2-Amidino analogs of glycine-amiloride conjugates: inhibitors of urokinase-type plasminogen activator

The relative non-toxicity of the diuretic amiloride, coupled with its selective inhibition of the protease urokinase plasminogen activator (uPA), makes this compound class attractive for structure-activity studies. Herein we substituted the C(2)-acylguanidine of C(5)-glycyl-amiloride with amidine and amidoxime groups. The data show the importance of maintaining C(5)-hydrophobicity. The C(5)-benzylglycine analogs containing either C(2)-acylguanidine or amidine inhibited uPA with an IC(50) ranging from 3 to 7 μM and were cytotoxic to human U87 malignant glioma cells.     

Heterotrophy and nitrate metabolism in a cyanobacteriumPhormidium uncinatum

Nitrate-supported heterotrophic growth ofPhormidium uncinatum was achieved after repeated exposure to glucose in the presence of a photosystem (PS) II inhibitor. Nitrate and glucose utilization as well as activities of their metabolizing enzymes were measured comparatively in photoautotrophic and heterotrophic cells. Nitrate and glucose were taken up together at the ratio of 1:8 (molar basis) and glucose catabolism via glucose-6-phosphate dehydrogenase (G6PDH), and 6-phosphogluconate dehydrogenase (6PGDH) activities transferred desired electrons for nitrate reduction to ammonia through coupled ferredoxin-NADP⁺ reductase (FNR) activity. Ammonia thus generated was assimilated mainly by NADPH-glutamate dehydrogenase (GDH) activity. These data demonstrate an operation of nitrate assimilation in this cyanobacterium under heterotrophic conditions.     

A revised model for the control of fatty acid synthesis by master regulator Spo0A in Bacillus subtilis

In starving Bacillus subtilis cells, the accDA operon encoding two subunits of the essential acetyl‐CoA carboxylase (ACC) has been proposed to be tightly regulated by direct binding of the master regulator Spo0A to a cis element (0A box) in the promoter region. When the 0A box is mutated, biofilm formation and sporulation have been reported to be impaired. Here, we present evidence that two 0A boxes, one previously known (0A‐1) and another newly discovered (0A‐2) in the accDA promoter region are positively and negatively regulated by Spo0A～P respectively. Cells with mutated 0A boxes experience slight delays in sporulation, but eventually sporulate with high efficiency. In contrast, cells harboring a single mutated 0A‐2 box are deficient for biofilm formation, while cells harboring either a mutated 0A‐1 box or both mutated 0A boxes form biofilms. We further show that the essential ACC enzyme localizes on or near the cell membrane by directly observing a functional GFP fusion to one of the enzyme's subunits. Collectively, we propose a revised model in which accDA is primarily transcribed by a major σ^A‐RNA polymerase, while Spo0A～P plays an additional role in the fine‐tuning of accDA expression upon starvation to support proper biofilm formation and sporulation.     

Synthesis of marine alkaloid: 8,9-dihydrocoscinamide B and its analogues as Novel class of antileishmanial agents

A series of marine alkaloid 8,9-dihydrocoscinamide B, its analogues and indolylglyoxylamide derivatives have been synthesized and screened for their in vitro antileishmanial activity profile in promastigote and amastigote models. Compounds 7 and 10 have shown 99-100% inhibition against promastigotes and 97-98% inhibition against amastigotes at a concentration of 10 microg/ml.     

Structure of the WD40‐domain of human ATG16L1

Autophagy‐related protein ATG16L1 is a component of the mammalian ATG12～ATG5/ATG16L1 complex, which acts as E3‐ligase to catalyze lipidation of LC3 during autophagosome biogenesis. The N‐terminal part of ATG16L1 comprises the ATG5‐binding site and coiled‐coil dimerization domain, both also present in yeast ATG16 and essential for bulk and starvation induced autophagy. While absent in yeast ATG16, mammalian ATG16L1 further contains a predicted C‐terminal WD40‐domain, which has been shown to be involved in mediating interaction with diverse factors in the context of alternative functions of autophagy, such as inflammatory control and xenophagy. In this work, we provide detailed information on the domain boundaries of the WD40‐domain of human ATG16L1 and present its crystal structure at a resolution of 1.55 Å.     

A novel gene MGA1 is required for appressorium formation in Magnaporthe grisea

Insertional mutagenesis is an effective way to study the infection mechanism of fungal pathogens. In an attempt to identify the genes involved in appressorium formation from Magnaporthe grisea, we carried out Agrobacterium tumefaciens mediated transformation (ATMT) of the fungus. Analysis of the region flanking the T-DNA integration site in one of the appressorium mutants showed insertion in a gene coding a 78 amino acid protein (MGA1), showing no significant homology to any of the known proteins. The mutant mga1 caused neither foliar nor root infection. Complementation of the mutated gene with the full length wild type gene restored appressorium formation as well as rice infection demonstrating the involvement of this gene in pathogenicity of M. grisea. In an indirect immunolocalisation assay, the MGA1 expression was seen predominantly in germ tube and appressoria. The mutant was impaired in glycogen and lipid mobilization required for appressorium formation. The glycerol content in the mycelia of the mutant under hyperosmotic stress conditions was less as compared to wild type and was thus unable to tolerate the hyperosmotic stress induced by sorbitol. We hypothesize that MGA1 plays a crucial role in signal transduction leading to the metabolism of glycogen and lipids, which is a part of appressorium differentiation process.     

Melphalan induced germ cell toxicity and dose-dependent effects of β-aminoisobutyric acid in experimental rat model: Role of oxidative stress,inflammation and apoptosis

The success of chemotherapy regimens has led to an increase in cancer survival rate over the last decades. Melphalan has been widely used for the treatment of several types of cancers despite its gonadotoxic effects. Due to its ability to cause mutations in the spermatogonial stem cells and spermatids, melphalan can exert a negative impact on male reproductive health in young cancer survivors. β-aminoisobutyric acid (BAIBA), a myokine released by skeletal muscles, has been reported to have beneficial effects in diabetic nephropathy, cardiomyopathy and hepatic toxicity. However, the exact role of BAIBA in chemotherapy-induced germ cell toxicity is still unexplored. The present study aims to determine the dose-dependent (25, 50, and 100 mg/kg) effects of BAIBA on melphalan-induced (1.5 mg/kg) germ cell toxicity in sprague−dawley (SD) rats. The evaluation parameters included quantification of oxidative stress biomarkers, sperm count, sperm motility and head morphology, sperm and testicular DNA damage, sperm mitochondrial membrane potential, ultrastructural changes in sperms, histological and protein expression studies in testes. Melphalan treatment significantly altered all the above-mentioned parameters and the high dose (100 mg/kg) of BAIBA restored melphalan-induced toxicity in a significant manner by exerting antioxidant, anti-inflammatory and antiapoptotic effects. However, the medium dose (50 mg/kg) of BAIBA decreased the toxicity of melphalan and the low dose (25 mg/kg) of BAIBA failed to counteract the melphalan-induced male germ cell toxicity as well as the peripheral blood micronucleus induction. The antioxidant, anti-inflammatory and antiapoptotic role of BAIBA in melphalan-induced gonadal damage is a novel finding in an experimental rat model.     

Delivering multiple anticancer peptides as a single prodrug using lysyl-lysine as a facile linker.

A large 40-residue precursor peptide (propeptide 5) was synthesized by linking together four designed anticancer peptide analogs to the neuropeptides: vasoactive intestinal peptide, somatostatin, bombesin and substance P, using enzyme cleavable lysyl-lysine linkers. On incubation with the enzyme trypsin, propeptide 5 was cleaved in a sequence-specific manner at the lysyl-lysine residues in the linker to release the individual peptide fragments which were identified by LC-MS. Another precursor peptide (propeptide 5a), consisting of two of the peptide analogs linked through lysyl-lysine linker, was also preferentially cleaved at the Lys-Lys site on incubation with the enzyme trypsin. Propeptide 5 showed potent anticancer activity, both in vitro and in vivo, which was greater than that of the individual component peptides. The enhanced activity suggests that the propeptide is possibly cleaved in the biological system at the lysyl-lysine site to yield the individual peptide analogs, which together show a synergistic effect. On the basis of these experimental findings, it can be concluded that pairs of basic amino acids such as Lys-Lys can be used as facile linkers for delivering multiple biologically active peptides.     

Molecular Assessment of Diversity among Pathotypes of Colletotrichum falcatum Prevalent in Sub-Tropical Indian Sugarcane

Summary Six pathotypes of Colletotrichum falcatum, responsible for Red-rot in sugarcane, prevalent in subtropical India were examined for genetic relationships using RAPD markers. A high degree of polymorphism (78.6%) was observed using 40 RAPD markers. More than 50% genetic divergence was found among the pathotypes and UPGMA cluster analysis of genetic similarity indices grouped the six pathotypes into two clusters. Cluster I comprised pathotypes Cf01 and Cf09, while cluster II comprised the remaining four pathotypes. Cf02 and Cf08 were the most closely related among all the pathotypes. Pathotype-specific unique bands generated in RAPD profiling are being used for developing markers for pathotype identification in diseased cane samples.     

Antagonists of Hsp16.3, a low-molecular-weight mycobacterial chaperone and virulence factor, derived from phage-displayed peptide libraries

The persistence of Mycobacterium tuberculosis is a major cause of concern in tuberculosis (TB) therapy. In the persistent mode the pathogen can resist drug therapy, allowing the possibility of reactivation of the disease. Several protein factors have been identified that contribute to persistence, one of them being the 16-kDa low-molecular-weight mycobacterial heat shock protein Hsp16.3, a homologue of the mammalian eye lens protein alpha-crystallin. It is believed that Hsp16.3 plays a key role in the persistence phase by protecting essential proteins from being irreversibly denatured. Because of the close association of Hsp16.3 with persistence, an attempt has been made to develop inhibitors against it. Random peptide libraries displayed on bacteriophage M13 were screened for Hsp16.3 binding. Two phage clones were identified that bind to the Hsp16.3 protein. The corresponding synthetic peptides, an 11-mer and a 16-mer, were able to bind Hsp16.3 and inhibit its chaperone activity in vitro in a dose-dependent manner. Little or no effect of these peptides was observed on alphaB-crystallin, a homologous protein that is a key component of human eye lens, indicating that there is an element of specificity in the observed inhibition. Two histidine residues appear to be common to the selected peptides. Nuclear magnetic resonance studies performed with the 11-mer peptide indicate that in this case these two histidines may be the crucial binding determinants. The peptide inhibitors of Hsp16.3 thus obtained could serve as the basis for developing potent drugs against persistent TB.