[D‐(p‐Benzoylphenylalanine)13, tyrosine19]‐melanin‐concentrating hormone,a potent analogue for MCH receptor crosslinking

A photoreactive analogue of human melanin‐concentrating hormone was designed, [d‐ Bpa¹³,Tyr¹⁹]‐MCH, containing the d‐ enantiomer of photolabile p‐benzoylphenylalanine (Bpa) in position 13 and tyrosine for radioiodination in position 19. The linear peptide was synthesized by the continuous‐flow solid‐ phase methodology using Fmoc‐strategy and PEG‐PS resins, purified to homogeneity and cyclized by iodine oxidation. Radioiodination of [d ‐Bpa¹³,Tyr¹⁹]‐MCH at its Tyr¹⁹ residue was carried out enzymatically using solid‐ phase bound glucose oxidase/lactoperoxidase, followed by purification on a reversed‐ phase mini‐column and HPLC. Saturation binding analysis of [¹²⁵I]‐[d‐ Bpa¹³,Tyr¹⁹]‐MCH with G4F‐7 mouse melanoma cells gave a K_D of 2.2±0.2×10⁻¹⁰ mol/l and a B_max of 1047±50 receptors/cell. Competition binding analysis showed that MCH and rANF(1–28) displace [¹²⁵I]‐[d‐ Bpa¹³,Tyr¹⁹]‐MCH from the MCH binding sites on G4F‐7 cells whereas α‐MSH has no effect. Receptor crosslinking by UV‐irradiation of G4F‐7 cells in the presence of [¹²⁵I]‐[d‐ Bpa¹³,Tyr¹⁹]‐MCH followed by SDS‐polyacrylamide gel electrophoresis and autoradiography yielded a band of 45–50 kDa. Identical crosslinked bands were also detected in B16‐F1 and G4F mouse melanoma cells, in RE and D10 human melanoma cells as well as in COS‐7 cells. Weak staining was found in rat PC12 phaeochromocytoma and Chinese hamster ovary cells. No crosslinking was detected in human MP fibroblasts. These data demonstrate that [¹²⁵I]‐[d‐ Bpa¹³,Tyr¹⁹]‐MCH is a versatile photocrosslinking analogue of MCH suitable to identify MCH receptors in different cells and tissues; the MCH receptor in these cells appears to have the size of a G protein‐coupled receptor, most likely with a varying degree of glycosylation. Copyright © 1999 European Peptide Society and John Wiley & Sons, Ltd.     

Substrate and metabolic promiscuities of d‐altronate dehydratase family proteins involved in non‐phosphorylative d‐arabinose,sugar acid,l‐galactose and l‐fucose pathways from bacteria

The gene context in microorganism genomes is of considerable help for identifying potential substrates. The C785_RS13685 gene in Herbaspirillum huttiense IAM 15032 is a member of the d‐ altronate dehydratase protein family, and which functions as a d‐ arabinonate dehydratase in vitro, is clustered with genes related to putative pentose metabolism. In the present study, further biochemical characterization and gene expression analyses revealed that l‐ xylonate is a physiological substrate that is ultimately converted to α‐ketoglutarate via so‐called Route II of a non‐phosphorylative pathway. Several hexonates, including d‐ altronate, d‐ idonate and l‐ gluconate, which are also substrates of C785_RS13685, also significantly up‐regulated the gene cluster containing C785_RS13685, suggesting a possibility that pyruvate and d‐ or l‐ glycerate were ultimately produced (novel Route III). On the contrary, ACAV_RS08155 of Acidovorax avenae ATCC 19860, a homologous gene to C785_RS13685, functioned as a d‐ altronate dehydratase in a novel l‐ galactose pathway, through which l‐ galactonate was epimerized at the C5 position by the sequential activity of two dehydrogenases, resulting in d‐ altronate. Furthermore, this pathway completely overlapped with Route III of the non‐phosphorylative l‐ fucose pathway. The ‘substrate promiscuity’ of d‐ altronate dehydratase protein(s) is significantly expanded to ‘metabolic promiscuity’ in the d‐ arabinose, sugar acid, l‐ fucose and l‐ galactose pathways.     

N‐[2‐[(3‐Chlorophenyl)amino]‐phenyl]‐3‐(difluoromethyl)‐1‐methyl‐1H‐pyrazole‐4‐carboxamide: Synthesis,Crystal Structure,Molecular Docking and Biological Activities

In continuation of our previous research on the development of novel pyrazole‐4‐carboxamide with potential antifungal activity, compound SCU2028 , namely N‐[2‐[(3‐chlorophenyl)amino]phenyl]‐3‐(difluoromethyl)‐1‐methyl‐1H‐pyrazole‐4‐carboxamide, was synthesized by new method, structurally characterized by IR, HR‐ESI‐MS, ¹H‐ and ¹³C‐NMR spectra and further identified by single‐crystal X‐ray diffraction. In pot tests, compound SCU2028 showed good in vivo antifungal activity against Rhizoctonia solani (R. solani) and IC₅₀ value of it was 7.48 mg L^?1. In field trials, control efficacy of compound SCU2028 at 200 g.a.i. ha^?1 was 42.30 % on the 7^th day after the first spraying and 68.10 % on the 14^th day after the second spraying, only slightly lower than that of thifluzamide (57.20 % and 71.40 %, respectively). Further in vitro inhibitory activity showed inhibitory ability of compound SCU2028 was 45‐fold higher than that of bixafen and molecular docking of compound SCU2028 to SDH predicted its binding orientation in the active site of the target protein SDH. These results suggested that compound SCU2028 was a potential fungicide for control of rice sheath blight.     

TAPP analogs containing β3‐homo‐amino acids: synthesis and receptor binding

β‐Amino acids containing α,β‐hybrid peptides show great potential as peptidomimetics. In this paper, we describe the synthesis and affinity to μ‐opioid and δ‐opioid receptors of α,β‐hybrids, analogs of the tetrapeptide Tyr‐ d ‐Ala‐Phe‐Phe‐NH₂ (TAPP). Each amino acid was replaced with an l ‐ or d ‐β³‐h‐amino acid. All α,β‐hybrids of TAPP analogs were synthesized in solution and tested for affinity to μ‐opioid and δ‐opioid receptors. The analog Tyr‐β³h‐ d ‐Ala‐Phe‐PheNH₂ was found to be as active as the native tetrapeptide. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.     

Isolation,Stereochemical Study,and Antioxidant Activity of Benzofuranone Derivatives from a Mangrove‐derived Fungus Eurotium rubrum MA‐150

Enantiomers of a 2‐benzofuran‐1(3H)‐one derivative [(–)‐ 1 and (+)‐ 1 ] and four known analogs ( 2 , 3 , 4 , 5 ) were isolated and identified from the culture extract of Eurotium rubrum MA–150, a fungus obtained from the mangrove‐derived rizospheric soil. Their structures were established by detailed interpretation of nuclear magnetic resonance (NMR) data and the structure of (±)‐ 1 was confirmed by single‐crystal X‐ray diffraction analysis. The absolute configuration of the enantiomers (–)‐ 1 and (+)‐ 1 was determined by means of online high‐performance liquid chromatography – electronic circular dichroism (HPLC‐ECD) measurements and time‐dependent Density Functional Theory – electronic circular dichroism (TDDFT‐ECD) calculations. Compounds (±)‐ 1 as well as 2 and 3 exhibited potent DPPH radical scavenging activities with IC₅₀ values of 1.23, 2.26, and 3.99 μg/mL, respectively. Chirality 28:581–584, 2016. © 2016 Wiley Periodicals, Inc.     

Conformational preferences of a short Aib/Ala‐based water‐soluble peptide as a function of temperature

The amino acid Aib predisposes a peptide to be helical with context‐dependent preference for either 3₁₀‐ or α‐ or a mixed helical conformation. Short peptides also show an inherent tendency to be unfolded. To characterize helical and unfolded states adopted by water‐soluble Aib‐containing peptides, the conformational preference of Ac‐Ala‐Aib‐Ala‐Lys‐Ala‐Aib‐Lys‐Ala‐Lys‐Ala‐Aib‐Tyr‐NH₂ was determined by CD, NMR and MD simulations as a function of temperature. Temperature‐dependent CD data indicated the contribution of two major components, each an admixture of helical and extended/polyproline II structures. Both right‐ and left‐handed helical conformations were detected from deconvolution of CD data and ¹³C NMR experiments. The presence of a helical backbone, more pronounced at the N‐terminal, and a temperature‐induced shift in α‐helix/3₁₀‐helix equilibrium, more pronounced at the C‐terminal, emerged from NMR data. Starting from polyproline II, the N‐terminal of the peptide folded into a helical backbone in MD simulations within 5 ns at 60°C. Longer simulations showed a mixed‐helical backbone to be stable over the entire peptide at 5°C while at 60°C the mixed‐helix was either stable at the N‐terminus or occurred in short stretches through out the peptide, along with a significant population of polyproline II. Our results point towards conformational heterogeneity of water‐soluble Aib‐based peptide helices and the associated subtleties. The problem of analyzing CD and NMR data of both left‐ and right‐handed helices are discussed, especially the validity of the ellipticity ratio [θ]₂₂₂/[θ]₂₀₇, as a reporter of α‐/3₁₀‐ population ratio, in right‐ and left‐handed helical mixtures. Proteins 2009. © 2008 Wiley‐Liss, Inc.     

Enantiopure cyclic O‐substituted phenylphosphonothioic acid: Synthesis and chirality‐recognition ability

As a new acidic selector (resolving agent), we synthesized an enantiopure O‐alkyl phenylphosphonothioic acid with a seven‐membered ring ((R)‐ 5 ), which was designed on the basis of the results for the enantioseparation of 1‐arylethylamine derivatives with acyclic O‐ethyl phenylphosphonothioic acid ( I ). The phosphonothioic acid (R)‐ 5 showed unique chirality‐recognition ability in the enantioseparation of 1‐naphthylethylamine derivatives, aliphatic secondary amines, and amino alcohols; the ability was complementary to that of I . The X‐ray crystallographic analyses of the less‐ and more‐soluble diastereomeric salts showed that hydrogen‐bonding networks in the salt crystals are 2₁‐column‐type with a single exception which is cluster‐type. In the cases of the 2₁‐column‐type crystals, stability of the crystals is firstly governed by hydrogen bonds to form a 2₁‐column and secondly determined by intra‐columnar T‐shaped CH/π interaction(s), intra‐columnar hydrogen bond(s), inter‐columnar van der Waals interaction and/or inter‐columnar T‐shaped CH/π interaction(s). In contrast, the cluster‐type salt crystal is stabilized by the assistance of inter‐cluster T‐shaped CH/π and van der Waals interactions. To realize still more numbers of intra‐ and inter‐columnar and ‐cluster T‐shaped CH/π interactions, the seven‐membered ring of (R)‐ 5 plays a considerable role. Chirality 23:438–448, 2011. © 2009 Wiley‐Liss, Inc.     

Synthesis of enantiopure planar chiral bis‐(para)‐pseudo‐meta‐type [2.2]paracyclophanes

A new type of planar chiral (R_p)‐ and (S_p)‐4,7,12,15‐tetrasubstituted [2.2]paracyclophanes was prepared from racemic 4,7,12,15‐tetrabromo[2.2]paracyclophane as the starting substrate. Regioselective lithiation and transformations afforded racemic bis‐(para)‐pseudo‐meta‐type [2.2]paracyclophane (4,15‐dibromo‐7,12‐dihydroxy[2.2]paracyclophane). Its optical resolution was performed by the diastereomer method using a chiral camphanoyl group as the chiral auxiliary. The diastereoisomers were readily isolated by simple silica gel column chromatography, and the successive hydrolysis afforded (R_p)‐ and (S_p)‐bis‐(para)‐pseudo‐meta‐type [2.2]paracyclophanes ((R_p)‐ and (S_p)‐4,15‐dibromo‐7,12‐dihydroxy[2.2]paracyclophanes). They can be used as pseudo‐meta‐substituted chiral building blocks.     

S. aureus haemolysin A‐induced IL‐8 and IL‐6 release from human airway epithelial cells is mediated by activation of p38‐ and Erk‐MAP kinases and additional,cell type‐specific signalling mechanisms

Soluble virulence‐associated factors of Staphylococcus aureus like haemolysin A (Hla) induce secretion of chemo/cytokines from airway epithelial cells. To elucidate the potential roles of specific signalling pathways in this response, we treated 16HBE14o‐, S9 or A549 cells with recombinant Hla (rHla). In a dose‐dependent manner, rHla induced secretion of IL‐8 in all three cell types, but IL‐6 release only in 16HBE14o‐ and S9 cells. rHla‐mediated secretion of IL‐8 and IL‐6 was suppressed by pre‐incubation of cells with inhibitors of Erk type or p38 MAP kinases, indicating that activation of these signalling pathways is essential for IL‐8 release in all three cell types and for IL‐6 release in 16HBE14o‐ and S9 cells. The rHla‐mediated phosphorylation and activation of p38 MAP kinase seem to depend on elevations in [Ca²⁺]_i, an early response in rHla‐treated cells. Inhibitors of calmodulin or calcium/calmodulin‐dependent kinase II attenuated rHla‐mediated release of IL‐8 in 16HBE14o‐ and A549 cells and of IL‐6 in 16HBE14o‐ cells. This indicates that rHla may mediate simultaneous activation of calmodulin‐dependent processes as additional prerequisites for chemo/cytokine secretion.However, the inhibitors of calmodulin‐dependent signalling did not affect rHla‐induced p38 MAP kinase phosphorylation, indicating that this pathway works in parallel with p38 MAP kinase.     

Amyloid β induces NLRP3 inflammasome activation in retinal pigment epithelial cells via NADPH oxidase‐ and mitochondria‐dependent ROS production

Amyloid β (Aβ)‐induced chronic inflammation is believed to be a key pathogenic process in early‐stage age‐related macular degeneration (AMD). Nucleotide oligomerization domain (NOD)‐like receptor family, pyrin domain containing 3 (NLRP3) inflammasome activation triggered by Aβ is responsible for retinal pigment epithelium (RPE) dysfunction in the onset of AMD; however, the detailed molecular mechanism remains unclear. In this study, we investigated the involvement of NADPH oxidase‐ and mitochondria‐derived reactive oxygen species (ROS) in the process of Aβ_1–40‐induced NLRP3 inflammasome activation in LPS‐primed ARPE‐19 cells. The results showed that Aβ_1–40 could induce excessive ROS generation, MAPK/NF‐κB signaling activation and subsequently NLRP3 inflammasome activation in LPS‐primed ARPE‐19 cells. Furthermore, the inductive effect of Aβ_1–40 on NLRP3 inflammasome activation was mediated in a manner dependent on NADPH oxidase‐ and mitochondria‐derived ROS. Our findings may provide a novel insight into the molecular mechanism by which Aβ contributes to the early‐stage AMD.     

Synthesis and pKa determination of new enantiopure dimethyl‐substituted acridino‐crown ethers containing a carboxyl group: Useful candidates for enantiomeric recognition studies

New enantiopure dimethyl‐substituted acridino‐18‐crown‐6 and acridino‐21‐crown‐7 ethers containing a carboxyl group at position 9 of the acridine ring [(S,S )‐ 8 , (S,S )‐ 9 , (R,R )‐ 10 ] were synthesized. The pK _a values of the new crown ethers [(S,S )‐ 8 , (S,S )‐ 9 , (R,R )‐ 10 ] and of an earlier reported macrocycle [(R,R )‐ 2 ] were determined by UV‐pH titrations. Crown ether (S,S )‐ 8 was attached to silica gel by covalent bonds and the enantiomeric separation ability of the newly prepared chiral stationary phase [(S,S )‐CSP‐ 12 ] was studied by high‐performance liquid chromatography (HPLC). Homochiral preference was observed and the best separation was achieved for the enantiomers of 1‐NEA. Ligands (S,S )‐ 9 and (R,R )‐ 10 are precursors of enantioselective sensor and selector molecules for the enantiomers of protonated primary amines, amino acids, and their derivatives.     

In Vitro Cytotoxic Activities,DNA‐, and BSA‐Binding Studies of a New Dinuclear Copper(II) Complex with N‐[3‐(Dimethylamino)propyl]‐N′‐(2‐carboxylatophenyl)‐ Oxamide as Ligand

A new dinuclear copper(II) complex bridged by N‐[3‐(dimethylamino)propyl]‐N′‐ (2‐carbo‐xylatophenyl)oxamide (H₃dmapob), and endcapped with 2,2′‐diamino‐4,4′‐bithiazole (dabt), namely [Cu₂(dmapob)(dabt)(CH₃OH)(pic)]·(DMF)_0.75·(CH₃OH)_0.25 has been synthesized and characterized by elemental analysis, molar conductivity measurement, infrared and electronic spectra studies, and single‐crystal X‐ray diffraction. In the crystal structure, both copper(II) ions have square–pyramidal coordination geometries. The Cu···Cu separation through the oxamido bridge is 5.176(9) Å. A two‐dimensional supramolecular framework is formed through hydrogen bonds and π–π stacking interactions. The reactivities toward herring sperm DNA and bovine serum albumin (BSA) show that the complex can interact with the DNA via intercalation mode and bind to the BSA responsible for quenching of tryptophan fluorescence by the static quenching mechanism. The in vitro anticancer activities suggest that the copper(II) complex is active against the selected tumor cell lines. The influence of different bridging ligands in dinuclear complexes on the DNA‐ and BSA‐binding properties as well as anticancer activities is preliminarily discussed.     

Overcoming Interfacial Losses in Solution‐Processed Organic Multi‐Junction Solar Cells

Organic solar cells are promising in terms of full‐solution‐processing which enables low‐cost and large‐scale fabrication. While single‐junction solar cells have seen a boost in power conversion efficiency (PCE), multi‐junction solar cells are promising to further enhance the PCE. In all‐solution‐processed multi‐junction solar cells, interfacial losses are often encountered between hole‐transporting layer (HTL) and the active layers and therefore greatly limit the application of newly developed high‐performance donor and acceptor materials in multi‐junction solar cells. Here, the authors report on a systematic study of interface losses in both single‐junction and multi‐junction solar cells based on representative polymer donors and HTLs using electron spectroscopy and time‐of‐flight secondary ion mass spectrometry. It is found that a facile mixed HTL containing poly(3,4‐ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) and MoO _x nanoparticles successfully overcomes the interfacial losses in both single‐ and multi‐junction solar cells based on various active layers by reducing interface protonation, promoting better energy‐level alignment, and forming a dense and smooth layer. Solution‐processed single‐junction solar cells are demonstrated to reach the same performance as with evaporated MoO _x (over 7%). Multi‐junction solar cells with polymers containing nitrogen atoms as the first layer and the mixed PEDOT:PSS and MoO _x nanoparticles as hole extraction layer reach fill factor (FF) of over 60%, and PCE of over 8%, while the identical stack with pristine PEDOT:PSS or MoO _x nanoparticles show FF smaller than 50% and PCE less than 5%.     

Glucose‐ and mannose‐induced stomatal closure is mediated by ROS production,Ca2+ and water channel in Vicia faba

Sugars act as vital signaling molecules that regulate plant growth, development and stress responses. However, the effects of sugars on stomatal movement have been unclear. In our study, we explored the effects of monosaccharides such as glucose and mannose on stomatal aperture. Here, we demonstrate that glucose and mannose trigger stomatal closure in a dose‐ and time‐dependent manner in epidermal peels of broad bean (Vicia faba). Pharmacological studies revealed that glucose‐ and mannose‐induced stomatal closure was almost completely inhibited by two reactive oxygen species (ROS) scavengers, catalase (CAT) and reduced glutathione (GSH), was significantly abolished by an NADPH oxidase inhibitor, diphenylene iodonium chloride (DPI), whereas they were hardly affected by a peroxidase inhibitor, salicylhydroxamic acid (SHAM). Furthermore, glucose‐ and mannose‐induced stomatal closure was strongly inhibited by a Ca²⁺ channel blocker, LaCl₃, a Ca²⁺ chelator, ethyleneglycol‐bis(beta‐aminoethylether)‐N,N'‐tetraacetic acid (EGTA) and two water channel blockers, HgCl₂ and dimethyl sulfoxide (DMSO); whereas the inhibitory effects of the water channel blockers were essentially abolished by the reversing agent β‐mercaptoethanol (β‐ME). These results suggest that ROS production mainly via NADPH oxidases, Ca²⁺ and water channels are involved in glucose‐ and mannose‐induced stomatal closure.     

Synthesis by Ring‐Closing Alkyne Metathesis with Selective Hydrogenation,and Olfactory Comparison of (7E)‐ and (7Z)‐Cyclohexadec‐7‐enone (Aurelione®)

Both C?C‐bond isomers of cyclohexadec‐7‐enone ( 6 , Aurelione^®) were selectively synthesized via cyclohexadec‐7‐ynol ( 16 ) by ring‐closing alkyne metathesis of icosa‐2,18‐diyn‐9‐ol ( 15 ), employing an in situ‐formed catalyst from Mo(CO)₆ and 4‐(trifluoromethyl)phenol. Pyridinium chlorochromate (PCC) oxidation and subsequent Lindlar hydrogenation afforded the (7Z)‐configured isomer (7Z)‐ 6 , while hydrosilylation of the intermediate cyclohexadec‐7‐ynone ( 17 ), followed by desilylation, provided the (7E)‐configured cyclohexadec‐7‐enone ((7E)‐ 6 ). The substrate for the alkyne metathesis was prepared from cycloheptanone ( 7 ) by cycloaddition of chloromethylcarbene to its trimethylsilyl enol ether 8 , and subsequent ring enlargement of the adduct 9 under rearrangement to 2‐methylcyclooct‐2‐enone ( 10 ), which was subjected to Weitz? Scheffer epoxidation and Eschenmoser? Ohloff fragmentation to non‐7‐ynal ( 12 ). Its reaction with the Grignard reagent of 11‐bromoundec‐2‐yne ( 14 ), prepared from the corresponding alcohol 13 by Appel? Lee bromination, furnished the icosa‐2,18‐diyn‐9‐ol ( 15 ). While both isomers of cyclohexadec‐7‐enone ( 6 ) possess warm and powdery musk odors with tobacco‐type ambery accents, (7Z)‐ 6 is more animalic and waxy, whereas (7E)‐ 6 was found to be more floral, sweet, and hay‐like in tonality. Interestingly, however, with odor detection thresholds of 2.0 ng/l air and 2.3 ng/l air, respectively, both (7Z)‐ 6 and (7E)‐ 6 were found to be almost identical in their odor strength, with the (7Z)‐ 6 being only very slightly more powerful.     

High‐Abundance and Low‐Cost Metal‐Based Cathode Materials for Sodium‐Ion Batteries: Problems,Progress, and Key Technologies

Recently, room‐temperature stationary sodium‐ion batteries (SIBs) have received extensive investigations for large‐scale energy storage systems (EESs) and smart grids due to the huge natural abundance and low cost of sodium. The SIBs share a similar “rocking‐chair” sodium storage mechanism with lithium‐ion batteries; thus, selecting appropriate electrodes with a low cost, satisfactory electrochemical performance, and high reliability is the key point for the development for SIBs. On the other hand, the carefully chosen elements in the electrodes also largely determine the cost of SIBs. Therefore, earth‐abundant‐metal‐based compounds are ideal candidates for reducing the cost of electrodes. Among all the high‐abundance and low‐cost metal elements, cathodes containing iron and/or manganese are the most representative ones that have attracted numerous studies up till now. Herein, recent advances on both iron‐ and manganese‐based cathodes of various types, such as polyanionic, layered oxide, MXene, and spinel, are highlighted. The structure–function property for the iron‐ and manganese‐based compounds is summarized and analyzed in detail. With the participation of iron and manganese in sodium‐based cathode materials, real applications of room‐temperature SIBs in large‐scale EESs will be greatly promoted and accelerated in the near future.     

White‐ and blue‐light‐emitting dysprosium(III) and terbium(III)‐doped gadolinium titanate phosphors

Here we report the synthesis and structural, morphological, and photoluminescence analysis of white‐ and blue‐light‐emitting Dy³⁺‐ and Tm³⁺‐doped Gd₂Ti₂O₇ nanophosphors. Single‐phase cubic Gd₂Ti₂O₇ nanopowders consist of compact, dense aggregates of nanoparticles with an average size of ~25 nm for Dy³⁺‐doped and ~50 nm for Tm³⁺‐doped samples. The photoluminescence results indicated that ultraviolet (UV) light excitation of the Dy³⁺‐doped sample resulted in direct generation of white light, while a dominant yellow emission was obtained under blue‐light excitation. Intense blue light was obtained for Tm³⁺‐doped Gd₂Ti₂O₇ under UV excitation suggesting that this material could be used as a blue phosphor.     

Molecular mechanisms of Streptococcus pneumoniae‐targeted autophagy via pneumolysin,Golgi‐resident Rab41, and Nedd4‐1‐mediated K63‐linked ubiquitination

Streptococcus pneumoniae is the most common causative agent of community‐acquired pneumonia and can penetrate epithelial barriers to enter the bloodstream and brain. We investigated intracellular fates of S. pneumoniae and found that the pathogen is entrapped by selective autophagy in pneumolysin‐ and ubiquitin‐p62‐LC3 cargo‐dependent manners. Importantly, following induction of autophagy, Rab41 was relocated from the Golgi apparatus to S. pneumoniae‐containing autophagic vesicles (PcAV), which were only formed in the presence of Rab41‐positive intact Golgi apparatuses. Moreover, subsequent localization and regulation of K48‐ and K63‐linked polyubiquitin chains in and on PcAV were clearly distinguishable from each other. Finally, we found that E3 ligase Nedd4‐1 was recruited to PcAV and played a pivotal role in K63‐linked polyubiquitin chain (K63Ub) generation on PcAV, promotion of PcAV formation, and elimination of intracellular S. pneumoniae. These findings suggest that Nedd4‐1‐mediated K63Ub deposition on PcAV acts as a scaffold for PcAV biogenesis and efficient elimination of host cell‐invaded pneumococci.     

Canopy radiation‐ and water‐use efficiencies as affected by elevated [CO2]

This study used an environmentally controlled plant growth facility, EcoCELLs, to measure canopy gas exchanges directly and to examine the effects of elevated [CO₂] on canopy radiation‐ and water‐use efficiencies. Sunflowers (Helianthus annus var. Mammoth) were grown at ambient (399 μmol mol^?1) and elevated [CO₂] (746 μmol mol^?1) for 53 days in EcoCELLs. Whole canopy carbon‐ and water‐fluxes were measured continuously during the period of the experiment. The results indicated that elevated [CO₂] enhanced daily total canopy carbon‐ and water‐fluxes by 53% and 11%, respectively, on a ground‐area basis, resulting in a 54% increase in radiation‐use efficiency (RUE) based on intercepted photosynthetic active radiation and a 26% increase in water‐use efficiency (WUE) by the end of the experiment. Canopy carbon‐ and water‐fluxes at both CO₂ treatments varied with canopy development. They were small at 22 days after planting (DAP) and gradually increased to the maxima at 46 DAP. When canopy carbon‐ and water‐fluxes were expressed on a leaf‐area basis, no effect of CO₂ was found for canopy water‐flux while elevated [CO₂] still enhanced canopy carbon‐flux by 29%, on average. Night‐time canopy carbon‐flux was 32% higher at elevated than at ambient [CO₂]. In addition, RUE and WUE displayed strong diurnal variations, high at noon and low in the morning or afternoon for WUE but opposite for RUE. This study provided direct evidence that plant canopy may consume more, instead of less, water but utilize both water and radiation more efficiently at elevated than at ambient [CO₂], at least during the exponential growth period as illustrated in this experiment.