Functional analysis of the honeybee (Apis mellifera L.) salivary system using proteomics

In insects, specific proteins and physiologically active molecules whose functions are related to their lifestyles are secreted from the salivary system. To investigate proteins/molecules related to the sociality of the European honeybee (Apis mellifera L.), we performed a proteomic analysis of the honeybee salivary system. The honeybee salivary system comprises two secretory glands: the postcerebral gland (PcG) and the thoracic gland (TG), both of which are connected to a common duct that opens in the mouthpart. Although most (31 out of 35) of the major proteins identified from the PcG and TG were housekeeping proteins, the spot intensities for aldolase and acetyl-CoA acyltransferase 2 were stronger in the PcG than in the TG in the 2-dimensional gel electrophoresis. Immunoblotting confirmed that the expression of these proteins was stronger in the PcG than in the TG, whereas expression was almost not detectable in the hypopharyngeal gland (HpG), suggesting that carbohydrate metabolism is enhanced in the honeybee PcG. In addition, imaginal disc growth factor 4 (IDGF4) was synthesized in the honeybee salivary system. Immunoblotting indicated IDGF4 expression was very strong in the PcG, moderate in the TG, and very weak in the HpG. A considerable amount of IDGF4 was detected in the royal jelly, while less was detected in honey, strongly suggesting that the honeybee salivary system secretes IDGF4 into the royal jelly and honey. The secreted IDGF4 might therefore affect growth and physiology of the other colony members.     

Identification of major royal jelly proteins in the brain of the honeybee Apis mellifera

The consumption of royal jelly (RJ) determines the differences between castes and behavioral development in the honeybee Apis mellifera. However, it is not known whether the proteins of RJ are related to these differences, or which proteins are responsible for the changes. To understand the functions of RJ proteins that are present in other tissues of the bee, in addition to hypopharyngeal gland, we used a polyclonal antibody anti-MRJP1 to investigate the presence of this protein in nervous system of honeybee. This study showed the presence of three polypeptides (p57, p70 and p128) in specific tissues of bee brain. Mushroom body, optic lobe and antennal lobe neuropils all contained proteins recognized by anti-MRJP1. Proteomic analysis showed that the three polypeptides are correlated with proteins of the MRJP family. p57 is correlated with MRJP1, p70 with MRJP3, while p128 may be an oligomeric form or a new polypeptide. Immunostaining of the brain and hypopharyngeal gland revealed differential expression of MRJPs in various brain regions and in different honeybee castes and subcastes. The identification and localization of these MRJPs contribute to the elucidation of the biological roles of this protein family.     

Proteomic analysis of honeybee (Apis mellifera L.) pupae head development

The honeybee pupae development influences its future adult condition as well as honey and royal jelly productions. However, the molecular mechanism that regulates honeybee pupae head metamorphosis is still poorly understood. To further our understand of the associated molecular mechanism, we investigated the protein change of the honeybee pupae head at 5 time-points using 2-D electrophoresis, mass spectrometry, bioinformatics, quantitative real-time polymerase chain reaction and Western blot analysis. Accordingly, 58 protein spots altered their expression across the 5 time points (13-20 days), of which 36 proteins involved in the head organogenesis were upregulated during early stages (13-17 days). However, 22 proteins involved in regulating the pupae head neuron and gland development were upregulated at later developmental stages (19-20 days). Also, the functional enrichment analysis further suggests that proteins related to carbohydrate metabolism and energy production, development, cytoskeleton and protein folding were highly involved in the generation of organs and development of honeybee pupal head. Furthermore, the constructed protein interaction network predicted 33 proteins acting as key nodes of honeybee pupae head growth of which 9 and 4 proteins were validated at gene and protein levels, respectively. In this study, we uncovered potential protein species involved in the formation of honeybee pupae head development along with their specific temporal requirements. This first proteomic result allows deeper understanding of the proteome profile changes during honeybee pupae head development and provides important potential candidate proteins for future reverse genetic research on honeybee pupae head development to improve the performance of related organs.     

Natural feeding influences protein expression in the dogfish shark rectal gland: A proteomic analysis

The rectal gland is the principal salt-secreting organ in elasmobranchs, yet its functional response to normal physiological variation (e.g., due to feeding, stress) has only recently been examined. To complement studies on acid-base, digestive, and osmoregulatory physiology in response to natural feeding, we investigated protein-level responses in the rectal gland of spiny dogfish (Squalus acanthias) 6 h, 20 h, and 5 days (reference control) after a meal. Our objective was to identify proteins involved in regulation of osmoregulatory and metabolic processes in response to feeding. Proteins were separated by two-dimensional gel electrophoresis, and protein spots that were significantly up- or down-regulated > 2 fold (i.e., abundance increased more than 100% or decreased more than 50%) were detected using gel image analysis software. Of 684 proteins analyzed on 2D gels, 16 proteins changed significantly 6 h after feeding vs. 5 day controls (5 decreased; 11 increased), and 12 proteins changed > 2 fold 20 h after feeding vs. 5 day controls (2 decreased; 10 increased). Thirteen of these proteins were identified using mass spectrometry and classified into functional pathways using the PANTHER bioinformatics database. Rectal gland proteins that were regulated following feeding fell into three main categories: cytoskeletal/muscular (e.g., tropomyosin alpha chain, transgelin), energy metabolism (e.g., malate dehydrogenase, ATP synthase), and nucleotide metabolism (nucleoside diphosphate kinase). The data also revealed that previously documented increases in the activity of isocitrate dehydrogenase after feeding are at least partially due to increased abundance of a cytosolic, NADP-dependent isoform of this enzyme. One of the primary components of the rectal gland's response to feeding appears to be maintenance of the cellular supply of energy, which would be necessary to fuel increased activities of enzymes involved in salt secretion and oxidative metabolism in the rectal gland following a meal.     

Characterization of components of Z-bands in the fibrillar flight muscle of Drosophila melanogaster

Twelve monoclonal antibodies have been raised against proteins in preparations of Z-disks isolated from Drosophila melanogaster flight muscle. The monoclonal antibodies that recognized Z-band components were identified by immunofluorescence microscopy of flight muscle myofibrils. These antibodies have identified three Z-disk antigens on immunoblots of myofibrillar proteins. Monoclonal antibodies alpha:1-4 recognize a 90-100-kD protein which we identify as alpha-actinin on the basis of cross-reactivity with antibodies raised against honeybee and vertebrate alpha-actinins. Monoclonal antibodies P:1-4 bind to the high molecular mass protein, projectin, a component of connecting filaments that link the ends of thick filaments to the Z-band in insect asynchronous flight muscles. The anti-projectin antibodies also stain synchronous muscle, but, surprisingly, the epitopes here are within the A-bands, not between the A- and Z-bands, as in flight muscle. Monoclonal antibodies Z(210):1-4 recognize a 210-kD protein that has not been previously shown to be a Z-band structural component. A fourth antigen, resolved as a doublet (approximately 400/600 kD) on immunoblots of Drosophila fibrillar proteins, is detected by a cross reacting antibody, Z(400):2, raised against a protein in isolated honeybee Z-disks. On Lowicryl sections of asynchronous flight muscle, indirect immunogold staining has localized alpha-actinin and the 210-kD protein throughout the matrix of the Z-band, projectin between the Z- and A-bands, and the 400/600-kD components at the I-band/Z-band junction. Drosophila alpha-actinin, projectin, and the 400/600-kD components share some antigenic determinants with corresponding honeybee proteins, but no honeybee protein interacts with any of the Z(210) antibodies.     

Dietary carbohydrate-to-protein ratio affects TOR signaling and metabolism-related gene expression in the liver and muscle of rainbow trout after a single meal

Most teleost fish are known to require high levels of dietary proteins. Such high-protein intake could have significant effects, particularly on insulin-regulated gene expression. We therefore analyzed the effects of an increase in the ratio of dietary carbohydrates/proteins on the refeeding activation of the Akt-target of rapamycin (TOR) signaling pathways in rainbow trout and the effects on the expression of several genes related to hepatic and muscle metabolism and known to be regulated by insulin, amino acids, and/or glucose. Fish were fed once one of three experimental diets containing high (H), medium (M), or low (L) protein (P) or carbohydrate (C) levels after 48 h of feed deprivation. Activation of the Akt/TOR signaling pathway by refeeding was severely impaired by decreasing the proteins-to-carbohydrates ratio. Similarly, postprandial regulation of several genes related to glucose (Glut4, glucose-6-phosphatase isoform 1), lipid (fatty acid synthase, ATP-citrate lyase, sterol responsive element binding protein, carnitine palmitoyltransferase 1, and 3-hydroxyacyl-CoA dehydrogenase), and amino acid metabolism (serine dehydratase and branched-chain α-keto acid dehydrogenase E2 subunit) only occurred when fish were fed the high-protein diet. On the other hand, diet composition had a low impact on the expression of genes related to muscle protein degradation. Interestingly, glucokinase was the only gene of those monitored whose expression was significantly upregulated by increased carbohydrate intake. In conclusion, this study demonstrated that macro-nutrient composition of the diet strongly affected the insulin/amino acids signaling pathway and expression pattern of genes related to metabolism.     

Study of proteins associated with the Eimeria tenella refractile body by a proteomic approach

Refractile bodies (RB), whose function is still unknown, are specific structures of Eimeriidae parasites. In order to study their proteome, RB were purified from Eimeria tenella sporozoites by a new procedure using a reversible fixation followed by centrifugation. RB proteins were resolved by two-dimensional electrophoresis. Around 76 and 89 spots were detected on RB two-dimensional gels using gradients in the 3-10 and 4-7 range, respectively. RB proteins were located mainly between pH 5 and 7. RB gels were then compared with previously established maps of the entire sporozoite proteome. Proteins appearing in new spots were identified by mass spectrometry. Thirty protein isoforms were located in RB. Added to the already known RB proteins such as Eimepsin and SO7', the new RB proteins were defined as haloacid dehalogenase, hydrolase, subtilase, lactacte dehydrogenase or ubiquitin family proteins. The RB proteome analysis confirmed the hypothesis that this structure is a reservoir for proteins necessary to invasion but also suggests that RB have energetic and metabolic functions.     

Proteome profiling of aging in mouse models: Differential expression of proteins involved in metabolism,transport, and stress response in kidney

Aging is a time‐dependent complex biological phenomenon observed in various organs and organelles of all living organisms. To understand the molecular mechanism of age‐associated functional loss in aging kidneys, we have analyzed the expression of proteins in the kidneys of young (19–22 wk) and old (24 months) C57/BL6 male mice using 2‐DE followed by LC‐MS/MS. We found that expression levels of 49 proteins were upregulated (p ≤ 0.05), while that of only ten proteins were downregulated (p ≤ 0.05) due to aging. The proteins identified belong to three broad functional categories: (i) metabolism (e.g., aldehyde dehydrogenase family, ATP synthase β‐subunit, malate dehydrogenase, NADH dehydrogenase (ubiquinone), hydroxy acid oxidase 2), (ii) transport (e.g., transferrin), and (iii) chaperone/stress response (e.g., Ig‐binding protein, low density lipoprotein receptor‐related protein associated protein 1, selenium‐binding proteins (SBPs)). Some proteins with unknown functions were also identified as being differentially expressed. ATP synthase β subunit, transferrin, fumarate hydratase, SBPs, and albumin are present in multiple forms, possibly arising due to proteolysis or PTMs. The above functional categories suggest specific mechanisms and pathways for age‐related kidney degeneration.     

A proteomic approach to the identification of salivary proteins from the argasid ticks Ornithodoros moubata and Ornithodoros erraticus

The saliva of ticks contains anti-haemostatic, anti-inflammatory and immunomodulatory molecules that allow these parasites to obtain a blood meal from the host and help tick-borne pathogens to infect the vertebrate host more efficiently. This makes the salivary molecules attractive targets to control ticks and tick-borne pathogens. Although Ornithodoros moubata and O. erraticus are important argasid ticks that transmit severe diseases, to date only a few of their salivary proteins have been identified. Here we report our initial studies using proteomic approaches to characterize the protein profiles of salivary gland extracts (SGE) from these two argasids. The present work describes the proteome of the SGEs of both tick species, their antigenic spots, and the identification of several of their proteins. The whole number of identifications was low despite the good general quality of the peptide mass maps obtained. In the O. moubata SGE, 18 isoforms of a protein similar to O. savignyi TSGP1 were identified. In the O. erraticus SGE we identified 6 novel proteins similar to unknown secreted protein DS-1 precursor, NADPH dehydrogenase subunit 5, proteasome alpha subunit, ATP synthase F0 subunit 6, lipocalin and alpha tubulin. Finally, the current drawbacks of proteomics when applied to the identification of acarine peptides and proteins are discussed.     

Effects of platelets on the protein expression in aortic segments: A proteomic approach

It is well known the effects of the vascular wall on platelet activity but little is known about the effects of platelets on the proteins expression in the vascular wall. We analyzed whether platelets may modify the protein expression in the vascular wall. We used an in vitro model coincubating human platelet rich plasma (PRP) with control and 10 ng/ml tumor necrosis factor‐α (TNF‐α)‐preincubated bovine aortic segments. 2DE, mass spectrometry and Western blot analysis were used to determine changes in the expression of proteins associated with the cytoskeleton and energetic metabolism in the aortic segments. In control healthy vascular wall, only the cytoskeleton‐related proteins expression was modified by PRP. However, when PRP was coincubated with TNF‐α pre‐stimulated aortic segments lesser number of cytoskeleton‐related proteins were modified. With respect to energetic metabolism, in control segments, PRP failed to modify any of the analyzed energetic‐related proteins. However, in TNF‐α‐preincubated segments the presence of PRP upexpressed glyceraldehyde‐3‐phosphate dehydrogenase. Moreover, by western blot experiments it was observed that in TNF‐α‐preincubated segments the expression of fructose 1,6‐bisphosphate aldolase was downregulated by platelets. However, no differences were found in the expression of triosephosphate isomerase and ATP synthase α‐chain. In addition, the activity of fructose 1,6‐bisphosphate aldolase and piruvate content was significantly reduced without modification on triosephosphate isomerase activity. In conclusion, the crosstalk between platelets and vascular wall is bidirectional and platelets regulated in the vascular wall the expression of proteins associated with the cytoskeleton and energetic metabolism, particularly in the healthy vascular wall. J. Cell. Biochem. 111: 889–898, 2010. © 2010 Wiley‐Liss, Inc.     

双孢蘑菇子实体发育后期差异表达蛋白质分析

为探讨双孢蘑菇子实体发育后期的蛋白质表达变化,对双孢蘑菇As2796子实体采收期、成熟期和开伞期的蛋白质组进行了双向电泳(2-DE)分析,发现了16个表达差异明显的蛋白质。通过质谱分析(MALDI-TOF/TOF MS)和数据库检索,有14个差异蛋白质获得鉴定。其中磷酸烯醇式丙酮酸水合酶与能量代谢相关,T-蛋白复合体1、蛋白酶体、5-甲基四氢三谷氨酸-同型半胱氨酸甲基转移酶、1-吡咯琳-5-羧酸脱氢酶、精氨酸酶与氨基酸或蛋白质代谢直接相关,而GTP结合蛋白则参与细胞的多种生命活动,在细胞的生长发育过程中起着重要的作用。另外7个为功能未知的蛋白质。     

Identification of two KH domain proteins in the alpha-globin mRNP stability complex.

Accumulation of globin mRNAs during erythroid differentiation is dependent on their extraordinary stability. The longevity of human alpha-globin mRNA is associated with a ribonucleoprotein complex (alpha-complex) formed on the 3' untranslated region (3'UTR). One or more of the proteins within this alpha-complex contain strong polycytosine [poly(C)] binding (alpha PCB) activity. In the present report we purify alpha PCB activity from human erythroid K562 cells. Although not able to bind the alpha-globin 3'UTR directly, alpha PCB activity is sufficient to complement alpha-complex formation in a cytosolic extract depleted of poly(C) binding activity. Peptide microsequencing demonstrates that alpha PCB activity contains two structurally related poly(C) binding proteins. These two proteins, alpha-complex protein (alpha CP)-1 and -2, have an overall structural identity of 80% and contain three repeats of the K homology (KH) domain which is found in a subset of RNA binding proteins. Epitope-tagged recombinant alpha CP-1 and alpha CP-2 expressed in cells are each incorporated into the alpha-complex. We conclude that alpha CP-1 and alpha CP-2, members of the KH domain RNA binding protein family, are involved in formation of a sequence-specific alpha-globin mRNP complex associated with alpha-globin mRNA stability. As such this represents the first example of a specific function for this class of proteins and suggests potential roles for other members of this protein family.     

王浆主蛋白MRJP7基因在意大利蜜蜂体内的表达

王浆蛋白是蜂王浆生物功能的物质基础,是由王浆蛋白基因家族(mrjps)编码合成的。但部分家族成员如MRJP7在王浆中的含量极少甚至检测不到。基因功能与其在生物体内的时空表达特性相关,为探究mrjp7的生物学功能,本研究利用荧光定量PCR技术对mrjp7在不同发育时期的工蜂和成年工蜂、雄蜂和蜂王的不同组织部位的表达进行定量检测。结果显示mrjp7在成年雄蜂体内的表达水平最低,成年蜂王次之,且在它们的各不同组织部位之间的表达量差异较小。该基因在工蜂幼虫和蛹期的表达同样较低,但在羽化后9日龄前后的哺育蜂王浆腺和头部特异性高表达,这与哺育蜂分泌蜂王浆哺育幼虫和蜂王的功能是相适应的,该结果在转录水平上证实了mrjp7的营养功能,为进一步的研究和应用打下了理论基础。     

蜜蜂体内王浆主蛋白基因mrjp9的转录表达研究

蜜蜂体内有9种王浆蛋白基因(major royal jelly protein,MRJPs1～9),其中MRJPs1～5在蜂王浆中含量较高,是蜂王浆生物学功能的基础。MRJPs6～9在王浆中没有或含量极少,且功能未知。为研究非王浆蛋白组分的MRJP9的生物学功能,本研究用RT-PCR的方法对意大利蜜蜂Apis mellifera ligustica Spinola不同组织,不同部位,不同级型样本中mrjp9的转录水平进行检测和定量。结果发现mrjp9在蜜蜂的幼虫、蛹和成年蜜蜂的各组织部位均广泛转录表达,但其在幼虫、蛹和刚出房的成年蜜蜂体内表达水平较低,而在成年采集蜂体内表达水平则较高,其表达与蜜蜂的发育时期有关。通过对在成年蜜蜂体内各组织部位的表达水平进行检测的结果显示该基因主要在蜜蜂的头、胸和王浆腺等组织部位的表达较高,其他组织部位表达较少。此外,该基因也在雄蜂和蜂王体内广泛表达,不受蜜蜂性别和级型的影响。这些结果说明mrjp9是一与蜜蜂发育有关的基因,可能与蜜蜂的行为发育和分工调控有关。     

Comparative proteomic analysis between the domesticated silkworm (Bombyx mori) reared on fresh mulberry leaves and on artificial diet

To gain an insight into the effects of different diets on growth and development of the domesticated silkworm at protein level, we employed comparative proteomic approach to investigate the proteomic differences of midgut, hemolymph, fat body and posterior silk gland of the silkworms reared on fresh mulberry leaves and on artificial diet. Seventy-six differentially expressed proteins were identified by MALDI TOF/TOF MS, and among them, 41 proteins were up-regulated, and 35 proteins were downregulated. Database searches, combined with GO analysis and KEGG pathway analysis revealed that some hemolymph proteins such as Nuecin, Gloverin-like proteins, PGRP, P50 and beta/-N-acetylglucosamidase were related to innate immunity of the silkworm, and some proteins identified in silkworm midgut including Myosin 1 light chain, Tropomyosin 1, Profilin, Serpin-2 and GSH-Px were involved in digestion and nutrition absorption. Moreover, two up-regulated enzymes in fat body of larvae reared on artificial diet were identified as V-ATPase subunit B and Arginine kinase which participate in energy metabolism. Furthermore, 6 down-regulated proteins identified in posterior silk gland of silkworm larvae reared on artificial diet including Ribosomal protein SA, EF-2, EF-1gamma, AspAT, ERp57 and PHB were related to silk synthesis. Our results suggested that the different diets could alter the expression of proteins related to immune system, digestion and absorption of nutrient, energy metabolism and silk synthesis poor nutrition and absorption of nutrition in silkworm. The results also confirmed that the poor nutrient absorption, weakened innate immunity, decreased energy metabolism and reduced silk synthesis are the main reasons for low cocoons yield, inferior filament quality, low survival rate of young larvae and insufficient resistance against specific pathogens in the silkworms fed on artificial diet.