Antiviral activity of Rwandan medicinal plants against human immunodeficiency virus type-1 (HIV-1)

Selected plants used in Rwandan traditional medicine for the treatment of infections and/or rheumatoid diseases were investigated for antiviral activity in vitro against human immunodeficiency virus type-1 (HIV-1). Of the 38 tested 80% ethanolic extracts, belonging to plants of 21 different families only the extracts from the leaves of Aspilia pluriseta (Asteraceae) and Rumex bequaertii (Polygonaceae) had interesting selectivity indices (SI = ratio of the 50% cytotoxic concentration to the 50% effective antiviral concentration) higher than 1. Further fractionation of the initially antivirally inactive ethanolic extract of Tithonia diversifolia, however, led to an aqueous fraction with a high anti-HIV-1 activity (SI > 461), indicating that the cytotoxicity of some plant components may mask the antiviral properties of the active plant substances in total plant extracts.     

利用噬菌体肽库筛选与HIV-1p24抗原结合的多肽

通过噬菌体展示技术筛选出与HIV-1p24抗原结合的多肽,为用多肽辅助p24抗原检测提供实验基础.以重组p24抗原为靶蛋白,对噬菌体随机七肽库进行三轮筛选,用EUSA鉴定第三轮筛选到的噬菌体克隆与p24重组抗原的结合能力,再对噬菌体克隆进行测序分析,同时研究了ELISA中噬菌体加入量及多种封闭剂对噬菌体特异性结合能力的...     

Carbohydrate binding properties of the envelope glycoproteins of human immunodeficiency virus type 1

Here, we confirm and extend our previous findings on human immunodeficiency virus type 1 (HIV-1) envelope glycoproteinN-acetylglucosaminyl binding properties. We show the occurrence of saturable, temperature, pH, and calcium dependent carbohydrate-specific interactions between recombinant precursor gp160 (rgp160) and two affinity matrices:d-mannose-divinylsulfone-agarose, and natural glycoprotein, fetuin, also coupled to agarose. Binding of rgp160 to the matrices was inhibited by soluble mannosyl derivatives, -d-Man₁₇-BSA and mannan, by -d-GlcNAc₄₇-BSA and by glycopeptides from Pronase-treated porcine thyroglobulin, which produces oligomannose and complex N-linked glycans. Glycopeptides from Endoglycosidase H-treated thyroglobulin partially inhibited rgp160 binding, as did the asialo-agalacto-tetraantennary precursor oligosaccharide of human ₁-acid glycoprotein for binding to fetuin-agarose. -d-Glucan and -d-Gal₁₇-BSA had no or only limited effect. Also, surface unit rgp120 specifically interacted with fetuin-agarose and soluble fetuin, but in the latter case with a twofold reduced affinity relative to rgp160. After affinity chromatography, rgp160 was specifically retained by the two matrices and eluted by mannan in both cases, while rgp120 was not retained by fetuin-agarose but only eluted as a significantly retarded peak, which confirms its specific but weak interaction. Thus, rgp160 interacts with both oligomannose type, and the mannosyl core of complex type N-linked glycans, and its gp120 region plays a role in this interaction. Because fetuin and asialofetuin inhibit to nearly the same extent, the binding of rgp160 or rgp120 to fetuin-agarose, interaction with sialic acid or -d-galactosyl structures of complex N- or O-linked glycans can be ruled out. Specific rgp160 and rgp120 binding to ap-aminophenyl--d-GlcNAc-agarose matrix, which was inhibited by -d-GlcNAc₄₇-BSA and by fetuin, confirms that HIV-1 envelope glycoproteins can also specifically interact with theN-acetylglucosaminyl core of oligosaccharide structures.     

HIV—1核蛋白p24在昆虫细胞中的表达

将完整的ＨＩＶ－１ ｐ２４基因克隆到杆状病毒转移质粒中,使用重组转移质粒与野生型杆状病毒ＤＮＡ共转染Ｓｆ９昆虫细胞,经筛选获得带有编码ｐ２４基因的重组杆状病毒。重组杆状病毒感染Ｓｆ９细胞后在细胞中表达了ＨＩＶ核蛋白ｐ２４。其重组蛋白的分子量为２４ｋＤ。此重组糖蛋白在免疫荧光,免疫印染和酶联免疫实验中都能被人ＨＩＶ－１阳性血清和单克隆抗体所识别。     

Identification of human immunodeficiency virus type 1 (HIV-1) gp120-binding sites on scavenger receptor cysteine rich 1 (SRCR1) domain of gp340

Background

gp340, a member of scavenger receptor cysteine rich family encoded by Deleted in Malignant Brain Tumors 1 (DMBT1), is an important component in innate immune defense. The first scavenger receptor cysteine rich domain (SRCR1) of gp340 has been shown to inhibit HIV-1 infection through binding to the N-terminal flank of the V3 loop of HIV-1 gp120.

Results

Through homology modeling and docking analysis of SRCR1 to a gp120-CD4-X5 antibody complex, we identified three loop regions containing polar or acidic residues that directly interacted with gp120. To confirm the docking prediction, a series of over-lapping peptides covering the SRCR1 sequence were synthesized and analyzed by gp120-peptide binding assay. Five peptides coincide with three loop regions showed the relative high binding index. An alanine substitution scan revealed that Asp34, Asp35, Asn96 and Glu101 in two peptides with the highest binding index are the critical residues in SRCR1 interaction with gp120.

Conclusion

We pinpointed the vital gp120-binding regions in SRCR1 and narrowed down the amino acids which play critical roles in contacting with gp120.     

Small molecule inhibitors that selectively block dengue virus methyltransferase

Crystal structure analysis of Flavivirus methyltransferases uncovered a flavivirus-conserved cavity located next to the binding site for its cofactor, S-adenosyl-methionine (SAM). Chemical derivatization of S-adenosyl-homocysteine (SAH), the product inhibitor of the methylation reaction, with substituents that extend into the identified cavity, generated inhibitors that showed improved and selective activity against dengue virus methyltransferase (MTase), but not related human enzymes. Crystal structure of dengue virus MTase with a bound SAH derivative revealed that its N6-substituent bound in this cavity and induced conformation changes in residues lining the pocket. These findings demonstrate that one of the major hurdles for the development of methyltransferase-based therapeutics, namely selectivity for disease-related methyltransferases, can be overcome.     

Immunogenicity of DNA and recombinant Sendai virus vaccines expressing the HIV-1 gag gene

Combinations of DNA and recombinant-viral-vector based vaccines are promising AIDS vaccine methods because of their potential for inducing cellular immune responses. It was found that Gag-specific cytotoxic lymphocyte (CTL) responses were associated with lowering viremia in an untreated HIV-1 infected cohort. The main objectives of our studies were the construction of DNA and recombinant Sendai virus vector (rSeV) vaccines containing a gag gene from the prevalent Thailand subtype B strain in China and trying to use these vaccines for therapeutic and prophylactic vaccines. The candidate plasmid DNA vaccine pcDNA3.1(+)-gag and recombinant Sendai virus vaccine (rSeV-gag) were constructed separately. It was verified by Western blotting analysis that both DNA and rSeV-gag vaccines expressed the HIV-1 Gag protein correctly and efficiently. Balb/c mice were immunized with these two vaccines in different administration schemes. HIV-1 Gag-specific CTL responses and antibody levels were detected by intracellular cytokine staining assay and enzyme-linked immunosorbant assay (ELISA) respectively. Combined vaccines in a DNA prime/rSeV-gag boost vaccination regimen induced the strongest and most long-lasting Gag-specific CTL and antibody responses. It maintained relatively high levels even 9 weeks post immunization. This data indicated that the prime-boost regimen with DNA and rSeV-gag vaccines may offer promising HIV vaccine regimens. Foundation item: National 863 project (2003AA219070)     

Expression of a humanS-adenosylmethionine decarboxylase cDNA in transgenic tobacco and its effects on polyamine biosynthesis

S-adenosylmethionine decarboxylase (SAMDC; EC 4.1.1.50) is a key regulatory enzyme in the polyamine biosynthetic pathway. Numerous studies have shown that the enzyme activity and polyamine levels are generally correlated with cellular growth in plants, animals and bacteria. In order to gain more insight into the role of polyamines in plants, human SAMDC cDNA under control of the 35S promoter of cauliflower mosaic virus, along with a neomycin phosphotransferase gene, was transferred to tobacco (Nicotiana tabacum cv. Xanthi) viaAgrobacterium tumefaciens. Transgenic plants showed the presence of human SAMDC mRNA and a 2-4-fold increase in SAMDC activity. In the transformed tissues, putrescine levels were significantly reduced, while spermidine content was 2–3 times higher than the control tissues. Cellular spermine content was either increased or remained unchanged. Excised leaf segments from transformed plants frequently produced shoots even on callus inducing medium.     

Cloning and characterization of spermidine synthase and its implication in polyamine biosynthesis in Helicobacter pylori strain 26695

The HP0832 (speE) gene of Helicobacter pylori strain 26695 codes for a putative spermidine synthase, which belongs to the polyamine biosynthetic pathway. Spermidine synthase catalyzes the production of spermidine from putrescine and decarboxylated S-adenosylmethionine (dcSAM), which serves as an aminopropyl donor. The deduced amino acid sequence of the HP0832 gene shares less than 20% sequence identity with most spermidine synthases from mammalian cells, plants and other bacteria. In this study, the HP0832 open reading frame (786 bp) was cloned into the pQE30 vector and overexpressed in Escherichia coli strain SG13009. The resulting N-terminally 6xHis-tagged HP0832 protein (31.9 kDa) was purified by Ni-NTA affinity chromatography at a yield of 15 mg/L of bacteria culture. Spermidine synthase activity of the recombinant protein was confirmed by the appearance of spermidine after incubating the enzyme with putrescine and dcSAM. Substrate specificity studies have shown that spermidine could not replace putrescine as the aminopropyl acceptor. Endogenous spermidine synthase of H. pylori was detected with an antiserum raised against the recombinant HP0832 protein. H. pylori strain 26695 contains putrescine and spermidine at a molar ratio of 1:3, but no detectable spermine or norspermidine was observed, suggesting that the spermidine biosynthetic pathway may provide the main polyamines in H. pylori strain 26695.     

HIV-1 p24-immunoglobulin fusion molecule: a new strategy for plant-based protein production

We describe the engineering of a human immunodeficiency virus-1 (HIV-1) p24-immunoglobulin A (IgA) antigen-antibody fusion molecule for therapeutic purposes and its enhancing effect on fused antigen expression in tobacco plants. Although many recombinant proteins have been expressed in transgenic plants as vaccine candidates, low levels of expression are a recurring problem. In this paper, using the HIV p24 core antigen as a model vaccine target, we describe a strategy for increasing the yield of a recombinant protein in plants. HIV p24 antigen was expressed as a genetic fusion with the alpha2 and alpha3 constant region sequences from human Ig alpha-chain and targeted to the endomembrane system. The expression of this fusion protein was detected at levels approximately 13-fold higher than HIV p24 expressed alone, and a difference in the behaviour of the two recombinant proteins during trafficking in the plant secretory pathway has been identified. Expressing the antigen within the context of alpha-chain Ig sequences resulted in the formation of homodimers and the antigen was correctly recognized by specific antibodies. Furthermore, the HIV p24 elicited T-cell and antibody responses in immunized mice. The use of Ig fusion partners is proposed as a generic platform technology for up-regulating the expression of antigens in plants, and may represent the first step in a strategy to design new vaccines with enhanced immunological properties.     

HIV-1 p24和SIV p27两种ELISA试剂盒检测SIV p27抗原的比较

目的由于检测SIV p27抗原试剂盒来源困难,有时不稳定,鉴于HIV-1 p24与SIVp27有较强的交叉抗原,本研究比较HIV-1 p24和SIV p27两种ELISA试剂盒检测SIV p27抗原得出的结果是否存在一定的相关性。方法 HIV-1 p24和SIV p27两种ELISA试剂盒定性和定量检测样品中SIV p27抗原,并对检测结果进行回归和相关分析。结果 HIV-1 p24和SIV p27两种ELISA试剂盒检测SIV p27抗原的灵敏度分别是150 pg/mL和62.5 pg/mL。两种试剂盒检测病毒液和血浆中SIV p27抗原的定性结果一致。定量结果的统计分析得出病毒液的直线回归决定系数R2=0.857,直线相关系数r=0.926,P〈0.01,直线正相关程度较高;血浆的直线回归决定系数R2=0.512,直线相关系数r=0.716,P〈0.05,直线正相关程度较低。结论 HIV-1 p24 ELISA试剂盒能够替代SIVp27 ELISA试剂盒定性检测病毒液和血浆中SIV p27抗原,但只能定量检测病毒液中SIV p27抗原。     

The putrescine analogue 1-aminooxy-3-aminopropane perturbs polyamine metabolism in the phytopathogenic fungus<Emphasis Type="Italic"> Sclerotinia sclerotiorum</Emphasis>

The effects of the putrescine analogue 1-aminooxy-3-aminopropane on fungal polyamine metabolism were evaluated using Sclerotinia sclerotiorum as an experimental model. The compound inhibited ornithine decarboxylase, spermidine synthase, and S -adenosyl-methionine decarboxylase in mycelial extracts. Addition of 1-aminooxy-3-aminopropane at 1 mM to the culture medium did not reduce mycelial growth and caused a 29% decrease in free spermidine and a two-fold increase in free spermine. When added 4.5 h before the determination of ornithine decarboxylase, 1-aminooxy-3-aminopropane reduced in vivo activity of this enzyme by 40–50%. When added 48 h before the determination, 1-aminooxy-3-aminopropane at 0.01 and 0.1 mM caused a slight increase of in vivo ornithine decarboxylase activity, while it had no effect at 1 mM. Comparison of the action of 1-aminooxy-3-aminopropane with that of other inhibitors of polyamine biosynthesis suggested that its effects on in vivo ornithine decarboxylase activity resulted from a balance between direct inhibition of enzyme activity and indirect stimulation of enzyme synthesis and/or activity mediated by the decrease in spermidine levels, which in turn was due to inhibition of spermidine synthase and S -adenosyl-methionine decarboxylase. The potential of 1-aminooxy-3-aminopropane as a tool for studies on fungal polyamine metabolism and for the control of plant diseases of fungal origin is discussed.Abbreviations AdoMetDC S-Adenosyl-methionine decarboxylase - DFMO -Difluoromethylornithine - MGBG Methylglyoxal bis-[guanyl hydrazone] - ODC Ornithine decarboxylase     

Characterization and signature pattern analysis of Korean clade HIV-1 using nef gene sequences

Phylogenetic studies of the HIV-1 gene sequences isolated from Korean patients have suggested that most of Korean isolates belong to the subtype B strain. This study aims to characterize the Korean clade by molecular phylogenetic analysis using all of the Korean nef gene sequences registered in the NCBI GenBank (N=422), in addition to 41 reference strains and 94 foreign isolates. Through phylogenetic analyses, we verified that most of the Korean isolates belonged to the subtype B, where 78.8% are clustered exclusively of foreign isolates. This cluster has been named the Korean clade subtype B (KCB) in order to distinguish it from other subtype B clusters. Genetic distance analysis suggested that the KCB cluster was more homogeneous and clearly distinctive from the non-Korean clade subtype B (NKCB). Comparison of consensus amino acid sequences from KCB and NKCB revealed that characteristic KCB signature amino acid patterns composed of 11 amino acid residues, whose frequencies in the KCB were significantly higher than in the NKCB. The KCB signature amino acid residues were critical in identifying KCB from NKCB, since substitution of the NKCB sequences with KCB signature amino acids relocated them to the Koran clade, and vice versa.     

Cloning, functional identification and structural modelling of Vitis vinifera S-adenosylmethionine decarboxylase

In this paper we report the cloning and full sequencing of S-adenosylmethionine decarboxylase (SAMDC, EC 4.1.1.50) cDNA from Vitis vinifera L. (VV) leaves, an enzyme belonging to the polyamine biosynthetic pathway, which appears to play an important role in the regulation of plant growth and development. The presence of two overlapping ORFs (tiny ORF and small ORF) upstream of the main ORF is reported in the Vitis cDNA. When the Vitis SAMDC cDNA was expressed in yeast without the two upstream ORFs, the resulting activity was about 50 times higher than the activity obtained with the full cDNA. These results demonstrated the strong regulatory activity of the tiny and small ORFs. RT-PCR expression analysis showed evidence of a similar mRNA level in all the tissues tested, with the exception of the petioles. The VV SAMDC was also modelled using its homologues from Solanum tuberosum and Homo sapiens as template. The present work confirmed, for the first time in a woody plant of worldwide economic interest such as grapevine, the presence of a regulatory mechanism of SAMDC, enzyme that has a well-established importance in the modulation of plant growth and development.     

Human immunodeficiency virus type 1 Vpr modifies cell proliferation via multiple pathways.

Vpr, one of the accessory molecules of HIV-1, has been demonstrated to arrest the cell cycle at the G2 phase. This Vpr-mediated cell cycle arrest is implicated to have an important role in the viral life cycle. In the present study, we quantitate the extent of Vpr-mediated cell cycle arrest with the use of a bicistronic vector consisting of a vpr gene and a green fluorescence protein sequence. Using this system, we examined the effect of several Vprs on cell cycle progression and growth of cells from different species quantitatively. We found that Vpr from the T-cell line-adapted HIV-1SF2 strain (Vpr2) could not significantly induce G2 arrest in HeLa cells but was able to induce it in 293T cells. However, strong inhibition of cell proliferation in HeLa cells as well as in 293T cells was observed by Vpr2. This ability of Vpr2 to inhibit cell proliferation without G2 arrest was also observed when expressed in monkey cell line. Analyses of chimeric Vprs revealed that this species-non-specific growth inhibitory activity of Vpr was not mediated solely by the C-terminal region of Vpr. These results indicated that the growth inhibitory activity of Vpr is independent of its G2 arresting activity. In addition, the species-non-specific nature of this activity suggests that Vpr has a novel mechanism to retard cell proliferation by influencing basic cellular functions.