Purification,structure-function analysis,and molecular characterization of novel linear peptides from scorpion Opisthacanthus madagascariensis

In the previous report [Biochem. Biophys. Res. Commun. 286 (2001) 820], we described a novel short linear peptide, IsCT, with cytolytic activity isolated from the venom of scorpion Opisthacanthus madagascariensis. From the same scorpion venom, we further purified and characterized three short linear peptides named IsCT2, IsCTf, and IsCT2f that shared high homology with IsCT, while with different C-terminal areas between IsCT/IsCT2 and IsCTf/IsCT2f. Structure-activity relationship was analyzed by performing vivo and vitro assays and circular dichroism spectroscopy. Like IsCT, IsCT2 showed broad activity spectra against microbes (Gram positive and negative bacteria as well as fungi) and relatively weak hemolytic activity against sheep red blood cells. It adopts an amphipathic alpha-helical structure in aqueous TFE and is able to disrupt the artificial membrane. However, the other two peptides IsCTf and IsCT2f showed no activity in antimicrobial or hemolytic assay. Furthermore, IsCTf and IsCT2f cannot form amphipathic alpha-helix while demonstrating random coil structure in aqueous TFE, which might result in their lost cytolytic activity. IsCTf and IsCT2f both exist in the crude venom and are proved to be enzymatic products from IsCT and IsCT2. Whether they have some other biological activity is still unclear. In addition, we got the cDNAs encoding the precursors of IsCT and IsCT2. Besides the signal peptide, they still contain an unusual acidic pro-peptide at the C-terminal that was quite different from other known precursors of scorpion venom peptides. The novel structure and biological activity of these peptides proposed them to be a new class in scorpion venom.     

Effects of nitric oxide donors on vascular endothelial growth factor gene induction

Nitric oxide (NO) has been reported to modulate the vascular endothelial growth factor (VEGF) gene by accumulating hypoxia-inducible factor-1alpha (HIF-1alpha) protein, but there is a contradiction among effects of various NO donors. The effects of NO donors including S-nitroso-N-acetyl-penicillamine (SNAP), S-nitroso-glutathione (GSNO), 1-hydroxy-2-oxo-3,3-bis(2-aminoethyl)-1-triazene (NOC18), 3-[(+/-)-(E)-ethyl-2(')-[(E)-hydroxyimino]-5-nitro-3-hexenecarbamoyl]-pyridine (NOR4), 3-morpholinosydnonimine (SIN-1), and nitroprusside (SNP) on the VEGF reporter gene were examined. SNAP, GSNO, NOC18, and NOR4 enhanced the VEGF reporter activity under normoxia and modulated the hypoxic induction. In contrast, SNP had only an inhibitory effect. An NO scavenger attenuated the reporter activation by NO donors except NOR4, but did not ameliorate the inhibitory effect of SNP. A reducing compound dithiothreitol suppressed NO-induced activation of the VEGF reporter gene. SNAP, GSNO, and NOC18 induced the accumulation of HIF-1alpha protein, while others did not. These results suggest that SNAP, GSNO, and NOC compounds are suitable for pharmacological studies in HIF-1-mediated VEGF gene activation by NO.     

Chemomechanical coupling of the forward and backward steps of single kinesin molecules

The molecular motor kinesin travels processively along a microtubule in a stepwise manner. Here we have studied the chemomechanical coupling of the hydrolysis of ATP to the mechanical work of kinesin by analysing the individual stepwise movements according to the directionality of the movements. Kinesin molecules move primarily in the forward direction and only occasionally in the backward direction. The hydrolysis of a single ATP molecule is coupled to either the forward or the backward movement. This bidirectional movement is well described by a model of Brownian motion assuming an asymmetric potential of activation energy. Thus, the stepwise movement along the microtubule is most probably due to Brownian motion that is biased towards the forward direction by chemical energy stored in ATP molecules.     

Hyperphosphorylation and insolubility of alpha-synuclein in transgenic mouse oligodendrocytes

(Oligodendro)glial cytoplasmic inclusions composed of α-synuclein (αSYN) characterize multiple system atrophy (MSA). Mature oligodendrocytes (OLs) do not normally express αSYN, so MSA pathology may arise from aberrant expression of αSYN in OLs. To study pathological deposition of αSYN in OLs, transgenic mice were generated in which human wild-type αSYN was driven by a proteolipid protein promoter. Transgenic αSYN was detected in OLs but no other brain cell type. At the light microscopic level, the transgenic αSYN profiles resembled glial cytoplasmic inclusions. Strikingly, the diagnostic hyperphosphorylation at S129 of αSYN was reproduced in the transgenic mice. A significant proportion of the transgenic αSYN was detergent insoluble, as in MSA patients. The histological and biochemical abnormalities were specific for the disease-relevant αSYN because control green fluorescent protein was fully soluble and evenly distributed throughout OL cell bodies and processes. Thus, ectopic expression αSYN in OLs might initiate salient features of MSA pathology.     

Differences in stretch reflex responses of elbow flexor muscles during shortening, lengthening and isometric contractions

Stretch reflexes were evoked in elbow flexor muscles undergoing three different muscle contractions, i.e. isotonic shortening (SHO) and lengthening (LEN), and isometric (ISO) contractions. The intermuscle relationships for the magnitude of the stretch reflex component in the eletromyographic (EMG) activities of two main elbow flexor muscles, i.e. the biceps brachii (BB) and the brachioradialis (BRD), were compared among the three types of contractions. The subjects were requested to move their forearms sinusoidally (0.1 Hz) against a constant pre-load between elbow joint angles of 10° (0° = full extension) and 80° during SHO and LEN, and to keep an angle of 45° during the ISO. The perturbations were applied at the elbow angle of 45° in pseudo-random order. The EMG signals were rectified and averaged over a period of 100 ms before and 400 ms after the onset of the perturbation 40–50 times. From the ensemble averaged EMG waveform, the background activity (BGA), short (20–50 ms) and long latency (M2, 50–80, M3, 80–100 ms) reflex and voluntary activity (100–150 ms) components were measured. The results showed that both BGA and reflex EMG activity of the two elbow flexor muscles were markedly decreased during the lengthening contraction compared to the SHO and ISO contractions. Furthermore, the changes of reflex EMG components in the BRD muscle were more pronounced than those in the BB muscle, i.e. the ratios of M2 and M3 magnitudes between BRD and BB (BRD:BB) were significantly reduced during the LEN contractions. These results would suggest that the gain of long latency stretch reflex EMG activities in synergistic muscles might be modulated independently according to the model of muscle contraction. Accepted: 1 September 1997     

Intraspecific variability of the tandem repeats in Nicotiana putrescine N-methyltransferases

Plant Molecular Biology -     

Roles of Rho-associated Kinase in Cytokinesis; Mutations in Rho-associated Kinase Phosphorylation Sites Impair Cytokinetic Segregation of Glial Filaments

Rho-associated kinase (Rho-kinase), which is activated by the small GTPase Rho, regulates formation of stress fibers and focal adhesions, myosin fiber organization, and neurite retraction through the phosphorylation of cytoskeletal proteins, including myosin light chain, the ERM family proteins (ezrin, radixin, and moesin) and adducin. Rho-kinase was found to phosphorylate a type III intermediate filament (IF) protein, glial fibrillary acidic protein (GFAP), exclusively at the cleavage furrow during cytokinesis. In the present study, we examined the roles of Rho-kinase in cytokinesis, in particular organization of glial filaments during cytokinesis. Expression of the dominant-negative form of Rho-kinase inhibited the cytokinesis of Xenopus embryo and mammalian cells, the result being production of multinuclei. We then constructed a series of mutant GFAPs, where Rho-kinase phosphorylation sites were variously mutated, and expressed them in type III IF-negative cells. The mutations induced impaired segregation of glial filament (GFAP filament) into postmitotic daughter cells. As a result, an unusually long bridge-like cytoplasmic structure formed between the unseparated daughter cells. Alteration of other sites, including the cdc2 kinase phosphorylation site, led to no remarkable defect in glial filament separation. These results suggest that Rho-kinase is essential not only for actomyosin regulation but also for segregation of glial filaments into daughter cells which in turn ensures correct cytokinetic processes.     

A phenol alloside from viburnum wrightii

A new phenol alloside, p-hydroxyphenyl β-D-alloside, has been isolated from the leaves of Viburnum wrightii in addition to several known compounds. The structures were elucidated by spectroscopic and chemical methods.     

MOLECULAR DIVERGENCE AND CHARACTERIZATION OF TWO CHLOROPLAST DIVISION GENES,FTSZ1 AND FTSZ2, IN THE UNICELLULAR GREEN ALGA NANNOCHLORIS BACILLARIS (CHLOROPHYTA)1

Two FtsZ paralogues (NbFtsZ1 and NbFtsZ2) were isolated from the unicellular green alga Nannochloris bacillaris Naumann. These sequences encoded proteins of 435 and 439 amino acids with tubulin signature motifs (GGGTG[T/S]G), which are important for GTP binding activity. NbFtsZ1 and NbFtsZ2 had four and three introns, respectively, and two different putative core promoters; a TATA box (TATAAAA) and an initiator element (CCCAGG) were located 40 bp and 80 bp upstream of the coding regions of NbFtsZ1 and NbFtsZ2, respectively. Southern blot hybridization and contour‐clamped homogeneous electric field electrophoresis showed that N. bacillaris contained at least one copy of each gene and that NbFtsZ1 was located on chromosome 5 and NbFtsZ2 on chromosome 3 or 4. Phylogenetically, NbFtsZ1 and NbFtsZ2 belong to the vascular plant protein families FtsZ1 and FtsZ2, respectively. The FtsZ1 proteins do not contain carboxy‐terminal consensus sequences, whereas all FtsZ2 proteins possess the consensus sequence (I/V)PxFL(R/K)(K/R)(K/R). Our study has shown that NbFtsZ2 possesses a similar consensus sequence (VPDFLRRK), whereas NbFtsZ1 does not, further supporting their classification as FtsZ2 and FtsZ1. Escherichia coli ftsZ mutants transformed with cloned NbFtsZ1, and NbFtsZ2 cDNAs were restored for the capacity to divide by binary fission, suggesting that the proteins retained the ability to function in the bacterium. An anti‐NbFtsZ2 antibody specifically recognized a single protein band of approximately 51 kDa on an immunoblot of N. bacillaris cellular proteins. Immunostaining of the algal cells with this antibody produced an intense fluorescent signal as a ring near the middle of the cell, which corresponded to the chloroplast division site.     

Cellular responses of the ciliate, Tetrahymena thermophila, to far infrared irradiation.

Infrared rays from sunlight permeate the earth's atmosphere, yet little is known about their interactions with living organisms. To learn whether they affect cell structure and function, we tested the ciliated protozoan, Tetrahymena thermophila. These unicellular eukaryotes aggregate in swarms near the surface of freshwater habitats, where direct and diffuse solar radiation impinge upon the water-air interface. We report that populations irradiated in laboratory cultures grew and mated normally, but major changes occurred in cell physiology during the stationary phase. Early on, there were significant reductions in chromatin body size and the antibody reactivity of methyl groups on lysine residues 4 and 9 in histone H3. Later, when cells began to starve, messenger RNAs for key proteins related to chromatin structure, intermediary metabolism and cellular motility increased from two- to nearly nine-fold. Metabolic activity, swimming speed and linearity of motion also increased, and spindle shaped cells with a caudal cilium appeared. Our findings suggest that infrared radiation enhances differentiation towards a dispersal cell-like phenotype in saturated populations of Tetrahymena thermophila.