Antiapoptotic role of major royal jelly protein 8 of honeybee (Apis mellifera) venom

The dominant protein components of honeybee royal jelly (RJ) are major royal jelly proteins (MRJPs), which exhibit various biological properties. However, the biological basis of why bee venom contains MRJPs and what role MRJPs play in bee venom remains to be elucidated. This study reports the antiapoptotic role of MRJP 8 of Apis mellifera venom (AmMRJP 8) in melittin-treated mammalian cells. Recombinant AmMRJP 8 reduced caspase-3 activity and melittin-induced cell apoptosis. Additionally, recombinant AmMRJP 8 decreased the production levels of H₂O₂ and proinflammatory molecules. These results indicate that MRJP in bee venom plays a role in cell protection in bee venom-induced inflammatory responses.     

Origin and function of the major royal jelly proteins of the honeybee (Apis mellifera) as members of the yellow gene family

In the honeybee, Apis mellifera, the queen larvae are fed with a diet exclusively composed of royal jelly (RJ), a secretion of the hypopharyngeal gland of young worker bees that nurse the brood. Up to 15% of RJ is composed of proteins, the nine most abundant of which have been termed major royal jelly proteins (MRJPs). Although it is widely accepted that RJ somehow determines the fate of a female larva and in spite of considerable research efforts, there are surprisingly few studies that address the biochemical characterisation and functions of these MRJPs. Here we review the research on MRJPs not only in honeybees but in hymenopteran insects in general and provide metadata analyses on genome organisation of mrjp genes, corroborating previous reports that MRJPs have important functions for insect development and not just a nutritional value for developing honeybee larvae.     

Honeybee (Apis cerana) major royal jelly protein 4 exhibits antimicrobial activity

Major royal jelly proteins (MRJPs) are important protein components of bee royal jelly (RJ) and exhibit various biological and pharmacological activities. The antimicrobial activities of the royalisin and the jelleines contained within MRJP 1 and MRJP 2 in RJ have been elucidated. However, the antimicrobial effects of other MRJPs remain largely unknown. In this study, we demonstrated the antimicrobial activity of the Asiatic honeybee (Apis cerana) MRJP 4 (AcMRJP4). Recombinant AcMRJP4 was expressed as a 63-kDa protein in baculovirus-infected insect cells. We examined the antimicrobial activity of recombinant AcMRJP4 against bacteria, fungi, and yeast. The mechanisms underlying the antimicrobial activity of AcMRJP4 were assessed using western blot analysis, immunofluorescence staining, and scanning electron microscopy. Recombinant AcMRJP4 bound to the cell walls of bacteria, fungi, and yeast and induced structural damage in the microbial cell walls. AcMRJP4 has an antimicrobial role and exhibits a broad spectrum of antimicrobial activities against bacteria, fungi, and yeast. We demonstrated that AcMRJP4 functions as an antimicrobial agent with activity against bacteria, fungi, and yeast. Together, our data identified a novel function of MRJP 4 as an antimicrobial agent.     

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.     

Antioxidant capacity of major royal jelly proteins of honeybee (Apis mellifera) royal jelly

Major royal jelly proteins (MRJPs) of honeybee royal jelly (RJ) exhibit antimicrobial and antioxidant activities. Although MRJPs of Apis mellifera RJ (AmMRJPs) responsible for antibacterial activity have been identified, AmMRJPs with antioxidant effects remain to be elucidated. Here we identified and compared the antioxidant activities of purified recombinant AmMRJPs 1–7, which are expressed in baculovirus-infected insect cells. Antioxidant assays of recombinant AmMRJPs 1–7 against H₂O₂ revealed that AmMRJPs reduce caspase-3 activity and oxidative stress-induced cell apoptosis and lead to increased cell viability. Consistent with these results, AmMRJPs 1–7 exhibit 1,1-diphenyl-2-picrylhydrazyl radical-scavenging activity and protect against oxidative DNA damage. These results indicate that AmMRJPs play a role as antioxidants in A. mellifera RJ.     

Antimicrobial activity of major royal jelly protein 8 and 9 of honeybee (Apis mellifera) venom

Honeybee venom is a complex mixture of toxic components, including major royal jelly protein (MRJP) 8 and 9. MRJP 8 and MRJP 9 are allergens, and MRJP 8 reduces melittin-induced cell apoptosis. However, their functional roles are poorly understood, and their antimicrobial activities have not been determined. In this study, the antimicrobial role of MRJP 8 and MRJP 9 of honeybee (Apis mellifera) venom (AmMRJP 8 and AmMRJP 9) was demonstrated. The presence of AmMRJP 8 and AmMRJP 9 in the secreted venom was observed using antibodies against recombinant AmMRJP 8 and AmMRJP 9 produced in baculovirus-infected insect cells. Recombinant AmMRJP 8 and AmMRJP 9 exhibited an inhibitory activity against microbial serine proteases. Consistent with their inhibitory activity, they induced structural damage by binding to microbial surfaces, resulting in a broad-spectrum antimicrobial activity against bacteria and fungi. They had little effect on hemolysis. Therefore, AmMRJP 8 and AmMRJP 9 could function as antimicrobial agents in honeybee venom.     

Identification of a Royal Jelly Glycoprotein That Carries Unique Complex-Type N-Glycans Harboring the T-Antigen (Galβ1-3GalNAc) Unit

In this study, we identified a royal jelly glycoprotein (RJG) that carries a unique complex-type N-glycans harboring the T-antigen (Galβ1-3GalNAc) unit. The amino acid sequence of the tryptic glycopeptide harboring the T-antigen unit was G-E-S-L-X-K (X might be glycosylated Asn), confirmed in the major royal jelly glycoprotein 1 (MRJP1), which is also expressed in the mushroom body of the honeybee brain.     

蜂王浆蛋白生物学功能的研究

蜂王浆是哺育蜂咽下腺与上颚腺分泌的供3日龄以内蜜蜂幼虫和蜂王食用的浆状物质,具有多种生物活性。王浆含有丰富的蛋白质,通过直接分离纯化王浆中的蛋白质分子,或通过王浆蛋白基因克隆表达以获得表达产物,进而研究王浆蛋白的功能。研究发现王浆中含有多种具有特定功能的蛋白质,如MRJP3具有免疫调节作用,Jelleine-I-IV及Royalisin具有抗菌作用,MRJP1具有抗肿瘤功能及可能的蜜蜂行为调节功能,57kDa蛋白及Apisimin的促细胞生长功能,57kDa蛋白具有抗疲劳功能等。随着王浆蛋白组分分离、基因克隆表达及其功能研究的深入,王浆蛋白将被应用到生物医药、细胞培养、组织工程等更多的研究领域。     

Towards posttranslational modification proteome of royal jelly

Royal jelly (RJ) is a secretory protein from the hypopharyngeal glands of nurse honeybee workers, which contains a variety of proteins of which major royal jelly proteins (MRJPs) are some of the most important. It plays important roles both for honeybee and human. Each family of MRJP 1-5 displays a string of modified protein spots in the RJ proteome profile, which may be caused by posttranslational modifications (PTMs) of MRJPs. However, information on the RJ PTMs is still limited. Therefore, the PTM status of RJ was identified by using complementary proteome strategies of two-dimensional gel electrophoresis (2-DE), shotgun analysis in combination with high performance liquid chromatography-chip/electrospray ionization quadrupole time-of-flight/tandem mass spectrometry and bioinformatics. Phosphorylation was characterized in MRJP 1, MRJP 2 and apolipophorin-III-like protein for the first time and a new site was localized in venom protein 2 precursor. Methylation and deamidation were also identified in most of the MRJPs. The results indicate that methylation is the most important PTM of MRJPs that triggers the polymorphism of MRJP 1-5 in the RJ proteome. Our data provide a comprehensive catalog of several important PTMs in RJ and add valuable information towards assessing both the biological roles of these PTMs and deciphering the mechanisms underlying the beneficial effects of RJ for human health.     

意蜂王浆生产性能形态学遗传标记的研究

测定19只工蜂头部咽下腺的两条腺体长度和重量,经生统t检验,发现同一工蜂的左、右两条咽下腺长度、重量差异都不显著（P＜0.05）。测定11群 "浙农大1号"意蜂(Apis mellifera ligustica)的330只工蜂的头重、体重、头体重比、咽下腺小囊数和咽下腺长度。在2001年3月30日至4月26日浙江淳安的油菜和紫云英花期测定试验蜂群的王浆产量,分析工蜂头重、头体重比、咽下腺小囊数和咽下腺长度与每千克蜂的王浆产量之间的相关性,发现咽下腺长度与王浆产量的相关性最大,小囊数次之,咽下腺长度可作为意蜂王浆生产性能较理想的形态学遗传标记。 Abstract:The lengths of hypopharyngeal glands (HG) from the left and right side were determined in 19 workers of honeybee(Apis mellifera ligustica).There were no significant differences (P＜0.05) in length between the left and the right in one worker′s hypopharyngeal gland.Three hundred and thirty workers were collected from eleven colonies of "ZND No.1" Italian honeybee(Apis mellifera ligustica) respectively.Head weight,body weight,ratio between head weight and body weight,bursa number and length of hypopharyngeal gland(HG)were tested in these samples.Royal jelly productions were determined during the flowing period of rape and Chinese milk retch from March 30 to April 26 in Chun′an County of Zhejiang Province in 2001.The correlation analysis between royal jelly production and head weight,ratio between head weight and body weight,bursa number of HG,and length of HG were conducted.The correlation coefficient between royal jelly production and length of HG was the largest.The correlation coefficient between royal jelly production and bursa number was the second.It was suggested that the length of HG could be used as one of genetic markers for the production performance of royal jelly.     

Antibacterial activity of major royal jelly proteins of the honeybee (Apis mellifera) royal jelly

Major royal jelly proteins (MRJPs) are the protein components in royal jelly (RJ). MRJPs 1–7 are detected in the honeybee Apis mellifera RJ. Although A. mellifera MRJP (AmMRJP) 2 exhibited antibacterial activity, the other MRJPs with antimicrobial activities in A. mellifera RJ remains largely unknown. Here, we compared the antibacterial activity of recombinant AmMRJPs 1–7 expressed in baculovirus-infected insect cells. Antibacterial assays of recombinant AmMRJPs 1–7 against the gram-negative bacterium Escherichia coli revealed that AmMRJPs 2–5 and 7 exhibited antibacterial activity, whereas AmMRJPs 1 and 6 displayed almost no antibacterial activity. Consistent with the antibacterial activity of AmMRJPs, AmMRJPs 2–5 and 7 are bound to bacterial cell walls. These results indicated that AmMRJPs 2–5 and 7 contribute directly to the antibacterial property of RJ, suggesting that MRJPs play a role in the antimicrobial property of RJ.     

Transcriptome differences in the hypopharyngeal gland between Western Honeybees (Apis mellifera) and Eastern Honeybees (Apis cerana)

Background

Apis mellifera and Apis cerana are two sibling species of Apidae. Apis cerana is adept at collecting sporadic nectar in mountain and forest region and exhibits stiffer hardiness and acarid resistance as a result of natural selection, whereas Apis mellifera has the advantage of producing royal jelly. To identify differentially expressed genes (DEGs) that affect the development of hypopharyngeal gland (HG) and/or the secretion of royal jelly between these two honeybee species, we performed a digital gene expression (DGE) analysis of the HGs of these two species at three developmental stages (newly emerged worker, nurse and forager).

Results

Twelve DGE-tag libraries were constructed and sequenced using the total RNA extracted from the HGs of newly emerged workers, nurses, and foragers of Apis mellifera and Apis cerana. Finally, a total of 1482 genes in Apis mellifera and 1313 in Apis cerana were found to exhibit an expression difference among the three developmental stages. A total of 1417 DEGs were identified between these two species. Of these, 623, 1072, and 462 genes showed an expression difference at the newly emerged worker, nurse, and forager stages, respectively. The nurse stage exhibited the highest number of DEGs between these two species and most of these were found to be up-regulated in Apis mellifera. These results suggest that the higher yield of royal jelly in Apis mellifera may be due to the higher expression level of these DEGs.

Conclusions

In this study, we investigated the DEGs between the HGs of two sibling honeybee species (Apis mellifera and Apis cerana). Our results indicated that the gene expression difference was associated with the difference in the royal jelly yield between these two species. These results provide an important clue for clarifying the mechanisms underlying hypopharyngeal gland development and the production of royal jelly.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-744) contains supplementary material, which is available to authorized users.     

The Family of Major Royal Jelly Proteins and Its Evolution

A cDNA encoding a new member of the gene family of major royal jelly proteins (MRJPs) from the honeybee, Apis mellifera, was isolated and sequenced. Royal jelly (RJ) is a secretion of the cephalic glands of nurse bees. The origin and biological function of the protein component (12.5%, w/w) of RJ is unknown. We show that the MRJP gene family encodes a group of closely related proteins that share a common evolutionary origin with the yellow protein of Drosophila melanogaster. Yellow protein functions in cuticle pigmentation in D. melanogaster. The MRJPs appear to have evolved a novel nutritional function in the honeybee. Received: 26 September 1998 / Accepted: 28 February 1999     

Quantification of Major Royal Jelly Protein 1 in Fresh Royal Jelly by Indirect Enzyme-Linked Immunosorbent Assay

Rabbit polyclonal antibody produced by a major royal jelly protein 1 (MRJP1) specific peptide reacted only with a MRJP1. Indirect ELISA with the antibody revealed a MRJP1 level of 4.12–4.67 g/100 g in different company's royal jelly, which almost agreed with that of a hexametric form of MRJP1 (apisin) measured by high performance liquid chromatography. These results suggest that MRJP1 exists mainly as apisin in royal jelly.     

Molecular characterization of MRJP3, highly polymorphic protein of honeybee (Apis mellifera) royal jelly.

Major proteins of honey bee (Apis mellifera) royal jelly are members of the MRJP protein family. One MRJP protein termed MRJP3 exhibits a size polymorphism as detected by SDS-PAGE. In this report we show that polymorphism of the MRJP3 protein is a consequence of the polymorphism of a region with a variable number of tandem repeats (VNTR) located at the C-terminal part of the MRJP3 coding region. We present the characterization of five polymorphic alleles of MRJP3 by DNA sequencing. By PCR analyses, at least 10 alleles of distinct sizes were found in randomly sampled bees. Studies with nurse bees from a single honeybee colony revealed both Mendelian inheritance and very high variability of the MRJP3 genomic locus. The high variability and simple detection of the MRJP3 polymorphism may be useful for genotyping of individuals in studies of the honeybee.     

Major royal jelly protein 2 acts as an antimicrobial agent and antioxidant in royal jelly

Royal jelly (RJ) is a well-known functional and medicinal food for human health promotion. Major royal jelly proteins (MRJPs), which are the major protein components in RJ, exhibit antimicrobial activities. However, the identities of the MRJPs of RJ responsible for its antioxidant effects have remained unclear. Here, we report that honeybee (Apis cerana) MRJP 2 (AcMRJP2) acts as an antimicrobial and antioxidant agent in RJ. Using recombinant AcMRJP2, which was produced in baculovirus-infected insect cells, we established the antimicrobial and antioxidant roles of MRJP 2. AcMRJP2 bound to the surfaces of bacteria, fungi, and yeast, which then induced structural damage in the microbial cell walls and led to a broad spectrum of antimicrobial activities. AcMRJP2 protected mammalian and insect cells via the direct shielding of the cell against oxidative stress, which led to reduced levels of caspase-3 activity and oxidative stress-induced cell apoptosis, followed by increased cell viability. Moreover, AcMRJP2 exhibited DNA protection activity against reactive oxygen species (ROS). Our data indicate that AcMRJP2 could play a crucial role as an antimicrobial agent and antioxidant in RJ, suggesting that MRJP 2 is a component responsible for the antimicrobial and antioxidant activities of RJ.     

Antimicrobial activity of the C-terminal of the major royal jelly protein 4 in a honeybee (Apis cerana)

The protein component of honeybee royal jelly (RJ) is constituted by major royal jelly proteins (MRJPs). The Asiatic honeybee (Apis cerana) MRJP-4 (AcMRJP4) exhibits antimicrobial activities. In this study, we identified the antimicrobial activity of AcMRJP4-15, which is a hydrophilic peptide with 88 amino acid residues in the C-terminal of AcMRJP4 that contains a high content of Asn and positively charged amino acids. Recombinant AcMRJP4-15, which is expressed as a 15-kDa peptide in baculovirus-infected insect cells, induced structural damage to the cell walls of bacteria, fungi, and yeast. Interestingly, the antimicrobial activity of AcMRJP4-15 was greater than that of AcMRJP4, demonstrating that the antimicrobial activity of AcMRJP4 was due in large part to the C-terminal. Our data suggest that AcMRJP4-15 can function as an effective antimicrobial agent.     

The MRJP/YELLOW protein family of Apis mellifera: identification of new members in the EST library

Major royal jelly proteins (named MRJP1-5) of honeybee (Apis mellifera), yellow proteins of Drosophila, together with putative proteins found in several bacteria, form a protein family termed the MRJP/yellow family. Members of the family exert diverse physiological functions and amongst eukaryotes appear to be restricted to the order Insecta. MRJPs constitute about 90% of total protein of royal jelly, which is secreted by nurse bees to feed the queen and growing larvae. We looked for mrjp and yellow homologues in a honeybee brain expressed sequence tags (EST) library. In addition to the five mrjp cDNAs previously characterized, we found three additional cDNAs encoding novel MRJPs and importantly, two cDNAs coding for orthologues of Drosophila yellow proteins. One yellow cDNA and all three cDNAs coding for the novel MRJPs were assembled completely, the sequence of the other yellow homologue was partially assembled. The data we present here supports the view that repeated duplications and functional divergence occurred during the evolution of MRJPs in honeybees, with even closely related MRJPs appearing to perform diverse physiological functions. Conversely, yellow protein orthologues appear to be conserved and thus candidates for maintaining the former function(s) of yellow proteins.     

蜂王浆主蛋白研究进展

作为社会性昆虫,蜜蜂是研究社会行为和学习记忆的理想模式生物。王浆主蛋白（Major royal jelly protein, MRJP）是蜂王浆中蛋白质的主要成分,该家族一共有9个成员,MRJP1~MRJP9。所有mrjps均以串联排列的形式位于蜜蜂11号染色体上一个大约60 kb的DNA片段上。mrjp的同源体也存在于其他的膜翅目昆虫,均是通过yellow进化而来的。随着不断地进化,MRJPs家族进化出许多重要功能,其中最主要的就是营养功能。本文从MRJPs家族的基因及蛋白质结构、mRNA表达情况、进化和功能等方面进行综述,为今后开展相关研究提供理论支持。