Determination of tetrodotoxin in human urine and blood using C18 cartridge column, ultrafiltration and LC-MS

Six fishermen were victims (including one death) of food poisoning from unknown fish on their boat in central Taiwan Strait, in April 2001. The symptoms were like those of tetrodotoxin (TTX) poisoning. As there was no remaining fish, a new protocol was developed to determine TTX in the urine and blood of the victims. The urine and blood samples were cleansed using a C18 Sep-Pak cartridge column, and the toxin was extracted by methanol. The eluate was filtered through a microcentrifuge filter. The filtrate was freeze-dried, dissolved in distilled water, and determined by LC-MS. The recovery was more than 88.9%. The detection limit was 15.6 nM. A linear relationship between response and concentration was obtained between 93.75 and 9375 nM of TTX. It was shown that the urine and blood of the victims contained TTX. The range of TTX was 4.5-40.6 nM in blood and 47-344 nM in urine. Judging from the symptoms of the victims and the experimental data, the causative agent of the food poisoning was identified as TTX.     

Expression of single-chain Fv gene specific for gamma-seminoprotein by RTS and its biological activity identification

Fabricating a single-chain variable fragment specific for human seminoprotein is very important in antibody-directed enzyme prodrug therapy and NMR imaging for prostate cancer. Here a single-chain Fv specific for gamma-seminoprotein was expressed by RTS. Its activity and the efficiency of entry into prostate cancer cells are investigated by immunoprecipitation and Western blotting and immunofluorescent staining, as well as entry of conjugated magnetic beads into cells. Results showed that ScFv peptides specific for gamma-seminoprotein were successfully prepared, which can bind with the prostate cells specifically and can bring magnetic beads into prostate cancer cells within 15 min, the amount of magnetic beads inside prostate cancer cells increased as the culture time prolonged. ScFv-conjugated magnetic beads did not enter into control cells. In conclusion, the ScFv peptide against human gamma-seminoprotein with biological activity was successfully fabricated, which can take magnetic beads to prostate cancer cells specifically and not to the control cells. This ScFv peptide against human gamma-seminoprotein should be useful in improving the detection and therapy of prostate cancer at early stages and NMR imaging.     

Construction and Characterization of a cDNA Library from the Pulp of Cara Cara Navel Orange （Citrus sinensis Osbeck）

A cDNA library was constructed end characterized from the pulp of Cera Care navel orange （Citrus sinensis Osbeck） at different stages of ripening. Tittering results revealed that approximately 5.086×10^5 independent clones were included in this library. Electrophoresls gel results of 15 randomly selected clones revealed that the size of the insertion fragments ranged from 400 bp to 2 kb, with an average size of 900 bp. Sequencing results of 150 randomly picked clones showed that the recombination rate was 94%. During subsequent sequence analysis, 41 of 139 clones failed to be identified end the amino sequence of 71 clones shared less than 30% identity with related plants in GenBank. Of 27 clones whose amino sequences shared more than 60% identity with other related plants in GenBenk, 17 clones showed an 80% identity with the corresponding candidate genes of citrus. The clone recognized as the type Ⅲ metallothlonein-llke （MT） gene was observed to occur 13 tlmes, Indlcatlng that the protein may play an important role In frult development and rlpenlng.     

Cloning of Salt Tolerance-Related cDNAs from the Mangrove Plant Sesuvium portulacastrum L.

In an attempt to isolate and identify the target genes relevant to salt tolerance in a mangrove plant （Sesuvium portulacastrum L.）, a subtracted cDNA library was constructed via suppressive subtractive hybridization （SSH）, in which the poly（A）＋RNA isolated from salt-tolerant S. portulacastrum leaves was used as a tester, whereas the driver was poly（A）＋RNA, derived from salt-sensitive S. portulacastrum leaves. Screening of this subtracted cDNA library revealed five clones, of which the expression levels in the salt-tolerant plant were markedly higher than those observed in the salt-sensitive plant, indicating that these candidate clones may be involved in salt-tolerance pathways. Among the clones isolated, P66, P175, and P233 are novel because no significant similarity was obtained upon alignment with the GenBank database. Clone P89 demonstrated high homology with NADPH of Arabidopsis thaliana, whereas clone P152 was highly homologous with the gene encoding late embryogenesis abundant （LEA） protein of A. thaliana. The full-length gene of clone P152, with a predicated 344 amino acid residues, was shown to bear LEA-2 domains, a signature motif for proteins that have been enriched under salty and drought conditions. It is thus implied that clone P152 would be a salt-tolerance gene of S. portulacastrum. In addition, we have also developed a strategy for the extraction of total RNA from mangrove plants.     

The prevalence of plasmid‐mediated quinolone resistance determinants among clinical isolates of ESBL or AmpC‐producing Escherichia coli from Chinese pediatric patients

Three kinds of PMQR determinants (qnr genes, aac(6’)‐Ib‐cr, and qepA) have been discovered and shown to be widely distributed among clinical isolates. To characterize the prevalence of PMQR determinants in ESBL or AmpC‐producing E. coli clinical isolates in Chinese children, a total of 292 ESBL or AmpC‐producing E. coli clinical isolates collected from five children's hospitals in China from 2005 to 2006 were screened for PMQR determinants by PCR. Twenty (6.8%) of the 292 isolates were positive for PMQR determinants. A total of 12 (4.1%) isolates were positive for qnr genes, comprising three positive for qnrA (1.0%), three for qnrB (1.0%), and six for qnrS (2.1%). Twenty‐four (8.2%) isolates were positive for aac(6’)‐Ib, of which 10 (3.4% of 292) had the –cr variant. There was no qepA gene detected in the isolates. Conjugation revealed that qnr, aac(6’)‐Ib‐cr, and ESBL‐encoding genes were transferred together.     

Involvement of osteopontin upregulation on mesangial cells growth and collagen synthesis induced by intermittent high glucose

Glucose fluctuations are strong predictor of diabetic vascular complications. We explored the effects of constant and intermittent high glucose on the proliferation and collagen synthesis of cultured rat mesangial cells. Furthermore, the possible involvement of osteopontin (OPN) was assessed. In rat mesangial cells cultured in 5, 25, or 5 mmol/L alternating with 25 mmol/L glucose in the absence or presence of neutralizing antibodies to OPN, β3 integrin receptor and β5 integrin receptor, the cell proliferation, collagen synthesis, and the expression of OPN and type IV collagen were assessed. In cultured mesangial cells, treatment with constant or intermittent high glucose significantly increased [³H]thymidine incorporation in a time‐dependent manner. A modest increase was observed at 12 h, and further deteriorated afterwards, and reached the maximum incorporation at 48 h. Treatment with constant high glucose for 48 h resulted in significant increases in [³H]thymidine incorporation, cell number, [³H]proline incorporation, mRNA, and protein levels of type IV collagen and OPN compared with mesangial cells treated with the normal glucose, which were markedly enhanced in cells exposed to intermittent high glucose medium. In addition, neutralizing antibodies to either OPN or its receptor β3 integrin but not neutralizing antibodies to β5 integrin can effectively prevented proliferation and collagen synthesis of mesangial cells induced by constant or intermittent high glucose. Intermittent high glucose exacerbates mesangial cells growth and collagen synthesis by upregulation of OPN expression, indicating that glycemic variability have important pathological effects on the development of diabetic nephropathy, which is mediated by the stimulation of OPN expression and synthesis. J. Cell. Biochem. 109: 1210–1221, 2010. © 2010 Wiley‐Liss, Inc.     

Diverse rhizobia associated with Sophora alopecuroides grown in different regions of Loess Plateau in China

A total of seventy-five symbiotic bacterial strains isolated from root nodules of wild Sophora alopecuroides grown in different regions of China's Loess Plateau were characterized. Based on the combined RFLP patterns, thirty-five genotypes were defined among the rhizobia and they were classified into nine genomic species, including Mesorhizobium alhagi and M. gobiense as the main groups, as well as Agrobacterium tumefaciens, M. amorphae, Phyllobacterium trifolii, Rhizobium giardinii, R. indigoferae, Sinorhizobium fredii and S. meliloti as the minor groups according to the 16S rRNA and recA gene analyses. Five and three lineages of nodA and nifH were found, respectively, in these strains, implying that the symbiotic genes of the S. alopecuroides rhizobia had different origins or had divergently evolved. Results of correspondence analysis showed that there was a correlation between rhizobial genotypes and the geographic origins. Possible lateral transfer of the recA and 16S rRNA genes between the P. trifolii and A. tumefaciens strains, and that of symbiotic genes (nodA, nifH) between different genera, was shown by discrepancies of the phylogenetic relationships of the four gene loci. These results revealed diverse rhizobia associated with wild S. alopecuroides grown in different regions of China's Loess Plateau, and demonstrated for the first time the existence of symbiotic A. tumefaciens strains in root nodules of S. alopecuroides.     

Partial Functional Rescue of Helicoverpa armigera Single Nucleocapsid Nucleopolyhedrovirus Infectivity by Replacement of F Protein with GP64 from Autographa californica Multicapsid Nucleopolyhedrovirus

Two distinct envelope fusion proteins (EFPs) (GP64 and F) have been identified in members of the Baculoviridae family of viruses. F proteins are found in group II nucleopolyhedroviruses (NPVs) of alphabaculoviruses and in beta- and deltabaculoviruses, while GP64 occurs only in group I NPVs of alphabaculoviruses. It was proposed that an ancestral baculovirus acquired the gp64 gene that conferred a selective advantage and allowed it to evolve into group I NPVs. The F protein is a functional analogue of GP64, as evidenced from the rescue of gp64-null Autographa californica multicapsid nucleopolyhedrovirus (MNPV) (AcMNPV) by F proteins from group II NPVs or from betabaculoviruses. However, GP64 failed to rescue an F-null Spodoptera exigua MNPV (SeMNPV) (group II NPV). Here, we report the successful generation of an infectious gp64-rescued group II NPV of Helicoverpa armigera (vHaBacΔF-gp64). Viral growth curve assays and quantitative real-time PCR (Q-PCR), however, showed substantially decreased infectivity of vHaBacΔF-gp64 compared to the HaF rescue control virus vHaBacΔF-HaF. Electron microscopy further showed that most vHaBacΔF-gp64 budded viruses (BV) in the cell culture supernatant lacked envelope components and contained morphologically aberrant nucleocapsids, suggesting the improper BV envelopment or budding of vHaBacΔF-gp64. Bioassays using pseudotyped viruses with a reintroduced polyhedrin gene showed that GP64-pseudotyped Helicoverpa armigera single nucleocapsid nucleopolyhedrovirus (HearNPV) significantly delayed the mortality of infected H. armigera larvae.The envelope fusion protein (EFP) of budded viruses (BV) (30) of baculoviruses is critical for virus entry (attachment and fusion) and egress (assembly and budding) (7, 13, 21). Two types of BV EFPs have been identified in the Baculoviridae family of viruses. The F proteins are similar in structure, but they are very diverse in their amino acid sequences (20 to 40% identity). They are widespread within the baculovirus family (group II NPVs of the alphabaculoviruses and in beta- and deltabaculoviruses) (23) and are thought to be carried by ancestral members (26). In contrast, the baculovirus GP64 homologs are all closely related EFPs (>74% sequence identity) and found only in group I NPVs of the alphabaculoviruses (23). It has been suggested that a gp64 gene was acquired relatively recently by an ancestral virus of the group II NPV, thereby giving these viruses a selective advantage and obviating the need of the envelope fusion function of the F protein (23). A nonfusogenic F homolog (F-like protein), however, is maintained in the genome of group I NPVs, functioning as a virulence factor (9, 17, 24, 32).GP64 and F proteins play similar roles during the baculovirus infection processes, such as virus-cell receptor attachment, membrane fusion, and efficient budding. However, there are striking differences between the receptor usage of GP64 and F proteins as well. These two types of proteins are very different in structure, mode of action, and receptor exploitation. The crystal structure reveals that GP64 belongs to class III viral fusion proteins, with its fusion loop located in the internal region of the protein, and proteolytic cleavage is not required for activation of fusion activity (10). F proteins by contrast share common features of class I viral fusion proteins (12). The proteolytic cleavage of the F precursor (F₀) by a furin-like protease generates an N-terminal F₂ fragment and a C-teminal F₁ fragment. This cleavage is essential for exposing the N-terminal fusion peptide of F₁ and for activating F fusogenicity (8, 36). Although the nature of the baculovirus host cell receptors is still enigmatic, it has been reported that Autographa californica multicapsid nucleopolyhedrovirus (MNPV) (AcMNPV)) and Orgyia pseudotsugata MNPV (OpMNPV), both using GP64 as their EFPs, exploit the same insect cell receptor, while Lymantria dispar MNPV (LdMNPV) with an F protein as the EFP utilizes a cell receptor different from that used by AcMNPV (7, 37). Additionally, in the case of SeMNPV, using competition assays, it was confirmed that the baculovirus F protein and GP64 recognized distinct receptors to gain entry into cultured insect cells (34).Pseudotyping viral nucleocapsid with heterologous EFPs to form pseudotype virions is a valuable approach to studying the structure, function, and specificity of heterologous EFPs. It has been a successful strategy to expand or alter viral host range, i.e., in gene delivery (3). For example, vesicular stomatitis virus G (VSV-G)-pseudotyped lentivirus and AcMNPV gp64-pseudotyped HIV-1 exhibit high virus titers and wider tropism (5, 14, 38); the gp64-pseudotyped human respiratory syncytial virus (HRSV) lacking its own glycoproteins is of high and stable infectivity (22); furthermore, pseudotyped lentiviruses with modified fusion proteins of GP64 with targeting peptides (i.e., hepatitis B virus PreS1 peptide, involved in viral attachment) or with the decay accelerating factor (DAF) facilitate the targeting to specific cell types or confer stability against serum inactivation, respectively (6, 19). For the Baculoviridae, a series of pseudotyping studies have investigated the functional analogy between GP64 and F proteins. F proteins of group II NPVs (SeMNPV, LdMNPV, and Helicoverpa armigera single nucleocapsid nucleopolyhedrovirus [HearNPV]) can substitute for GP64 in gp64-null AcMNPV viruses (15, 16). Recent studies indicated that many granulovirus (GV) F proteins, but not F protein from Plutella xylostella GV (PxGV), can rescue a gp64-null AcMNPV (16, 39). These results demonstrated that baculovirus F proteins are functional analogues to GP64. Since it was postulated that GP64 was captured by a baculovirus during evolution (24), one would expect the functional incorporation of GP64 into the BV of an F-null group II NPV. However, the reverse substitution of a group II NPV (SeMNPV) F protein by GP64 failed to produce infectious progeny viruses (35).In this paper, we show that AcMNPV gp64 could be inserted into an F-null HearNPV genome and produce infectious progeny virus upon transfection of insect cells. The infectivity of the pseudotyped virus, however, was greatly impaired, and large amounts of morphologically defective BV were produced. Bioassay experiments indicated that the infectivity of GP64-pseudotyped F-null HearNPV for insect larvae was not reduced, but that the time to death was significantly delayed. These results demonstrate that GP64 alone can only partially complement HearNPV F protein function.