The Potential Role of As-sumo-1 in the Embryonic Diapause Process and Early Embryo Development of Artemia sinica

During embryonic development of Artemia sinica, environmental stresses induce the embryo diapause phenomenon, required to resist apoptosis and regulate cell cycle activity. The small ubiquitin-related modifier-1 (SUMO), a reversible post-translational protein modifier, plays an important role in embryo development. SUMO regulates multiple cellular processes, including development and other biological processes. The molecular mechanism of diapause, diapause termination and the role of As-sumo-1 in this processes and in early embryo development of Artemia sinica still remains unknown. In this study, the complete cDNA sequences of the sumo-1 homolog, sumo ligase homolog, caspase-1 homolog and cyclin B homolog from Artemia sinica were cloned. The mRNA expression patterns of As-sumo-1, sumo ligase, caspase-1, cyclin B and the location of As-sumo-1 were investigated. SUMO-1, p53, Mdm2, Caspase-1, Cyclin B and Cyclin E proteins were analyzed during different developmental stages of the embryo of A. sinica. Small interfering RNA (siRNA) was used to verify the function of sumo-1 in A. sinica. The full-length cDNA of As-sumo-1 was 476 bp, encoding a 92 amino acid protein. The As-caspases-1 cDNA was 966 bp, encoding a 245 amino-acid protein. The As-sumo ligase cDNA was 1556 bp encoding, a 343 amino acid protein, and the cyclin B cDNA was 739 bp, encoding a 133 amino acid protein. The expressions of As-sumo-1, As-caspase-1 and As-cyclin B were highest at the 10 h stage of embryonic development, and As-sumo ligase showed its highest expression at 0 h. The expression of As-SUMO-1 showed no tissue or organ specificity. Western blotting showed high expression of As-SUMO-1, p53, Mdm2, Caspase-1, Cyclin B and Cyclin E at the 10 h stage. The siRNA caused abnormal development of the embryo, with increased malformation and mortality. As-SUMO-1 is a crucial regulation and modification protein resumption of embryonic diapause and early embryo development of A. sinica.     

Studies on embryonic diapause in thepnd mutant of the silkworm,Bombyx mori

Summary Two-dimensional gel electrophoresis has been used to analyse patterns of proteins synthesized in the eggs from theBombyx mutantpnd, whose homozygous embryo never enters diapause owing to a genetic defect. At the middle to late stage of gastrulation the diapause type of the heterozygous embryo, derived from a homozygouspnd female mated to a wild-type male, synthesizes eight proteins which are not detected in the homozygouspnd embryo. To examine the relationship between embryonic diapause and the appearance of the heterozygote-specific proteins, the pattern of proteins synthesized in the heterozygotes of the diapause type was compared with that in heterozygotes which were artificially altered so that they would continue development. Only one of the eight heterozygote-specific proteins was constitutively synthesized according to the embryonic genome, irrespective of their developmental state, whereas appearance of the remaining seven proteins was exclusively dependent on their developmental nature. This finding strongly suggests that the unique protein might result from the expression of thepnd ⁺ gene, and the other proteins might be synthesized along with diapause initiation in the heterozygotes. The possible role of the putativepnd ⁺ gene-specific protein at the onset of embryonic diapause is discussed in relation to the action of the diapause factor, which predetermines embryonic diapause by affecting the developing oocytes.     

Identification of the glycerol kinase gene and its role in diapause embryo restart and early embryo development of Artemia sinica

Glycerol kinase (GK) catalyzes the rate-limiting step in glycerol utilization by transferring a phosphate from ATP to glycerol, yielding glycerol 3-phosphate, which is an important intermediate for both energy metabolism and glycerolipid production. Artemia sinica has an unusual diapause process under stress conditions of high salinity, low temperature and lack of food. In the process, diapause embryos of A. sinica (brine shrimp) accumulate high concentrations of glycerol as a cryoprotectant to prevent low temperature damage to embryos. Upon embryo restart, glycerol is converted into glucose and other carbohydrates. Therefore, GK plays an important role in the diapause embryo restart process. However, the role of GK in diapause termination of embryo development in A. sinica remains unknown.     

The Small Heat Shock Protein p26 Aids Development of Encysting Artemia Embryos, Prevents Spontaneous Diapause Termination and Protects against Stress

Artemia franciscana embryos enter diapause as encysted gastrulae, a physiological state of metabolic dormancy and enhanced stress resistance. The objective of this study was to use RNAi to investigate the function of p26, an abundant, diapause-specific small heat shock protein, in the development and behavior of encysted Artemia embryos (cysts). RNAi methodology was developed where injection of Artemia females with dsRNA specifically eliminated p26 from cysts. p26 mRNA and protein knock down were, respectively, confirmed by RT-PCR and immuno-probing of western blots. ArHsp21 and ArHsp22, diapause-related small heat shock proteins in Artemia cysts sharing a conserved α-crystallin domain with p26, were unaffected by injection of females with dsRNA for p26, demonstrating the specificity of protein knock down. Elimination of p26 delayed cyst release from females demonstrating that this molecular chaperone influences the development of diapause-destined embryos. Although development was slowed the metabolic activities of cysts either containing or lacking p26 were similar. p26 inhibited diapause termination after prolonged incubation of cysts in sea water perhaps by a direct effect on termination or indirectly because p26 is necessary for the preservation of diapause maintenance. Cyst diapause was however, terminated by desiccation and freezing, a procedure leading to high mortality within cyst populations lacking p26 and indicating the protein is required for stress tolerance. Cysts lacking p26 were also less resistant to heat shock. This is the first in vivo study to show that knock down of a small heat shock protein slows the development of diapause-destined embryos, suggesting a role for p26 in the developmental process. The same small heat shock protein prevents spontaneous termination of diapause and provides stress protection to encysted embryos.     

Molecular chaperones, stress resistance and development in Artemia franciscana

Embryos of the brine shrimp, Artemia franciscana, either develop directly into swimming larvae or are released from females as encysted gastrulae (cysts) which enter diapause, a reversible state of dormancy. Metabolic activity in diapause cysts is very low and these embryos are remarkably resistant to physiological stresses. Encysting embryos, but not those undergoing uninterrupted development, synthesize large amounts of two proteins, namely p26 and artemin. Cloning and sequencing demonstrated p26 is a small heat shock/alpha-crystallin protein while artemin has structural similarity to ferritin. p26 exhibits molecular chaperone activity in vitro, moves reversibly into nuclei during stress and confers thermotolerance on transformed organisms, suggesting critical roles in cyst development. The function of artemin is unknown. Encysted Artemia also contain an abundance of trehalose, a disaccharide capable of protecting embryos. Artemia represent a novel experimental system where the developmental functions of small heat shock/alpha-crystallin proteins and other stress response elements can be explored.     

Matrix metalloproteinase-3 induction in rat brain astrocytes: focus on the role of two AP-1 elements

Embryos of the crustacean, Artemia franciscana, undergo alternative developmental pathways, producing either larvae or encysted embryos (cysts). The cysts enter diapause, characterized by exceptionally high resistance to environmental stress, a condition thought to involve the sHSP (small heat-shock protein), p26. Subtractive hybridization has revealed another sHSP, termed ArHsp21, in diapause-destined Artemia embryos. ArHsp21 shares sequence similarity with p26 and sHSPs from other organisms, especially in the alpha-crystallin domain. ArHsp21 is the product of a single gene and its synthesis occurred exclusively in diapause-destined embryos. Specifically, ArHsp21 mRNA appeared 2 days post-fertilization, followed 1 day later by the protein, and then increased until embryo release at day 5. No ArHsp21 protein was detected in embryos developing directly into larvae, although there was a small amount of mRNA at 3 days post-fertilization. The protein was degraded during post-diapause development and had disappeared completely from second instar larvae. ArHsp21 formed large oligomers in encysted embryos and transformed bacteria. When purified from bacteria, ArHsp21 functioned as a molecular chaperone in vitro, preventing heat-induced aggregation of citrate synthase and reduction-driven denaturation of insulin. Sequence characteristics, synthesis patterns and functional properties demonstrate clearly that ArHsp21 is an sHSP able to chaperone other proteins and contribute to stress tolerance during diapause. As such, ArHsp21 would augment p26 chaperone activity and it may also possess novel activities that benefit Artemia embryos exposed to stress.     

Purification and characterization of a cytosol protease from dormant cysts of the brine shrimp Artemia

A thiol protease has been isolated and purified from the postribosomal fraction of encysted embryos of the brine shrimp Artemia using a six-step procedure. The purified enzyme has a molecular weight of 55,000 +/- 4,200 and is composed of subunits of Mr 31,500 +/- 559 and 25,867 +/- 1,087. Isoelectric focusing revealed two discrete bands, one at pH 4.6 and the other at pH 5.1. The protease appears to be a member of the thiol group of proteases based on its inhibition by leupeptin, antipain, chymostatin, Ep-475, and several other thiol protease inhibitors. The enzyme was stimulated by heavy metal chelators and thiol reagents. At pH 3.5-4.0 the thiol protease hydrolyzed a wide range of proteins including bovine serum albumin, hemoglobin, Artemia embryo soluble proteins, Artemia lipovitelline, and protamine, whereas at pH 6.0-6.5 the enzyme showed a high degree of specificity for Artemia elongation factor 2 and lipovitelline alpha 1. The total amount of protease activity in crude homogenates of Artemia embryos decreased by about 50% during the first 24 h of development, while the amount of free, active enzyme decreased proportionally for 9 h of development then remained constant during the next 26-27 h of development. These changes in protease activity appear to reflect changing levels of an endogenous protease inhibitor during development.     

基于转录组测序的卤虫卵生和卵胎生相关基因表达研究

为揭示卤虫(Artemia)不同繁殖模式的发生机制, 文章通过构建孤雌生殖卤虫卵生和卵胎生差异转录组文库并结合生物信息学分析, 对两种繁殖模式间的差异表达基因进行查找筛选, 然后利用qRT-PCR对候选繁殖模式相关基因的表达进行分析。转录组测序显示有1452个差异表达基因, 包括601个上调基因和851个下调基因。根据差异表达基因GO功能分类结果可知, 注释到生物过程、细胞组成和分子功能的unigene分别有1243、306和530个。KEGG富集分析结果显示差异基因显著富集在抗原加工和核糖体通路中。结合转录组分析, 进一步筛选得到6个生殖相关基因, 并针对不同繁殖模式下的卤虫进行qRT-PCR, 结果表明, 6个生殖相关基因在卵生卤虫卵巢中的表达量均显著高于卵胎生卤虫。此外, 对6个候选生殖相关基因编码的蛋白质保守结构域进行预测, 发现均与之前报道的相应基因保守结构域一致。综上所述, 研究所选择的6个基因可能影响参与了卤虫的生殖过程。研究结果为孤雌卤虫繁殖模式分子机制调控的研究提供了基础信息, 有助于完善卤虫的生殖生物学理论。     

Deubiquitinating enzyme BAP1 is involved in the formation and maintenance of the diapause embryos of Artemia

The modification of proteins by ubiquitination and deubiquitination plays an important role in various cellular processes. BRCA1-associated protein-1 (BAP1) is a deubiquitinating enzyme whose function in the control of the cell cycle requires both its deubiquitinating activity and nuclear localization. In the present study, a ubiquitin carboxyl-terminal hydrolase belonging to the BAP1 family was identified and characterized from Artemia parthenogenetica, a member of a family of brine shrimp that, under certain conditions, produce and release diapause embryos in which cell division and turnover of macromolecules are arrested. Western blot analysis and in vitro enzyme activity assay revealed ArBAP1 to be a cytoplasmic protein with typical ubiquitin hydrolase activity. Northern blot analysis revealed that ArBAP1 was abundant in the abdomen of Artemia producing diapause-destined embryos. Furthermore, by in situ hybridization, ArBAP1 was located exclusively in the embryos. In vivo knockdown of ArBAP1 by RNA interference resulted in the formation of embryos with split shells and abortive nauplii. The present findings suggest that ArBAP1, the first reported cytoplasmic BAP1, participates in the formation of diapause embryos and plays an important role in the control of cell cycle arrest in these encysted embryos.     

Inhibition of apoptosis by p26: implications for small heat shock protein function during Artemia development

p26, an abundantly expressed small heat shock protein, is thought to establish stress resistance in oviparously developing embryos of the crustacean Artemia franciscana by preventing irreversible protein denaturation, but it might also promote survival by inhibiting apoptosis. To test this possibility, stably transfected mammalian cells producing p26 were generated and their ability to resist apoptosis induction determined. Examination of immunofluorescently stained transfected 293H cells by confocal microscopy demonstrated p26 is diffusely distributed in the cytoplasm with a minor amount of the protein in nuclei. As shown by immunoprobing of Western blots, p26 constituted approximately 0.6% of soluble cell protein. p26 localization and quantity were unchanged during prolonged culture, and the protein had no apparent ill effects on transfected cells. Molecular sieve chromatography in Sepharose 6B revealed p26 oligomers of about 20 monomers, with a second fraction occurring as larger aggregates. A similar pattern was observed in sucrose gradients, but overall oligomer size was smaller. Mammalian cells containing p26 were more thermotolerant than cells transfected with the expression vector only, and as measured by annexin V labeling, Hoescht 33342 nuclear staining and procaspase-3 activation, transfected cells effectively resisted apoptosis induction by heat and staurosporine. The ability to confer thermotolerance and limit heat-induced apoptosis is important because Artemia embryos are frequently exposed to high temperature in their natural habitat. p26 also blocked apoptosis in transfected cells during drying and rehydration, findings with direct relevance to Artemia life history characteristics because desiccation terminates cyst diapause. Thus, in addition to functioning as a molecular chaperone, p26 inhibits apoptosis, an activity shared by other small heat shock proteins and with the potential to play an important role during Artemia embryo development.     

Purification and partial characterization of thiol protease inhibitors from embryos of the brine shrimp Artemia.

Thiol protease inhibitor (TPI) proteins in embryos of the brine shrimp Artemia were purified to apparent homogeneity and several of their properties were studied. Four protein fractions containing thiol protease inhibitor activity were obtained by high performance liquid chromatography of Artemia embryo proteins on a C-18 reverse-phase column and these were designated as TPI-1a, -1b, -2, and -3. Acrylamide gel electrophoresis showed that TPI-1a and TPI-1b each consisted of two bands of 11.8 and 13.6 kilodaltons (kDa), while TPI-2 and TPI-3 consisted of only one band of 12.5 kDa. Isoelectric focusing experiments demonstrated that TPI-3 contained one band at pH 5.3, while both TPI-1b and TPI-2 yielded bands at pH 5.2 and 5.3. TPI-1a did not yield any major bands. Amino acid composition analyses of the Artemia TPI proteins showed them to be remarkably similar to one another. All were rich in valine and aspartic and glutamic acids, and devoid of cysteine. Partial trypsin digestion of TPI-1b, TPI-2, and TPI-3 yielded several peptides with identical mobilities on a reverse-phase column and several other peptides with different mobilities, suggesting that the multiple forms of Artemia TPIs may have originated from the same parental protein. N-terminal amino acid sequence analyses of TPI-3 suggest that Artemia TPI proteins are members of the type I cystatin family of protease inhibitors.     

Stress-related proteins compared in diapause and in activated, anoxic encysted embryos of the animal extremophile, Artemia franciscana

Previous work indicated similarities between diapause and anoxic quiescence in encysted embryos (cysts) of the brine shrimp Artemia franciscana. That possibility was examined further in the present study through an immunochemical study of the following stress-related proteins in low speed supernatants and pellets: hsc70, artemin, p26, hsp21, LEA Group 1 protein and p8. Changes in the amounts and locations of these proteins occurred during the initial period after release of diapause cysts from females, and after activated (diapause-terminated) cysts were made anoxic. However, with the passage of incubation time the patterns seen in both kinds of cysts were more similar than different, lending further support to the possibility that activated anoxic embryos retain many of the mechanisms operative in the previous diapause condition.     

A two-dimensional proteome map of maize endosperm

We have established a proteome reference map for maize (Zea mays L.) endosperm by means of two-dimensional gel electrophoresis and protein identification with LC-MS/MS analysis. This investigation focussed on proteins in major spots in a 4-7 pI range and 10-100 kDa M(r) range. Among the 632 protein spots processed, 496 were identified by matching against the NCBInr and ZMtuc-tus databases (using the SEQUEST software). Forty-two per cent of the proteins were identified against maize sequences, 23% against rice sequences and 21% against Arabidopsis sequences. Identified proteins were not only cytoplasmic but also nuclear, mitochondrial or amyloplastic. Metabolic processes, protein destination, protein synthesis, cell rescue, defense, cell death and ageing are the most abundant functional categories, comprising almost half of the 632 proteins analyzed in our study. This proteome map constitutes a powerful tool for physiological studies and is the first step for investigating the maize endosperm development.     

Localization of arabinogalactan-proteins in different stages of embryos and their role in cotyledon formation of <Emphasis Type="Italic">Nicotiana tabacum</Emphasis> L.

Arabinogalactan proteins (AGPs) have been implicated in plant development including sexual plant reproduction. In this paper, the expression of AGPs and the effects of β-glucosyl Yariv reagent (βGlcY, which binds arabinogalactan proteins) in embryo development and cotyledon formation were investigated. Immunofluorescence assay displayed that the expression of AGPs labeled with antibody JIM13 was developmentally regulated. In early stages, AGPs were evenly distributed in the whole embryo, except for a short polar expression in the basal suspensor cell. In the globular stage of embryo, AGPs were condensed in the embryo proper (EP), apex of the EP, and at the juncture of the EP and suspensor. In heart-shaped embryo, APGs were only present at the juncture of the EP and suspensor. Immunogold labeling assay showed that the strong expression of AGPs at the juncture of the EP and suspensor was localized in the cell wall. Provision of βGlcY to the in vitro ovule culture medium caused delayed growth of embryos, cotyledon defect and abnormal venation pattern. Consequently, βGlcY induced the death of defective seedlings with the characteristics of deformed or irregular single cotyledon. Our results suggested that AGPs play functional roles in embryo development, cotyledon formation and seedling morphology establishment in Nicotiana tabacum L.     

Characterization of the microtubule proteome during post-diapause development of Artemia franciscana

The microtubule proteome encompasses tubulin and a diverse group of proteins which associate with tubulin upon microtubule formation. These proteins either determine microtubule organization and function or their activity is influenced by microtubule association. To characterize the microtubule proteome in Artemia franciscana, tubulin assembly was induced with taxol in vitro after 0 and 12 h of post-diapause development. Proteins obtained by extraction of microtubules with 0.5 M NaCl were electrophoresed in two-dimensional gels and analyzed by mass spectrometry. Fifty-five proteins were identified with 10 of these occurring at both developmental stages, and multiple isoforms were observed for some proteins of the Artemia proteome. Their functions include roles in membrane transport, metabolism, chaperoning and protein synthesis, thus reflecting physiological properties of encysted Artemia such as stress resistance and the ability to rapidly initiate post-diapause development. For example, chaperones may protect tubulin during encystment and facilitate folding in metabolically active embryos. Additionally, the interaction of metabolic enzymes with microtubules funnels reaction intermediates, potentially enhancing efficiency within biochemical processes. This study represents the first systematic characterization of a crustacean microtubule proteome. Although it is difficult to be certain that all protein associations documented herein occur in vivo, the results suggest how protein-protein interactions contribute to cytoplasmic organization while implying how Artemia embryos resist stress and remain capable of development once diapause terminates.