Phenotypic and genotypic characterization of B.t.LDC-391 strain that produce cytocidal proteins against human cancer cells

An indigenous Bacillus thuringiensis strain B.t.LDC-391 producing cytocidal proteins against human colon cancer cell line, HCT-116, was subjected to phenotypic and genotypic characterization to evaluate its relatedness to B.anthracis. The morphological features of this strain were meta-analyzed with data of other parasporin and insecticidal protein producing Bacillus thuringiensis strains. The conventional biochemical analysis and antibiotic sensitivity test proved it as an ampicillin resistant which is a salient feature, absent in B.anthracis Ames. PCR analysis showed the absence of cyt and parasporin related genes in the genome of B.t.LDC-391. But the strain was positive for cap gene. The sequencing and bio-informatic analysis of cap gene and 16S rDNA of B.t.LDC-391 placed it closer to B.thuringiensis and revealed significant divergence from that of any B.anthracis strain. However our strain lacked β- hemolysis on human erythrocytes which is a common feature of B.anthracis strains and parasporin producers.     

Unusual role of a cysteine residue in substrate binding and activity of human AP-endonuclease 1

The mammalian AP-endonuclease (APE1) repairs apurinic/apyrimidinic (AP) sites and strand breaks with 3′ blocks in the genome that are formed both endogenously and as intermediates during base excision repair. APE1 has an unrelated activity as a redox activator (and named Ref-1) for several trans-acting factors. In order to identify whether any of the seven cysteine residues in human APE1 affects its enzymatic function, we substituted these singly or multiply with serine. The repair activity is not affected in any of the mutants except those with C99S mutation. The Ser99-containing mutant lost affinity for DNA and its activity was inhibited by 10 mM Mg²⁺. However, the Ser99 mutant has normal activity in 2 mM Mg²⁺. Using crystallographic data and molecular dynamics simulation, we have provided a mechanistic basis for the altered properties of the C99S mutant. We earlier predicted that Mg²⁺, with potential binding sites A and B, binds at the B site of wild-type APE1-substrate complex and moves to the A site after cleavage occurs, as observed in the crystal structure. The APE1-substrate complex is stabilized by a H bond between His309 and the AP site. We now show that this bond is broken to destabilize the complex in the absence of the Mg²⁺. This effect due to the mutation of Cys99, ∼ 16 Å from the active site, on the DNA binding and activity is surprising. Mg²⁺ at the B site promotes stabilization of the C99S mutant complex. At higher Mg²⁺ concentration the A site is also filled, causing the B-site Mg²⁺ to shift together with the AP site. At the same time, the H bond between His309 and the AP site shifts toward the 5′ site of DNA. These shifts could explain the lower activity of the C99S mutant at higher [Mg²⁺]. The unexpected involvement of Cys99 in APE1's substrate binding and catalysis provides an example of involvement of a residue far from the active site.     

Action of pelargonidin on hyperglycemia and oxidative damage in diabetic rats: implication for glycation-induced hemoglobin modification

Glycation-modified hemoglobin in diabetes mellitus has been suggested to be a source of enhanced catalytic iron and free radicals causing pathological complications. The present study aims to verify this idea in experimental diabetes. Pelargonidin, an anthocyanidin, has been tested for its antidiabetic potential with emphasis on its role against pathological oxidative stress including hemoglobin-mediated free radical reactions. Male wistar rats were grouped as normal control, streptozotocin-induced diabetic control, normal treated with pelargonidin and diabetic treated with pelargonidin. Pelargonidin-treated rats received one time i.p injection of the flavonoid (3 mg/kg bodyweight). Biochemical parameters were assayed in blood samples of different groups of rats. Liver was used for histological examinations. Pelargonidin treatment normalized elevated blood glucose levels and improved serum insulin levels in diabetic rats. Glucose tolerance test appeared normal after treatment. Decreased serum levels of SOD and catalase, and increased levels of malondialdehyde and fructosamine in diabetic rats were reverted to their respective normal values after pelargonidin administration. Extents of hemoglobin glycation, hemoglobin-mediated iron release, iron-mediated free radical reactions and carbonyl formation in hemoglobin were pronounced in diabetic rats, indicating association between hemoglobin glycation and oxidative stress in diabetes. Pelargonidin counteracts hemoglobin glycation, iron release from the heme protein and iron-mediated oxidative damages, confirming glycated hemoglobin-associated oxidative stress in diabetes.     

Roles for TAB1 in regulating the IL-1-dependent phosphorylation of the TAB3 regulatory subunit and activity of the TAK1 complex

The protein kinase TAK1 (transforming growth factor-beta-activated kinase 1), which has been implicated in the activation of MAPK (mitogen-activated protein kinase) cascades and the production of inflammatory mediators by LPS (lipopolysaccharide), IL-1 (interleukin 1) and TNF (tumour necrosis factor), comprises the catalytic subunit complexed to the regulatory subunits, termed TAB (TAK1-binding subunit) 1 and either TAB2 or TAB3. We have previously identified a feedback-control mechanism by which p38alpha MAPK down-regulates TAK1 and showed that p38alpha MAPK phosphorylates TAB1 at Ser(423) and Thr(431). In the present study, we identified two IL-1-stimulated phosphorylation sites on TAB2 (Ser(372) and Ser(524)) and three on TAB3 (Ser(60), Thr(404) and Ser(506)) in human IL-1R cells [HEK-293 (human embryonic kidney) cells that stably express the IL-1 receptor] and MEFs (mouse embryonic fibroblasts). Ser(372) and Ser(524) of TAB2 are not phosphorylated by pathways dependent on p38alpha/beta MAPKs, ERK1/2 (extracellular-signal-regulated kinase 1/2) and JNK1/2 (c-Jun N-terminal kinase 1/2). In contrast, Ser(60) and Thr(404) of TAB3 appear to be phosphorylated directly by p38alpha MAPK, whereas Ser(506) is phosphorylated by MAPKAP-K2/MAPKAP-K3 (MAPK-activated protein kinase 2 and 3), which are protein kinases activated by p38alpha MAPK. Studies using TAB1(-/-) MEFs indicate important roles for TAB1 in recruiting p38alpha MAPK to the TAK1 complex for the phosphorylation of TAB3 at Ser(60) and Thr(404) and in inhibiting the dephosphorylation of TAB3 at Ser(506). TAB1 is also required to induce TAK1 catalytic activity, since neither IL-1 nor TNFalpha was able to stimulate detectable TAK1 activity in TAB1(-/-) MEFs. Surprisingly, the IL-1 and TNFalpha-stimulated activation of MAPK cascades and IkappaB (inhibitor of nuclear factor kappaB) kinases were similar in TAB1(-/-), MEKK3(-/-) [MAPK/ERK (extracellular-signal-regulated kinase) kinase kinase 3] and wild-type MEFs, suggesting that another MAP3K (MAPK kinase kinase) may mediate the IL-1/TNFalpha-induced activation of these signalling pathways in TAB1(-/-) and MEKK3(-/-) MEFs.     

Discrimination of lesion removal of N-methylpurine-DNA glycosylase revealed by a potent neutralizing monoclonal antibody

N-Methylpurine-DNA glycosylase (MPG), a ubiquitous DNA repair enzyme, initiates excision repair of several N-alkylpurine adducts, induced by alkylating chemotherapeutics, and deaminated and lipid peroxidation-induced purine adducts. We have generated monoclonal antibodies (moAbs) against human MPG. Twelve independent hybridoma clones were characterized, which, except 520-16A, are identical based on epitope exclusion assay. Four moAbs, including 520-2A, 520-3A, 520-16A, and 520-26A, have high affinity (K(D) approximately 0.3-1.6nM), and their subtypes were IgG(2a), IgG(1), IgG(2a), and IgG(2b), respectively. moAb 520-3A recognizes the sequence (52)AQAPCPRERCLGPP(66)T, an epitope exclusively present in the N-terminal extension of human MPG. We found that moAb 520-3A significantly inhibited MPG's enzymatic activity towards different substrates, such as hypoxanthine, 1,N(6)ethenoadenine and methylated bases, which represent different classes of DNA damage, however, with different efficiencies. Real-time binding experiments using surface plasmon resonance (SPR) spectroscopy showed that the pronounced inhibition of activity was not in the substrate-binding step. Single turnover kinetics (STO) revealed that the inhibition was at the catalytic step. Since we found that this antibody has an epitope in the N-terminal tail, the latter appears to have an important role in substrate discrimination, however, with a differential effect on different substrates.     

Differential responses in water use efficiency in two varieties of Catharanthus roseus under drought stress

Two varieties, rosea and alba, of Catharanthus roseus (L.) G. Don. were screened for their water use efficiency under two watering regimes, viz. 60 and 100% filed capacity in the present study. Drought stress was imposed at 60% filed capacity from 30 to 70 days after sowing, while the control pots were maintained at 100% filed capacity throughout the entire growth period. Leaf area duration, cumulative water transpired, water use efficiency, net assimilation rate, mean transpiration rate, harvest index, biomass and yield under the water deficit level were measured from both stressed and well-watered control plants. Water use efficiency significantly increased in both varieties under water stress. Drought stress decreased leaf area duration, cumulative water transpired, net assimilation rate, mean transpiration rate, harvest index, and biomass yield in both varieties studied. Among the varieties, rosea variety showed the best results.     

Preparation and partial characterization of collagen sheet from fish (Lates calcarifer) scales

Fish scales, which are hitherto discarded as waste, were collected and cleaned thoroughly. The scales were hydrolyzed under controlled acidic conditions, neutralized and made in to a sheet, i.e., fish scale collagen sheet (FCS). The FCS was characterized for its infrared spectroscopy (IR), thermo-gravimetric analysis (TGA), scanning electron microscopy (SEM), and mechanical properties. The IR study has shown that the sheet contains both organic and inorganic phases revealing that the scales are partially deminaralized. The tensile strength of FCS is enough if it is used as a wound dressing material. The SEM studies have shown that FCS is porous and exhibited fibrous nature.