Targeted substrate degradation by an engineered double RING ubiquitin ligase

Recognition of the substrates by ubiquitin ligases is crucial for substrate specificity in the ubiquitin-proteasome proteolytic pathway. In the present study, we designed a double RING finger ubiquitin ligase to direct the ubiquitin machinery to a specific substrate. The engineered ligase contains the RING finger domains of both BRCA1 and BARD1 linked to a substrate recognition site PCNA, which is known to interact with cyclin-dependent kinase inhibitor p57. The double RING finger ubiquitin ligase formed a homo-oligomer complex and exhibited significant ligase activity. Co-transfection of the ligase reduced the expression of transfected p57 to the background level in a proteasome-dependent manner and restored the colony formation ability of U2OS cells that is otherwise inhibited by overexpressed p57. The results indicate the ability of the engineered double RING ubiquitin ligase to target the intended substrate. By redesigning the substrate recognition site, expression of engineered double RING ubiquitin ligases may provide a useful tool for removing many different gene products at the protein level.     

Convergence of calcium signaling pathways of pathogenic elicitors and abscisic acid in Arabidopsis guard cells

A variety of stimuli, such as abscisic acid (ABA), reactive oxygen species (ROS), and elicitors of plant defense reactions, have been shown to induce stomatal closure. Our study addresses commonalities in the signaling pathways that these stimuli trigger. A recent report showed that both ABA and ROS stimulate an NADPH-dependent, hyperpolarization-activated Ca(2+) influx current in Arabidopsis guard cells termed "I(Ca)" (Z.M. Pei, Y. Murata, G. Benning, S. Thomine, B. Klüsener, G.J. Allen, E. Grill, J.I. Schroeder, Nature [2002] 406: 731-734). We found that yeast (Saccharomyces cerevisiae) elicitor and chitosan, both elicitors of plant defense responses, also activate this current and activation requires cytosolic NAD(P)H. These elicitors also induced elevations in the concentration of free cytosolic calcium ([Ca(2+)](cyt)) and stomatal closure in guard cells. ABA and ROS elicited [Ca(2+)](cyt) oscillations in guard cells only when extracellular Ca(2+) was present. In a 5 mM KCl extracellular buffer, 45% of guard cells exhibited spontaneous [Ca(2+)](cyt) oscillations that differed in their kinetic properties from ABA-induced Ca(2+) increases. These spontaneous [Ca(2+)](cyt) oscillations also required the availability of extracellular Ca(2+) and depended on the extracellular potassium concentration. Interestingly, when ABA was applied to spontaneously oscillating cells, ABA caused cessation of [Ca(2+)](cyt) elevations in 62 of 101 cells, revealing a new mode of ABA signaling. These data show that fungal elicitors activate a shared branch with ABA in the stress signal transduction pathway in guard cells that activates plasma membrane I(Ca) channels and support a requirement for extracellular Ca(2+) for elicitor and ABA signaling, as well as for cellular [Ca(2+)](cyt) oscillation maintenance.     

Diethylstilbestrol attenuates antioxidant activities in testis from male mice

It has been reported that acute exposure to diethylstilbestrol (DES) induces apoptosis in the testis, and antioxidants play a role in preventing DES-induced tissue damage. In this study, the effect of chronic exposure to DES on the antioxidants was examined in the testis and liver. Eight-week old male ICR mice were treated subcutaneously with various doses of DES for 20 days. Morphologically apparent apoptotic changes, 4-hydroxy-2-nonenal-positive cells and TUNEL-positive DNA-fragmentation, were demonstrated in the testis, but were minimal in the liver. Activities of antioxidants such as glutathione (GSH) peroxidase and GSH S -transferase decreased in both the liver and testis. The activity of Mn-superoxide dismutase (SOD) decreased in the liver but increased in the testis. The activity of Cu, Zn-SOD decreased in the liver but was unchanged in the testis. On Western and Northern blots, gamma-glutamylcysteine synthetase ( γ-GCS), a rate limiting enzyme of GSH synthesis, was increased in the liver dependent on the dose of DES. However, the expression of γ-GCS was reduced in the testis. Since quinones, metabolites of DES, generate reactive oxygen species, which damage DNA, antioxidants are important to prevent the damage. The data suggest that antioxidant activities are impaired by DES, and the levels of GSH are related to DES-induced apoptosis in the testis.     

Two lignan dimers from bamboo stems (Phyllostachys edulis)

Phyllostadimers A and B, two bis-lignans in which the two lignan units are directly connected by a C-C bond, were isolated from stems of bamboo, Phyllostachys edulis. Their structures were determined on the basis of spectral evidence. In addition, 14 known compounds were also obtained throughout the investigation. Phyllostadimer A significantly inhibited liposomal lipid peroxidation.     

Establishment of a monoclonal antibody for human LXRα: Detection of LXRα protein expression in human macrophages

Liver X activated receptor alpha (LXRalpha) forms a functional dimeric nuclear receptor with RXR that regulates the metabolism of several important lipids, including cholesterol and bile acids. As compared with RXR, the LXRalpha protein level in the cell is low and the LXRalpha protein itself is very hard to detect. We have previously reported that the mRNA for LXRalpha is highly expressed in human cultured macrophages. In order to confirm the presence of the LXRalpha protein in the human macrophage, we have established a monoclonal antibody against LXRalpha, K-8607. The binding of mAb K-8607 to the human LXRalpha protein was confirmed by a wide variety of different techniques, including immunoblotting, immunohistochemistry, and electrophoretic mobility shift assay (EMSA). By immunoblotting with this antibody, the presence of native LXR protein in primary cultured human macrophage was demonstrated, as was its absence in human monocytes. This monoclonal anti-LXRalpha antibody should prove to be a useful tool in the analysis of the human LXRalpha protein.     

Y box-binding protein-1 binds preferentially to single-stranded nucleic acids and exhibits 3'-->5' exonuclease activity

We have previously shown that Y box-binding protein-1 (YB-1) binds preferentially to cisplatin-modified Y box sequences. Based on structural and biochemical data, we predicted that this protein binds single-stranded nucleic acids. In the present study we confirmed the prediction and also discovered some unexpected functional features of YB-1. We found that the cold shock domain of the protein is necessary but not sufficient for double-stranded DNA binding while the C-tail domain interacts with both single-stranded DNA and RNA independently of the cold shock domain. In an in vitro translation system the C-tail domain of the protein inhibited translation but the cold shock domain did not. Both in vitro pull-down and in vivo co-immunoprecipitation assays revealed that YB-1 can form a homodimer. Deletion analysis mapped the C-tail domain of the protein as the region of homodimerization. We also characterized an intrinsic 3′→5′ DNA exonuclease activity of the protein. The region between residues 51 and 205 of its 324-amino acid extent is required for full exonuclease activity. Our findings suggest that YB-1 functions in regulating DNA/RNA transactions and that these actions involve different domains.