Quantitative determination of formononetin and its metabolite in rat plasma after intravenous bolus administration by HPLC coupled with tandem mass spectrometry

A new simple, rapid, sensitive and accurate quantitative detection method using liquid chromatography coupled with tandem mass spectrometry (LC–MS/MS) for the measurement of formononetin (FMN) and daidzein (DZN) levels in rat plasma is described. Analytes were separated on a Supelco Discovery C18 (4.6 × 50 mm, 5.0 μm) column with acetonitrile: methanol (50:50, v/v) and 0.1% acetic acid in the ratio of 90:10 (v/v) as a mobile phase. The method was proved to be accurate and precise at linearity range of 5–100 ng/mL with a correlation coefficient (r) of ≥0.996. The intra- and inter-day assay precision ranged from 1.66–6.82% and 1.87–6.75%, respectively; and intra- and inter-day assay accuracy was between 89.98–107.56% and 90.54–105.63%, respectively for both the analytes. The lowest quantitation limit for FMN and DZN was 5.0 ng/mL in 0.1 mL of rat plasma. Practical utility of this new LC–MS/MS method was demonstrated in a pharmacokinetic study in rats following intravenous administration of FMN.     

A simple and sensitive HPLC fluorescence method for determination of tadalafil in mouse plasma

A simple and sensitive high-performance liquid chromatographic (HPLC) method utilizing fluorescence detection was developed for the determination of the phosphodiesterase type 5 inhibitor tadalafil in mouse plasma. This method utilizes a simple sample preparation (protein precipitation) with high recovery of tadalafil (∼98%), which eliminates the need for an internal standard. For constituent separation, the method utilized a monolithic C₁₈ column and a flow rate of 1.0 mL/min with a mobile phase gradient consisting of aqueous trifluoroacetic acid (0.1% TFA in deionized water pH 2.2, v/v) and acetonitrile. The method calibration was linear for tadalafil in mouse plasma from 100 to 2000 ng/mL (r > 0.999) with a detection limit of approximately 40 ng/mL. Component fluorescence detection was achieved using an excitation wavelength of 275 nm with monitoring of the emission wavelength at 335 nm. The intra-day and inter-day precision (relative standard deviation, RSD) values for tadalafil in mouse plasma were less than 14%, and the accuracy (percent error) was within −14% of the nominal concentration. The method was utilized on mouse plasma samples from research evaluating the potential cardioprotective effects of tadalafil on mouse heart tissue exposed to doxorubicin, a chemotherapeutic drug with reported cardiotoxic effects.     

Interaction of Allium sativum leaf agglutinin with midgut brush border membrane vesicles proteins and its stability in Helicoverpa armigera

Allium sativum leaf agglutinin (ASAL) binds to several proteins in the midgut of Helicoverpa armigera and causes toxicity. Most of these were glycosylated. Six ASAL-binding proteins were selected for identification. PMF and MS/MS data showed their similarity with midgut aminopeptidase APN2, polycalins and alkaline phosphatase of H. armigera, cadherin-N protein (partial AGAP009726-PA) of Acyrthosiphon pisum, cytochrome P450 (CYP315A1) of Manduca sexta and alkaline phosphatase of Heliothis virescens. Some of the ASAL-binding midgut proteins were similar to the larval receptors responsible for the binding of δ-endotoxin proteins of Bacillus thuringiensis. Galanthus nivalis agglutinin also interacted with most of the ASAL-binding proteins. The ASAL showed resistance to midgut proteases and was detected in the larval hemolymph and excreta. Immunohistochemical staining revealed the presence of ASAL in the body tissue also.     

Complete sequence and organisation of the <Emphasis Type="Italic">Jatropha curcas</Emphasis> (Euphorbiaceae) chloroplast genome

Jatropha curcas is an important non-edible oil seed tree species and is considered a promising source of biodiesel. The complete nucleotide sequence of J. curcas chloroplast genome (cpDNA) was determined by pyrosequencing and gaps filled by Sanger sequencing. The cpDNA is a circular molecule of 163,856 bp in length and codes for 110 distinct genes (78 protein coding, four rRNA and 28 distinct tRNA). Genome organisation and arrangement are similar to the reported angiosperm chloroplast genome. However, in Jatropha, the infA and the rps16 genes are non-functional. The inverted repeat (IR) boundary is within the rpl2 gene, and the 13 nucleotides at the ends of the two duplicate genes are different. Repeat analysis suggests the presence of 72 repeat regions (>30 bp) apart from the IR; of these, 48 were direct and 24 were palindromic repeats. Phylogenetic analysis of 81 protein coding chloroplast genes from 65 taxa by maximum parsimony, maximum likelihood and minimum evolution analyses at 100 bootstraps provide strong support for the placement of inaperturate crotonoids of which Jatropha is a member as sister to articulated crotonoids of which Manihot is a member.     

Evaluation of the MTT lymphocyte proliferation assay for the diagnosis of neurocysticercosis

Neurocysticercosis (NCC) is caused by the larval form of the pork tapeworm Taenia solium when lodged in the central nervous system (CNS). Clinical diagnosis of NCC is complicated due to its polymorphic manifestations with no specific signs or symptoms. A wide range of serological assays and neuroimaging modalities are used for its diagnosis. The aim of the present study was to evaluate the MTT assay for the diagnosis of NCC and to determine its sensitivity, specificity and accuracy. MTT assay was based upon the cellular reduction of the tetrazolium salt by the proliferating cells and quantification of the colored product. Total 59 patients with NCC-related active epilepsy (AE), 30 with AE other than NCC (disease controls) and 64 healthy volunteers were enrolled for the study. Lymphocytes were freshly isolated from the enrolled subjects and cultured on cyst fluid antigen coated tissue culture plates. MTT assay was performed according to the standard protocol. The mean values of proliferation index (PI) with cyst fluid antigens were 2.13 ± 0.72, 0.622 ± 0.31 and 0.71 ± 0.36 for NCC patients, disease controls and healthy volunteers respectively. PI values for NCC patients were higher than the cut-off value (mean of controls + 2 standard deviations; 1.31). The sensitivity, specificity and accuracy of the MTT assay for the diagnosis of NCC were 87.93%, 94.68% and 91.5% respectively. For single cyst infection the sensitivity of the assay was found to be 86.4%. The present study shows that MTT is an adaptable technique which can be used for diagnosis of NCC.     

Interaction of Bacillus thuringiensis Vegetative Insecticidal Protein with Ribosomal S2 Protein Triggers Larvicidal Activity in Spodoptera frugiperda

Vegetative insecticidal protein (Vip3A) is synthesized as an extracellular insecticidal toxin by certain strains of Bacillus thuringiensis. Vip3A is active against several lepidopteran pests of crops. Polyphagous pest, Spodoptera frugiperda, and its cell line Sf21 are sensitive for lyses to Vip3A. Screening of cDNA library prepared from Sf21 cells through yeast two-hybrid system with Vip3A as bait identified ribosomal protein S2 as a toxicity-mediating interacting partner protein. The Vip3A-ribosomal-S2 protein interaction was validated by in vitro pulldown assays and by RNA interference-induced knockdown experiments. Knockdown of expression of S2 protein in Sf21 cells resulted in reduced toxicity of the Vip3A protein. These observations were further extended to adult fifth-instar larvae of Spodoptera litura. Knockdown of S2 expression by injecting corresponding double-stranded RNA resulted in reduced mortality of larvae to Vip3A toxin. Intracellular visualization of S2 protein and Vip3A through confocal microscopy revealed their interaction and localization in cytoplasm and surface of Sf21 cells.Insecticidal proteins produced by strains of Bacillus thuringiensis can broadly be classified into two major categories based on their site of accumulation. Category I consist of proteins that are deposited as crystals in sporangia and are referred to as insecticidal crystalline proteins (ICPs). The second category consists of recently described group of insecticidal proteins, called vegetative insecticidal proteins (8). These proteins are synthesized during the vegetative growth of Bacillus cells and are secreted into the culture medium. Irrespective of the site of accumulation of insecticidal proteins, their ingestion by susceptible insect larvae leads to disruption and lysis of epithelial tissue from the midgut, resulting in larval death (12). The mechanism of lysis of gut epithelial tissue by ICPs has been investigated in detail in several insects (16). Ingestion of ICPs triggers a sequence of biochemical cascade that involves its solubilization and subsequent activation by gut proteases. The activated toxin interacts with specific receptors located at the midgut epithelial tissue. In this sequence of events, the interaction with the receptor is the most significant event since subsequent to interaction, pore formation is initialized, and that leads to lysis of epithelial cells. The identification and characterization of receptors from various insect larvae has led to the identification of following molecules as receptor to ICPs, such as cadherinlike protein (21), glycosyl phosphatidylinositol (GPI)-anchored aminopeptidase N (APN) (1, 9, 11, 17, 19, 20), a GPI-anchored alkaline phosphatase (10, 14), and a 270-kDa glycoconjugate (see references 2, 7, 9, and 16 and references therein for an extensive list of receptors). In addition, certain glycopeptides have been identified as lysis-initiating receptor molecules. Although there is extensive information about the receptor-toxin interaction for ICPs, negligible work has been done toward the identification of receptors to vegetative insecticidal proteins. The ultrastructural changes induced at the midgut epithelial tissue, upon ingestion of ICPs or Vip3As, are common (12). Both ICPs and Vip3As interact at the epithelial layer of midgut, enlarging the affected cells due to osmotic imbalance and eventually causing lysis. In spite of inflicting nearly identical structural damage, the interacting receptor for the Vip3A is not identical (12). In fact, the receptor to Vip3As has not yet been characterized.Our group has been working on the identification, cloning, and evaluation of vegetative insecticidal proteins from strains of B. thuringiensis held in our collection. We have characterized the Vip3A (EMBL accession no. {"type":"entrez-nucleotide","attrs":{"text":"Y17158","term_id":"3135740","term_text":"Y17158"}}Y17158) class of protein and evaluated its toxicity profile (2, 8, 18). Vip3A is active against larvae of Spodoptera litura, among several other lepidopteran pests. In a parallel series of experiments, we identified APN as a receptor to the B. thuringiensis protein Cry1C in S. litura. The heterologously expressed APN did not interact with Vip3A, suggesting that Vip3A toxicity in this insect is not through interaction with APN (1). Our preliminary results on the toxicity of Vip3A revealed that purified insecticidal protein could lyse Sf21 cells, suggesting the presence of receptors in the insect cell line. In the present study, we identified the Vip3A interacting protein in Sf21 cells and the larvae of S. litura. The specificity of the interaction has been examined by a combination of ex vivo and in vitro assays. These assays identified ribosomal S2 protein as the interacting partner of Vip3A. The functional significance of S2-Vip3A protein interaction was examined by monitoring the reduction in Vip3A toxicity in Sf21 cells and larvae of S. litura by the RNA interference-induced knockdown of S2 protein. The results of these experiments are discussed in the context of colocalization of the S2-Vip3A protein interacting complex by confocal microscopy.     

Protective effect of curcumin against intracerebral streptozotocin induced impairment in memory and cerebral blood flow

AimsThe aim of the present study is to investigate the effect of curcumin on cerebral blood flow (CBF), memory impairment, oxidative stress and cholinergic dysfunction in intracerebral (IC) streptozotocin (STZ) induced memory impairment in mice.Main methodsMemory impairment was induced by STZ (0.5 mg/kg, IC) administered twice with an interval of 48 h in mice. Memory function was assessed by Morris water maze and passive avoidance test. CBF was measured by Laser Doppler Flowmetry (LDF). To study the preventive effect, curcumin (10, 20 and 50 mg/kg, PO) was administered for 21 days starting from the first dose of STZ. In another set of experiment, curcumin was administered for 7 days from 19th day after confirming STZ induced dementia to observe its therapeutic effect. Biochemical parameters of oxidative stress and cholinergic function were estimated in brain on day 21.Key findingsThe major finding of this study is that STZ (IC) caused a significant reduction in CBF along with memory impairment, cholinergic dysfunction and enhanced oxidative stress. Curcumin dose dependently improved CBF in STZ treated mice together with amelioration of memory impairment both in preventive and therapeutic manner.SignificanceThe present study clearly demonstrates the beneficial effects of curcumin, the dietary staple of India, on CBF, memory and oxidative stress which can be exploited for dementia associated with age related vascular and neurodegenerative disorders.     

An antibiotic,heavy metal resistant and halotolerant <Emphasis Type="Italic">Bacillus cereus</Emphasis> SIU1 and its thermoalkaline protease

Background  

Many workers have reported halotolerant bacteria from saline conditions capable of protease production. However, antibiotic resistance and heavy metal tolerance pattern of such organisms is not documented very well. Similarly, only a few researchers have reported the pattern of pH change of fermentation medium during the course of protease production. In this study, we have isolated a halotolerant Bacillus cereus SIU1 strain from a non-saline environment and studied its antibiotic and heavy metal resistance pattern. The isolate produces a thermoalkaline protease and changes the medium pH during the course of fermentation. Thermostability of protease was also studied for 30 min.