Suppression of collagen‐induced arthritis by oral administration of transgenic rice seeds expressing altered peptide ligands of type II collagen

Rheumatoid arthritis (RA) is an autoimmune disease associated with the recognition of self proteins secluded in arthritic joints. We previously reported that altered peptide ligands (APLs) of type II collagen (CII256‐271) suppress the development of collagen‐induced arthritis (CIA). In this study, we generated transgenic rice expressing CII256‐271 and APL6 contained in fusion proteins with the rice storage protein glutelin in the seed endosperm. These transgene products successfully and stably accumulated at high levels (7–24 mg/g seeds) in protein storage vacuoles (PB‐II) of mature seeds. We examined the efficacy of these transgenic rice seeds by performing oral administration of the seeds to CIA model mice that had been immunized with CII. Treatment with APL6 transgenic rice for 14 days significantly inhibited the development of arthritis (based on clinical score) and delayed disease onset during the early phase of arthritis. These effects were mediated by the induction of IL‐10 from CD4⁺ CD25^? T cells against CII antigen in splenocytes and inguinal lymph nodes (iLNs), and treatment of APL had no effect on the production of IFN‐γ, IL‐17, IL‐2 or Foxp3⁺ Treg cells. These findings suggest that abnormal immune suppressive mechanisms are involved in the therapeutic effect of rice‐based oral vaccine expressing high levels of APLs of type II collagen on the autoimmune disease CIA, suggesting that the seed‐based mucosal vaccine against CIA functions via a unique mechanism.     

Purification and characterization of midgut α-amylases of Eurygaster integriceps

In the current study, midgut α-amylase from Sunn pest ( Eurygaster integriceps Puton) (Hemiptera: Scutelleridae), one of the most serious pests of wheat and barley in the wide area of the Near and Middle East, West Asia, and many of the new independent states of central Asia, were purified and characterized. Amylase activity was detected in the midgut of the insects which were collected from both over-wintering sites during winter and feeding insects during spring. Amylase activities in the midgut of over-wintering and feeding insects were 5.71 and 3.43 U/mg protein, respectively. Initially, a native electrophoretic analysis of E. integriceps crude midgut extract showed that there are two major amylase forms in the midgut. Through the sequence of ammonium sulfate precipitation, first by gel filtration chromatography (Sephadex G-75), anion exchange chromatography (diethylaminoethylcellulose) and second by gel filtration chromatography, specific activity of α-amylase of E. integriceps increased 44-fold from approximately 3 to 133 U/mg protein. Analysis of purified amylases by sodium dodecylsulfate polyacrylamide gel electrophoresis showed that these proteins had estimated molecular masses of 49 and 52 kDa. Optimum temperature was determined to be 30–40°C. The optimum pH value was 6.5 and the K _mapp for soluble starch was 0.54%.     

Induction of α-amylase by maltooligosaccharides in Thermomonospora curvata

The action pattern of the α-amylase produced by Thermomonospora curvata is unique. Maltooligosaccharides (maltose to maltopentaose) were tested individually for their ability to induce α-amylase in this thermophilic actinomycete. Maltotetraose was the most inductive followed by maltotriose. Maltose was a good inducer of amylase production when used as sole carbon source, but had relatively little inductive capacity in the presence of either glucose or cellobiose. When cellobiose was added during exponential growth on maltose, maltose utilization and extracellular α-amylase accumulation were transiently inhibited. With maltotriose as the initial carbon source, addition of cellobiose did not inhibit the utilization of the trisaccharide; however, cellobiose, whether added during exponential growth or stationary phase, resulted in the rapid degradation of amylase when maltotriose was depleted from the medium. This inactivation did not appear to be a growth phase-induced phenomenon because stationary phase cells in the absence of cellobiose maintained their peak extracellular amylase level. This cellobiose-mediated α-amylase inactivation would be particularly important during production of the enzyme on a complex lignocellulosic substrate.     

Accumulation of Japanese cedar pollen allergen,Cry j 1, in the protein body I of transgenic rice seeds using the promoter and signal sequence of glutelin GluB-1 gene

Recombinant Cry j 1, a Japanese cedar pollen allergen, was produced in rice seeds for potential use for oral immunotherapy. Cry j 1 cDNA was divided into two parts, an N-terminal half and a C-terminal half, and each was fused downstream to glutelin GluB-1 gene containing sequences of the promoter, 5 untranslated region and signal peptide. A gene for green fluorescent protein was also fused to the 3 end of the Cry j 1 fragment. Recombinant Cry j 1 of up to 16.6 g per mg total protein of the seeds was expressed in transgenic rice seeds. Although the recombinant Cry j 1 was expected to be accumulated in protein body II because of the employment of glutelin signal peptide, it was demonstrated to be accumulated exclusively in protein body I. The recombinant Cry j 1 was not shown to react with IgE of allergic patients, indicating the reduction of the risk of anaphylactic reaction. These results demonstrate that the transgenic rice seeds with the recombinant Cry j 1 would be useful for the study of oral immunotherapy.     

Isolation and Activity Analysis of a Seed-Abundant soyAP1 Gene Promoter from Soybean

The soybean aspartic proteinase gene soyAP1 has previously been shown to be expressed specifically in soybean seeds. To investigate the expression pattern and active cis-elements of the soyAP1 promoter, the 1,650-bp 5??-upstream genomic DNA fragment named PS-552 was isolated by PCR walking. Sequence analysis revealed that this fragment contains a series of motifs related to seed-specific promoters and some pollen-expressed elements. Stable expression in transgenic Arabidopsis thaliana showed that the PS-552 promoter can regulate beta-glucuronidase gene accumulation in mature seeds at much higher levels than other tissues, especially vegetative tissues, and exhibits similar activity to the 35S promoter in mature seeds. These results show that the PS-552 promoter is a highly active promoter controlling downstream gene expression, mainly in mature seeds. The 5??-end deletion studies of PS-552 showed that the cis-elements of CAAACAC, AACA, E-box, and CCAA play a role in increasing the seed-specific activity. The proportion of mature seed activity and flower activity was increased as the deletion fragment lengthened, indicating that seed cis-elements possibly lessen or suppress the effect of pollen-expressed elements, increasing the activity of PS-552 in mature seeds.     

The suppression of the glutelin storage protein gene in transgenic rice seeds results in a higher yield of recombinant protein

Glutelin is a major seed storage protein, accounting for 60?C80?% of the total endosperm protein content in rice. To test whether we could augment the expression of an introduced recombinant protein in rice by suppressing the glutelin gene, we generated transgenic glutelin RNAi (glu RNAi) rice seeds. RNA gel blot analyses confirmed that the endogenous glutelin gene was severely suppressed in these transgenic rice lines. RT-PCR analysis further revealed that all the members of glutelin multigene family were downregulated. Transgenic glu RNAi rice seeds expressing a recombinant red fluorescent protein (RFP) showed stronger fluorescence than seeds transformed with the RFP gene only. Western blot analysis further revealed that the relative accumulation of RFP in glu RNAi seeds was twofold higher than that in the RFP-only transgenic seeds. These results suggest that RNAi targeting of an endogenous storage protein could be of great utility in obtaining higher transgene expression in genetically engineered rice and other plant lines.     

The 3′-untranslated region of rice glutelin GluB-1 affects accumulation of heterologous protein in transgenic rice

We compared the effect of the rice storage protein glutelin B-1 (GluB-1) terminator with the nopaline synthase (Nos) terminator on the accumulation of the modified house dust mite allergen mDer f 2 driven by the maize ubiquitin promoter in transgenic rice. Accumulation of mDer f 2 in transgenic seed and leaf using the GluB-1 terminator was greater than when using the Nos terminator construct. The mDer f 2 mRNA containing the GluB-1 3′UTR was processed and polyadenylated at the same sites as the native GluB-1 mRNA in the seeds but diverged in leaves of the transgenic plants. In contrast, the poly(A) sites of mDer f 2 containing Nos 3′UTR were more divergent in both seed and leaf. These results suggest that GluB-1 3′UTR functions as a faithful terminator and that termination at the specific sites may play an important role in mRNA stability and/or translatability, resulting in higher levels of protein accumulation.     

Antihypertensive activity of transgenic rice seed containing an 18-repeat novokinin peptide localized in the nucleolus of endosperm cells

Novokinin (Arg-Pro-Leu-Lys-Pro-Trp, RPLKPW) is a new potent antihypertensive peptide based on the sequence of ovokinin (2-7) derived from ovalbumin. We previously generated transgenic rice seeds in which eight novokinin were fused to storage protein glutelins (GluA2 and GluC) for expression. Oral administration of these seeds to spontaneously hypertensive rats (SHRs) reduced systolic blood pressures at a dose of 1 g seed/kg of SHR. Here, 10- or 18-tandem repeats of novokinin with an endoplasmic reticulum (ER) retention signal (Lys-Asp-Glu-Leu, KDEL) at the C terminus were directly expressed in rice under the control of the glutelin promoter containing its signal peptide. Only small amounts of the 18-repeat novokinin accumulated, and it was unexpectedly deposited in the nucleolus. This abnormal intracellular localization was explained by an endogenous signal for nuclear localization. The GFP reporter protein fused to this sequence targeted to nuclei by a transient assay using onion epidermal cells. Transgenic seed expressing the 18-repeat novokinin exhibited significantly higher antihypertensive activity after a single oral dose to SHR even at one-quarter the amount (0.25 g/kg) of the transgenic rice seed expressing the fusion construct; though, its novokinin content was much lower (1/5). Furthermore, in a long-term administration for 5 weeks, even a smaller dose (0.0625 g/kg) of transgenic seeds could confer antihypertensive activity. This high antihypertensive activity may be attributed to differences in digestibility of expressed products by gastrointestinal enzymes and the unique intracellular localization. These results indicate that accumulation of novokinin as a tandemly repeated structure in transgenic rice is more effective than as a fusion-type structure.     

Effects of UCH-L1 on α-synuclein over-expression mouse model of Parkinson's disease

The rare inherited form of Parkinson's disease (PD), PARK5 , is caused by a missense mutation in ubiquitin carboxy-terminal hydrolase-L1 ( UCH-L1 ) gene, resulting in Ile93Met substitution in its gene product (UCH-L1^Ile93Met). PARK5 is inherited in an autosomal-dominant mode, but whether the Ile93Met mutation gives rise to a gain-of-toxic-function or loss-of-function of UCH-L1 protein remains controversial. Here, we investigated the selective vulnerabilities of dopaminergic (DA) neurons in UCH-L1-transgenic (Tg) and spontaneous UCH-L1-null gracile axonal dystrophy mice to an important PD-causing insult, abnormal accumulation of α-synuclein (αSyn). Immunohistochemistry of midbrain sections of a patient with sporadic PD showed αSyn- and UCH-L1-double-positive Lewy bodies in nigral DA neurons, suggesting physical and/or functional interaction between the two proteins in human PD brain. Recombinant adeno-associated viral vector-mediated over-expression of αSyn for 4 weeks significantly enhanced the loss of nigral DA cell bodies in UCH-L1^Ile93Met-Tg mice, but had weak effects in age-matched UCH-L1^wild-type-Tg mice and non-Tg littermates. In contrast, the extent of αSyn-induced DA cell loss in gracile axonal dystrophy mice was not significantly different from wild-type littermates at 13-weeks post-injection. Our results support the hypothesis that PARK5 is caused by a gain-of-toxic-function of UCH-L1^Ile93Met mutant, and suggest that regulation of UCH-L1 in nigral DA cells could be a future target for treatment of PD.     

Plasminogen Binds Specifically to α-Enolase on Rat Neuronal Plasma Membrane

Abstract: Plasminogen (PGn) that we identified in microglial-conditioned medium has a neurotrophic factor-like effect on cultured neurons. We have also shown that PGn binds specifically to a protein with a molecular mass of 45 kDa in the neuronal plasma membrane. As a candidate PGn receptor-like molecule on the neuronal surface, this 45-kDa protein was purified from the plasma membrane of embryonic rat brain. Amino acid sequence analysis of polypeptides derived from the cleavage of the protein with cyanogen bromide and V8 protease revealed that the 45-kDa protein is identical to rat α-enolase. In fact, PGn was found to bind to purified rat α-enolase and also to a synthetic peptide (30 residues) that corresponds to the carboxyl terminal region of rat α-enolase. Physical properties of the 45-kDa protein, such as molecular mass, isoelectric point, and the ability to form dimers, are quite similar to those of α-enolase. The 45-kDa PGn-binding protein in the plasma membrane was also recognized by anti-rat α-enolase antibody, and pretreatment with α-enolase antibody markedly diminished the PGn-binding to the plasma membrane. In addition, immunocytochemical staining of the cultured cells under the nonpermeable condition showed that α-enolase is present on the cell surface of a certain population of neurons. These results suggest that α-enolase may function as a PGn-binding molecule on the neuronal cell surface.     

Oral immunization with transgenic rice seeds expressing VP2 protein of infectious bursal disease virus induces protective immune responses in chickens

The expression of infectious bursal disease virus (IBDV) host-protective immunogen VP2 protein in rice seeds, its immunogenicity and protective capability in chickens were investigated. The VP2 cDNA of IBDV strain ZJ2000 was cloned downstream of the Gt1 promoter of the rice glutelin GluA-2 gene in the binary expression vector, pCambia1301-Gt1. Agrobacterium tumefaciens containing the recombinant vector was used to transform rice embryogenic calli, and 121 transgenic lines were obtained and grown to maturity in a greenhouse. The expression level of VP2 protein in transgenic rice seeds varied from 0.678% to 4.521% µg/mg of the total soluble seed protein. Specific pathogen-free chickens orally vaccinated with transgenic rice seeds expressing VP2 protein produced neutralizing antibodies against IBDV and were protected when challenged with a highly virulent IBDV strain, BC6/85. These results demonstrate that transgenic rice seeds expressing IBDV VP2 can be used as an effective, safe and inexpensive vaccine against IBDV.     

Analysis of randomly isolated cDNAs from developing endosperm of rice (Oryza sativa L.): evaluation of expressed sequence tags,and expression levels of mRNAs

Using a cDNA library prepared from poly(A)⁺ RNA from 10-day-old rice endosperm, partial nucleotide sequences of randomly isolated clones were analyzed. A total of 153 (30.6%) out of 500 cDNA clones showed high amino acid identity to previously identified genes. There was significant redundancy in cDNAs encoding prolamine and glutelin. About 21.0% of the cDNA clones were found to code for seed storage protein genes. Consequently, 37 independent genes were identified. Using cDNA clones encoding glutelin, prolamine, seed allergen, -1,4-glucan branching enzyme, glycine-rich RNA binding protein, metallothionein, non-specific lipid-transfer protein and ubiquitin conjugating enzyme the accumulation of mRNA during rice seed development was compared. Genes associated with seed storage protein and starch biosynthesis were expressed according to expected developmental stages. Glycinerich RNA binding protein genes as well as metallothionein-like protein genes were highly expressed in developing seeds, but low in leaves of whole plants.     

The expression of heterologous Fe (III) phytosiderophore transporter HvYS1 in rice increases Fe uptake,translocation and seed loading and excludes heavy metals by selective Fe transport

Many metal transporters in plants are promiscuous, accommodating multiple divalent cations including some which are toxic to humans. Previous attempts to increase the iron (Fe) and zinc (Zn) content of rice endosperm by overexpressing different metal transporters have therefore led unintentionally to the accumulation of copper (Cu), manganese (Mn) and cadmium (Cd). Unlike other metal transporters, barley Yellow Stripe 1 (HvYS1) is specific for Fe. We investigated the mechanistic basis of this preference by constitutively expressing HvYS1 in rice under the control of the maize ubiquitin1 promoter and comparing the mobilization and loading of different metals. Plants expressing HvYS1 showed modest increases in Fe uptake, root‐to‐shoot translocation, seed accumulation and endosperm loading, but without any change in the uptake and root‐to‐shoot translocation of Zn, Mn or Cu, confirming the selective transport of Fe. The concentrations of Zn and Mn in the endosperm did not differ significantly between the wild‐type and HvYS1 lines, but the transgenic endosperm contained significantly lower concentrations of Cu. Furthermore, the transgenic lines showed a significantly reduced Cd uptake, root‐to‐shoot translocation and accumulation in the seeds. The underlying mechanism of metal uptake and translocation reflects the down‐regulation of promiscuous endogenous metal transporters revealing an internal feedback mechanism that limits seed loading with Fe. This promotes the preferential mobilization and loading of Fe, therefore displacing Cu and Cd in the seed.     

trxS基因对大麦发芽籽粒中蛋白质降解的影响

对转trxS基因大麦籽粒发芽过程中蛋白酶活性、不同蛋白组分含量和贮藏蛋白SDS-PAGE图谱的变化进行了研究。结果表明：与对照相比,转基因籽粒中的蛋白酶活性提高;清蛋白、球蛋白、醇溶蛋白和谷蛋白含量低于对照。SDS-PAGE图谱也表明,转基因籽粒中贮藏蛋白降解快于对照。     

A transgenic rice cell lineage expressing the oat arginine decarboxylase (adc) cDNA constitutively accumulates putrescine in callus and seeds but not in vegetative tissues

We introduced the oat adc cDNA into rice under the control of the constitutive maize ubiquitin 1 promoter. We studied molecularly and biochemically sixteen independent transgenic plant lines. Significant increases in mRNA levels, ADC enzyme activity and polyamines were measured in transgenic callus. These increases were not maintained in vegetative tissue or seeds in regenerated plants, with the exception of one lineage. This particular lineage showed very significant increases in putrescine preferentially in seeds (up to 10 times compared to wild type and controls transformed with the hpt selectable marker alone). We have demonstrated that in cereals such as rice, over-expression of the oat adc cDNA results in increased accumulation of polyamines at different stages of development. We have also demonstrated that strong constitutive promoters, such as the maize ubiquitin 1 promoter, are sufficient to facilitate heritable high-level polyamine accumulation in seed. Our results demonstrate that by screening adequate numbers of independently derived transgenic plants, it is possible to identify those individuals which express a desired phenotype or genotype.