Heterotrimeric G�� subunit from wheat (Triticum aestivum), GA3, interacts with the calcium-binding protein, Clo3, and the phosphoinositide-specific phospholipase C, PI-PLC1

The canonical Gα subunit of the heterotrimeric G protein complex from wheat (Triticum aestivum), GA3, and the calcium-binding protein, Clo3, were revealed to interact both in vivo and in vitro and Clo3 was shown to enhance the GTPase activity of GA3. Clo3 is a member of the caleosin gene family in wheat with a single EF-hand domain and is induced during cold acclimation. Bimolecular Fluorescent Complementation (BiFC) was used to localize the interaction between Clo3 and GA3 to the plasma membrane (PM). Even though heterotrimeric G-protein signaling and Ca2? signaling have both been shown to play a role in the response to environmental stresses in plants, little is known about the interaction between calcium-binding proteins and Gα. The GAP activity of Clo3 towards GA3 suggests it may play a role in the inactivation of GA3 as part of the stress response in plants. GA3 was also shown to interact with the phosphoinositide-specific phospholipase C, PI-PLC1, not only in the PM but also in the endoplasmic reticulum (ER). Surprisingly, Clo3 was also shown to interact with PI-PLC1 in the PM and ER. In vitro analysis of the protein-protein interaction showed that the interaction of Clo3 with GA3 and PI-PLC1 is enhanced by high Ca2? levels. Three-way affinity characterizations with GA3, Clo3 and PI-PLC1 showed the interaction with Clo3 to be competitive, which suggests that Clo3 may play a role in the Ca2?-triggered feedback regulation of both GA3 and PI-PLC1. This hypothesis was further supported by the demonstration that Clo3 has GAP activity with GA3.     

3-Phenoxy-α-cyano-benzyl Esters,the Most Potent Synthetic Pyrethroids

Three fractions with nucleolytic activities were isolated from rice bran by DEAE-cellulose column chromatography and designated as RB-1, RB-2 and RB-3. RB-1, RB-2 and RB-3 had molecular weights of approximately 6,200, 35,000 and 14,500, respectively, by gel filtration. The main fraction (RB-3) was purified by Sephadex G-75 and CM-cellulose column chromatography. The pH optimum was 5.0. The nucleolytic activity of RB-3 was strongly inhibited by Cu^{2 +} , while EDTA had no effect on the activity. Seventy-five percent of the original activity of RB-3 still remained after 16 minutes of heating at 100°C. It appeared to be an endonuclease which hydrolyzes yeast RNA to yield purine nucleotides.     

Use of molecular modeling, docking, and 3D-QSAR studies for the determination of the binding mode of benzofuran-3-yl-(indol-3-yl)maleimides as GSK-3β inhibitors

Molecular modeling and docking studies along with three-dimensional quantitative structure relationships (3D-QSAR) studies have been used to determine the correct binding mode of glycogen synthase kinase 3β (GSK-3β) inhibitors. The approaches of comparative molecular field analysis (CoMFA) and comparative molecular similarity index analysis (CoMSIA) are used for the 3D-QSAR of 51 substituted benzofuran-3-yl-(indol-3-yl)maleimides as GSK-3β inhibitors. Two binding modes of the inhibitors to the binding site of GSK-3β are investigated. The binding mode 1 yielded better 3D-QSAR correlations using both CoMFA and CoMSIA methodologies. The three-component CoMFA model from the steric and electrostatic fields for the experimentally determined pIC₅₀ values has the following statistics: R²(cv) = 0.386 nd SE(cv) = 0.854 for the cross-validation, and R² = 0.811 and SE = 0.474 for the fitted correlation. F (3,47) = 67.034, and probability of R² = 0 (3,47) = 0.000. The binding mode suggested by the results of this study is consistent with the preliminary results of X-ray crystal structures of inhibitor-bound GSK-3β. The 3D-QSAR models were used for the estimation of the inhibitory potency of two additional compounds.     

3′-Hydroxy-ε,ε-caroten-3-one inhibits the differentiation of 3T3-L1 cells to adipocytes

An oxidative metabolite of lutein, 3′-hydroxy-ε,ε-caroten-3-one, inhibited the differentiation of 3T3-L1 cells to adipocytes and the subsequent triacylglycerol production, but lutein did not. The α,β-unsaturated carbonyl structure of 3′-hydroxy-ε,ε-caroten-3-one was considered to participate in the inhibitory effect, suggesting that this lutein metabolite has the potential to prevent metabolic syndrome.     

CSL311, a novel,potent, therapeutic monoclonal antibody for the treatment of diseases mediated by the common β chain of the IL-3, GM-CSF and IL-5 receptors

The β common-signaling cytokines interleukin (IL)-3, granulocyte-macrophage colony stimulating factor (GM-CSF) and IL-5 stimulate pro-inflammatory activities of haematopoietic cells via a receptor complex incorporating cytokine-specific α and shared β common (β_c, CD131) receptor. Evidence from animal models and recent clinical trials demonstrate that these cytokines are critical mediators of the pathogenesis of inflammatory airway disease such as asthma. However, no therapeutic agents, other than steroids, that specifically and effectively target inflammation mediated by all 3 of these cytokines exist. We employed phage display technology to identify and optimize a novel, human monoclonal antibody (CSL311) that binds to a unique epitope that is specific to the cytokine-binding site of the human β_c receptor. The binding epitope of CSL311 on the β_c receptor was defined by X-ray crystallography and site-directed mutagenesis. CSL311 has picomolar binding affinity for the human β_c receptor, and at therapeutic concentrations is a highly potent antagonist of the combined activities of IL-3, GM-CSF and IL-5 on primary eosinophil survival in vitro. Importantly, CSL311 inhibited the survival of inflammatory cells present in induced sputum from human allergic asthmatic subjects undergoing allergen bronchoprovocation. Due to its high potency and ability to simultaneously suppress the activity of all 3 β common cytokines, CSL311 may provide a new strategy for the treatment of chronic inflammatory diseases where the human β_c receptor is central to pathogenesis. The coordinates for the β_c/CSL311 Fab complex structure have been deposited with the RCSB Protein Data Bank (PDB 5DWU).     

The TF1-ATPase and ATPase activities of assembled α3β3γ, α3β3γδ, and α3β3γε complexes are stimulated by low and inhibited by high concentrations of rhodamine 6G whereas the dye only inhibits the α3β3, and α3β3δ complexes

The ATPase activity of the F₁-ATPase from the thermophilic bacterium PS3 is stimulated at concentrations of rhodamine 6G up to about 10 µM where 70% stimulation is observed at 36°C. Half maximal stimulation is observed at about 3 µM dye. At rhodamine 6G concentrations greater than 10 µM, ATPase activity declines with 50% inhibition observed at about 75 µM dye. The ATPase activities of the ₃₃ and ₃₃ complexes assembled from isolated subunits of TF₁ expressed inE. coli deleted of theunc operon respond to increasing concentrations of rhodamine 6G nearly identically to the response of TF₁. In contrast, the ATPase activities of the ₃₃ and ₃₃ complexes are only inhibited by rhodamine 6G with 50% inhibition observed, respectively, at 35 and 75 µM dye at 36°C. The ATPase activity of TF₁ is stimulated up to 4-fold by the neutral detergent, LDAO. In the presence of stimulating concentrations of LDAO, the ATPase activity of TF₁ is no longer stimulated by rhodamine 6G, but rather, it is inhibited with 50% inhibition observed at about 30 µM dye at 30°C. One interpretation of these results is that binding of rhodamine 6G to a high-affinity site on TF₁ stimulates ATPase activity and unmasks a low-affinity, inhibitory site for the dye which is also exposed by LDAO.     

Buchnera aphidicola,the endosymbiont of aphids,contains genes for four ribosomal RNA proteins,initiation factor-3, and the α-subunit of RNA polymerase

Buchnera aphidicola is a prokaryotic endosymbiont of the aphidSchizaphis graminum. With the polymerase chain reaction (PCR) and oligonucleotide primers to conserved regions, two DNA fragments of the endosymbiont -operon and L20 operon were amplified, cloned intoEscherichia coli, and their sequences were determined. The results indicated that the organization of the endosymbiont genes on these fragments was identical with that of the corresponding operons ofE. coli. The 1032 base pair (bp) fragment of the -operon contained the genes for small ribosomal subunit proteins S11 and S4, followed by the gene for the -subunit of RNA polymerase (-RNAP). The 702-bp fragment of the L20-operon contained the genes for initiation factor-3 (IF3) and large ribosomal subunit proteins L35 and L20. As in other prokaryotes, the genes of the -operon and the L20-operon were present as single copies in the genome ofB. aphidicola. Comparisons of the amino acid sequences of these proteins were consistent with the previously established close relationship betweenB. aphidicola andE. coli and a distant relationship to species ofBacillus.     

CX3CL1 promotes MMP-3 production via the CX3CR1, c-Raf,MEK, ERK,and NF-κB signaling pathway in osteoarthritis synovial fibroblasts

Background

Osteoarthritis (OA) is a degenerative joint disease that affects the cartilage, synovium, and subchondral bone and is the leading cause of disability in older populations. Specific diagnostic biomarkers are lacking; hence, treatment options for OA are limited. Synovial inflammation is very common in OA joints and has been associated with both OA’s symptoms and pathogenesis. Confirming the role of the synovium in OA pathogenesis is a promising strategy for mitigating the symptoms and progression of OA. CX3CL1 is the only member of the CX3C class of chemokines that combines the properties of chemoattractants and adhesion molecules. CX3CL1 levels in the synovium and serum were both discovered to be positively associated with OA pathogenesis. CX3CL1 and its receptor CX3CR1 belong to a family of G protein-coupled receptors. Matrix metalloproteinases (MMPs), which are responsible for matrix degradation, play a crucial role in OA progression. The relationship between CX3CL1 and MMPs in the pathophysiology of OA is still unclear.

Methods

CX3CL1-induced MMP-3 production was assessed with quantitative real-time PCR and ELISA. The mechanisms of action of CX3CL1 in different signaling pathways were studied using western blot analysis, quantitative real-time PCR and ELISA. Neutralization antibodies of integrin were achieved to block the CX3CR1 signaling pathway. Luciferase assays were used to study NF-κB promoter activity.

Results

We investigated the signaling pathway involved in CX3CL1-induced MMP-3 production in osteoarthritis synovial fibroblasts (OASFs). CX3CL1 was found to induce MMP-3 production in a concentration-dependent and time-dependent manner. Using pharmacological inhibitors and CX3CR1 small interfering RNA to block CX3CR1 revealed that the CX3CR1 receptor was involved in the CX3CL1-mediated upregulation of MMP-3. CX3CL1-mediated MMP-3 production was attenuated by c-Raf inhibitors (GW5074) and MEK/ERK inhibitors (PD98059 and U0126). The OASFs were stimulated using CX3CL1-activated p65 phosphorylation.

Conclusions

Our results demonstrate that CX3CL1 activates c-Raf, MEK, ERK, and NF-κB on the MMP-3 promoter through CX3CR1, thus contributing to cartilage destruction during OA.

     

3β-Acetoxyhopan-1β,22-diol,a triterpene from the lichen Pseudoparmelia texana

From the lichen Pseudoparmelia texana the triterpene 3β-acetoxyhopan-1β,22-diol has been isolated and its structure elucidated.     

Pushing cancer cells to commit suicide: Is 072RB,the new BH3 mimetic,up to the job?

It has been known since the early 90s that apoptosis is the mode of death of cancer cells during chemotherapy.1 Propensity of cells to undergo apoptosis is modulated by the balance of pro-apoptotic versus anti-apoptotic members of Bcl-2 family proteins.2 Mitochondrial outer membrane permeabilization (MOMP) which leads to release of cytochrome c and other apoptogenic factors triggering apoptosis occurs as a result of shift of this balance towards pro-apoptotic Bcl-2 proteins. Furthermore, constitutive prevalence of the anti-apoptotic Bcl-2 family proteins is considered to promote cancer development; the classic example is B-cell lymphoma. Anticancer strategies therefore, were designed that rely on promoting apoptosis of cancer cells via altering the balance among the interacting Bcl-2 proteins. One strategy involves the use of antisense oligonucleotides targeting anti-apoptotic Bcl-2 proteins. Preclinical and clinical investigations on the drugs developed along this strategy [e.g. Oblimersen (Genasense®)] are already well advanced. Another, attractive approach is to use agents that mimic the Bcl-2 homology 3 (BH3) domains of the pro-apoptotic Bcl-2 family proteins (BH3 mimetics). Their mode of action involves competitive binding to surface hydrophobic grooves of anti-apoptotic Bcl-2 members thereby releasing the pro-apoptotic Bcl-2 molecules otherwise sequestered in complexes with the anti-apoptotic ones.2-4 The most investigated BH3 mimetic ABT-737 demonstrated distinct antitumor activity in vitro and in vivo against some leukemia types and solid tumors.3,5

In the article published in this issue of Cell Cycle6 Ponassi and her collaborators describe a novel BH3 mimetic, named 072RB, constructed by replacing specific moieties of Bim-BH3 with natural and non-natural aminoacids and adding an internalizing sequence. In elegant studies the authors convincingly demonstrate internalization and mitochondrial localization of 072RB followed by suppression of growth and apoptotic death of cells of leukemia cell lines. They also observed lethal ex vivo effects of 072RB on AML leukemic cells as well as remarkable inhibition of growth of xenografted human AML cells in NOD/SCID mice with no evidence of toxicity to normal tissue. Normal human lymphocytes, whether quiescent or mitogenically stimulated, were resistant to this BH3 mimetic. An important virtue of 072RB is resistance to proteolysis conferring its stability when used in vivo.

The interplay between the pro-apoptotic and anti-apoptotic Bcl-2 family members is rather complex because depending on cell type and the agent that induces apoptosis different members interact with each other. The mechanism of these interactions is still not fully understood. According to the “different affinity” model the BH3-only proteins Bad and Bmf target Bcl-2, Bcl-w and Bcl-xL, Noxa targets Mcl-1 and A1 whereas Bim and Puma target all the above pro-survival Bcl-2 proteins with comparable affinities.3 In the “direct activator” model Bim, tBid and Puma are the most downstream molecules, directly binding to Bax/Bak and thereby preventing their release, oligomerization and MOMP. In either of these models therefore, the Bim-activating BH-3 mimetic, such as 072RB, is expected to have wider spectrum of activity towards different cell types and different inducers of apoptosis than for instance ABT-737, as the latter, because of its Bad-like structure, does not target Mcl-1.

It is too early to predict whether BH3 mimetics bestow the breakthrough in cancer therapy. Their unique mechanism of action specifically targeting apoptotic machinery raises hopes that this may be the case.3 The new BH3 mimetic 072RB described by Ponassi et al.6 has all attributes to become the leading member of this new class of anticancer drugs. 072RB definitely deserves further evaluation in clinical trials to reveal its therapeutic capabilities whether used as a single agent or in combinatorial therapy.

ReferencesGorczyca W, at al. Leukemia 1993; 7:659-70.Fletcher JI, et al. Cell Cycle 2008; 7:39-44.Labi V, et al. Cell Death Differ 2008; 15:977-87.Wade et al., Cell Cycle 2008; 7:1973-82.Konoplewa M, et al. Cancer Cell 2006; 10:375-88.Ponassi R, et al. Cell Cycle 2008; In this issue.     

Easy stereoselective synthesis of 5α-estrane-3β,17α-diol, the major metabolite of nandrolone in the horse

5α-Estrane-3β,17α-diol is the major metabolite of nandrolone in horse urine. The presence of 5α-estrane-3β,17α-diol in female and gelding urines is prohibited by Racing Rules and its natural presence in male urine led regulation authorities to establish a concentration threshold of 45 ng/mL. This paper describes a rapid, simple and stereoselective synthesis of 5α-estrane-3β,17α-diol, providing horseracing laboratories with an essential reference material for their antidoping performance.     

Purification of ecdysone oxidase and 3-dehydroecdysone 3α-reductase from the cotton leafworm,Spodoptera littoralis

The 3-epimerization of ecdysteroids (insect moulting hormones) is an inactivation pathway of the hormones that has been reported to occur in midgut cytosol of Lepidoptera. The pathway involves ecdysone oxidase-catalysed conversion of ecdysone into 3-dehydroecdysone, which is then irreversibly reduced to 3-epiecdysone by 3DE 3α-reductase. In this study, ecdysone oxidase and 3DE 3α-reductase from the cotton leafworm, S. littoralis, have been purified by extensive chromatography together with electrophoresis on native gels. Gel filtration suggested that the native ecdysone oxidase might be a trimer with apparent molecular mass of approximately 190 kDa, since the apparent molecular mass of the oxidase subunit was determined to be 64 kDa by SDS-PAGE. Two forms of 3DE 3α-reductase were observed during the purification, the 26 kDa form reductase has been purified to homogeneity and the second form of the reductase identified as a 51 kDa protein. The former reductase may be a trimer with apparent molecular mass of 76 kDa, whilst the latter was suggested to be a monomer by gel filtration. Chromatographic behaviour suggested that the 26 kDa form of the reductase has a lower pI value and a higher degree of hydrophobicity than that of the 51 kDa reductase. Substrate specificity and the tissue distribution of these enzymes are discussed.     

The Fluorescent Dye 3, 3′ Dihexyloxacarbocyanine Iodide Selectively Stains the Midpiece and Apical Region of the Heads of Murid Rodent Spermatozoa

Fluorescence microscopy of caudal epididymal spermatozoa stained with 3, 3′ dihexyloxacarbocyanine iodide (DiOC₆(3)) showed intense fluorescence along the concave surface of the apical hook of spermatozoa of Rattus species and along the upper concave margin of the sperm head in Mus musculus In the spermatozoa of Hydromys chrysogaster, Melomys cervinipes, and Pseudomys australis, the two ventral processes also fluoresced brightly. In P. australis, fluorescence in the apical hook of sperm heads was largely localized to its upper and lower surfaces. The sperm of N. alexis did not show consistent positive fluorescence. The localization of fluorescence in these spermatozoa after staining with DiOC₆(3) was mainly restricted to regions where a large accumulation of perinuclear theca material lies beneath the plasmalemma. The reason for this remains to be determined, but DiOC₆(3) may be useful for quickly demonstrating areas of abundant perinuclear thecal material in sperm heads of eutherian mammals by light microscopy.     

The interrelationship between HCO 3 − , NO 3 − , and Cl− as effective anions in the photosynthetic electron transport

Thylakoids were isolated from the leaves of three different plants (Pisum sativium L., Lactuca sativa L., and Raphanus sativus L.). The addition of HCO ₃ ^? to a suspension of salt-and HCO ₃ ^? -epleted thylakoids (suspended in salt-free medium) raised the rate of O₂ evolution up to fourfold. This stimulation could be partially replaced by the addition of chloride or nitrate ions. However, the addition of HCO ₃ ^? in the presence of Cl^? or NO ₃ ^? resulted in a higher stimulation of O₂ evolution (sixfold in the presence of nitrate and sevenfold in the presence of chloride). On the other hand, the addition of HCO ₃ ^? to the thylakoids depleted from salt only raised the rate of O₂ evolution by 10–15%, whereas 40–70% was obtained by the addition of nitrate or chloride ions. The fluorescence induction studies indicated a significant decrease in the yield of the variable fluorescence of the salt- and HCO ₃ ^? -depleted thylakoids. A partial increase in the fluorescence yield was obtained by the addition of HCO ₃ ^? alone. A typical fluorescence induction curves were obtained by the addition of HCO ₃ ^? in the presence of Cl^? or NO ₃ ^? ions. The data obtained suggest a similar role for chloride and nitrate ions in O₂ evolution in the Hill-reaction, which is restricted at the donor side of photosystem II, whereas bicarbonate plays its role at both sides (acceptor and donor sides). The presented data are those obtained for the thylakoids of P. sativium, which were more or less similar to those obtained for L. sativa and R. sativus.