrated a similarity to the corresponding pattern of the wild-type strain.The data disclose that an acidic ribosomal protein of the mutant may have two forms with different electrophoretic mobilities and similar molecular weights.     

Ribosomal protein as substrate for a GTP-dependent protein kinase from yeast

A protein kinase specific for casein and acidic ribosomal proteins was isolated and partly characterized.It was found that the enzyme utilizes GTP and ATP as phosphoryl donors. Its affinity for ATP was considerably higher than for GTP with the km values of 7.6 × 10^-6M and 5.5 × 10^-5M, respectively.Two-dimensional acrylamide gel electrophoresis revealed the phosphorylation of the same ribosomal proteins with either of the [-³²P] nucleotides used. It was also shown that one acidic protein (S1 or S2) of 40 S and two acidic proteins (L2 and L3) of 60 S ribosomal subunits were predominantly phosphorylated in vitro. The phosphorylated proteins: L2 and L3 seem to correspond to the proteins of L7 and L12 of E. coli ribosomes. The isolated kinase phosphorylated several basic ribosomal proteins though to a lower extent than the acidic ones.     

Mitogen-induced tyrosine-phosphorylated 41- and 43-kDa proteins are family members of extracellular signal-regulated kinases/microtubule-associated protein 2 kinases.

Two antipeptide antibodies, one against the peptide corresponding to residues 307-327 (alpha Y91) and one against the peptide corresponding to the C-terminal portion (alpha C92) of the deduced amino acid sequence of the extracellular signal-regulated kinase 1 (ERK1), precipitated two 41-kDa and/or two 43-kDa phospho-proteins from mitogen-stimulated Swiss 3T3 cells. Electrophoretic mobilities on two-dimensional gels of the immunoprecipitated 41- and 43-kDa phosphoproteins were similar to those of the 41- and 43-kDa cytosol proteins, whose increased tyrosine phosphorylation we and others had originally identified in various mitogen-stimulated cells (Cooper, J. A., Sefton, B. M., and Hunter, T. (1984) Mol. Cell. Biol. 4, 30-37; Kohno, M. (1985) J. Biol. Chem. 260, 1771-1779); phosphopeptide map analysis revealed that they were respectively identical molecules. All those phosphoproteins contained phosphotyrosine, and the more acidic forms contained additional phosphothreonine. Immunoprecipitated 41- and 43-kDa phosphoproteins had serine/threonine kinase activity toward myelin basic protein (MBP) and microtuble-associated protein 2 (MAP2). With the combination of two-dimensional gel electrophoresis and the kinase assay in MBP-containing polyacrylamide gels of the alpha Y91 immunoprecipitates, with or without phosphatase 2A treatment, we showed that only their acidic forms were active. These results clearly indicate that 41- and 43-kDa proteins, the increased tyrosine phosphorylation of which is rapidly and commonly induced by mitogen stimulation of fibroblasts, are family members of ERKs/MAP2 kinases and that phosphorylation both on tyrosine and threonine residues is necessary for their activation.     

Ligand blot analysis of juvenile hormone esterase binding proteins in Manduca sexta L

Biotinylated recombinant juvenile hormone esterase (JHE) was used for ligand blotting of proteins from fat body tissue and pericardial athrocytes of Manduca sexta. Proteins were separated by SDS-polyacrylamide gel electrophoresis or by two-dimensional electrophoresis. Eight putative JHE binding proteins were detected in fat body tissue and in pericardial athrocytes of both M. sexta and Heliothis virescens. The predominant bands were 29, 72, 75, 125 and 240kDa, with minor bands at 50, 80 and 205kDa. All putative JHE binding proteins were present from the second through to the fifth instar larvae of M. sexta. On wide-range isoelectric focusing, the 29kDa JHE binding protein separated into three species with isoelectric points of 6.5, 6.6 and 6.8. Biotinylated-JHE did not bind recombinant M. sexta-derived juvenile hormone binding protein. The mutant JHE with mutations K29R and K524R binds weakly to the JHE binding protein P29, relative to binding of wild-type JHE [Shanmugavelu et al., J. Biol. Chem., 275 (2000) 1802-1806]. A similar reduction in binding was not seen for the 29kDa binding protein identified here in pericardial athrocytes by ligand blot. This result is discussed.     

Indoleacetic Acid and Molecular Differentiation Evidence for Interaction

Proteins of hypocotyls of bean were studied by electrophoresis. Proteins were extracted from hypocotyl segments of various stages of development starting with the relatively undifferentiated hook regions and proceeding by 2 cm segments down the hypocotyl. The proteins were the soluble (pH 7.4), the basic nuclear (histones), acidic ribonuclear and acidic chromosomal. Soluble proteins reflected differentiation of the hypocotyl in that lower hypocotyl segments had more different protein types than did the hook region. Indoleacetic acid (IAA) at 10^?6M when applied to the lower hypocotyl appeared to induce still more different proteins. However, at 10^?3M, IAA appeared to induce molecular dedifferentiation in that hypocotyl protein patterns began to resemble those of the hook. Histones also reflected differentiation, the hook having more histone types than the lower hypocotyl. IAA had no effect on histones. The hook region had two types of acidic chromosomal proteins, the lower hypocotyl one. When lower hypocotyl segments were incubated in 10^?3M IAA, the protein pattern resembled that of the hook in that the second protein normally present in the hook and not in the hypocotyl was in fact induced in the hypocotyl. The hook had two acidic ribonuclear proteins, the lower hypocotyl one. IAA did not affect this protein. These experiments suggest that IAA in some manner regulates molecular (protein) differentiation. It is further suggested that IAA accomplishes this control through the acidic nuclear proteins which are closely associated with genetic material and which reflect differentiation and are also affected by IAA.     

Molecular cloning of the ribosomal P-proteins MgP1, MgP2, MgP0, and superoxide dismutase (SOD) in the mussel Mytilus galloprovincialis and analysis of MgP0 at stress conditions

The stalk, a characteristic structure of the large ribosomal subunit, is directly involved in the interaction with the soluble factors during translation. In the Mediterranean mussel Mytilus galloprovincialis, the stalk consists of one 32 kDa protein, MgP0, and two smaller, 12 kDa acidic proteins, MgP1 and MgP2, of pI 3.0 and 4.0, respectively, as revealed by analysis of purified ribosomes with electrophoresis and Western blot with a specific monoclonal antibody. Treatment of the ribosomes with alkaline phosphatase showed movement of the bands corresponding to the acidic MgP1 and MgP2 proteins to more basic pH after isoelectrofocusing, implying phosphorylation. The cDNA molecules of M. galloprovincialis ribosomal proteins MgP0, MgP1 and MgP2 and superoxide dismutase (MgSOD) were isolated from a cDNA library or constructed by RT-PCR, cloned in expression vectors and expressed in Escherichia coli. The recombinant proteins were purified with immobilized metal ion affinity chromatography (IMAC) and identified with immunoblotting. Exposure of mussels at cadmium and sorbitol and analysis of gill tissue extracts showed over expression of MgP0 protein.     

Identification and characterization of hitherto unknown Mycoplasma pneumoniae proteins

Eleven hitherto unknown Mycoplasma pneumoniae proteins were identified and characterized with respect to their size and subcellular location. This was carried out through the construction of in vitro gene fusions between a modified mouse dehydrofolate reductase (dhfr) gene and selected regions (cosmid clones) of the M. pneumoniae genome and expressing them in Escherichia coli. Positive clones were identified using antibodies against specific fractions of M. pneumoniae. The deduced protein sequences of 11 out of 30 clones did not show significant homologies to known proteins in protein databank searches. Monospecific antibodies against these 11 fusion proteins were used to determine the size and cellular location of the corresponding M. pneumoniae proteins by immunoscreening Western blots of SDS-acrylamide gels from M. pneumoniae cell extracts.