Effect of 1-O-octadecyl-2-O-acetyl-sn-glycero-3-phosphocholine (PAF-acether) on leukocytes I. Analysis of the in vitro migration of human neutrophils

The effect of synthetic 1-O-octadecyl-2-O-acetyl-sn-glycero-3-phosphocholine (PAF-acether) and of 1-O-octadecyl-sn-glycero-3-phosphocholine (lyso-PAF-acether) on human neutrophil migration was studied in modified Boyden chambers, with the following results: (1) By checker-board analysis and deactivation experiments, the factors are chemokinetic at low (10^?8 M) and chemotactic at higher concentrations (10^?6 M), with lyso-PAF-acether being less potent at all concentrations. (2) Cross-deactivation occurs between the two PAF compounds, but not with two other chemotactic factors, suggesting a specific, common receptor for the PAFs on the neutrophil membrane. (3) Other chemotactic substances may act as potentiating or additive factors to the PAF compounds. (4) Inhibition of arachidonic acid turnover during chemotaxis by compound BW 755 C enhances leukocyte chemotaxis towards the PAF compounds and towards other chemotactic factors. The data suggest that PAF and its lyso-derivate may contribute in a unique and potent fashion to leukocyte accumulation at inflammatory sites.     

The functional organization of the octopine Agrobacterium tumefaciens plasmid pTiB6s3

We have used the transposon Tn7 to isolate insertion and deletion mutations in the octopine Ti-plasmid pTiB6S3. Mutations that inactivate most of the known Ti phenotypes have been located on the physical map. Most importantly, we have positioned several regions involved in the determination of oncogenicity. They correspond to homology regions between octopine and nopaline plasmids. One of these regions, the T region, is part of the Ti-plasmid DNA present in transformed plant cells. Some Tn7 insertions in this region are weakly virulent and the tumor tissue, incited by these mutant Ti plasmids, readily produce proliferating shoots.     

Neuropeptide S stimulates human monocyte chemotaxis via NPS receptor activation

Neuropeptide S (NPS) produces several biological actions by activating a formerly orphan GPCR, now named NPS receptor (NPSR). It has been previously demonstrated that NPS stimulates murine leukocyte chemotaxis in vitro. In the present study we investigated the ability of NPS, in comparison with the proinflammatory peptide formyl-Met-Leu-Phe (fMLP), to stimulate human monocyte chemotaxis. At a concentration of 10⁻⁸ M fMLP significantly stimulated chemotaxis. NPS produced a concentration dependent chemotactic action over the concentration range 10⁻¹² to 10⁻⁵ M. The NPSR antagonists [d-Cys(^tBu)⁵]NPS, [^tBu-d-Gly⁵]NPS and SHA 68 were used to pharmacologically characterize NPS action. Monocyte chemoattractant effect of NPS, but not fMLP, was completely blocked by either peptide antagonists or SHA with the nonpeptide molecule being more potent. None of the NPSR antagonists modified per se random cell migration. Thus, the present study demonstrated that NPS is able to stimulate human monocyte chemotaxis and that this effect is entirely due to selective NPSR activation.     

Transformation of Brassica napus L. with a 'Disarmed' Octopine Plasmid of Agrobacterium tumefaciens: Molecular Analysis and Inheritance of the Transformed Phenotype

Phenotypically normal and fertile transgenic Brassica napuscv. Westar plants were obtained following co-cultivation ofstem epidermal explants with an Agrobacterium tumefaciens straincontaining a disarmed octopine tumour-inducing plasmid pTiB6S3-SE.The A. tumefaciens cells also contained pMON316, a cointegratevector carrying genes for kanamycin resistance and a scorablemarker nopaline synthase. Transformants were selected by theirability to grow in the presence of 100 µg cm^-3 kanamycin.Transformation was confirmed by the activities of neomycin phosphotransferaseII and nopaline synthase enzymes and by Southern blots. Thekanamycin resistance trait was transferred to the progeny ofthe self-fertilized plants. Key words: Transformation, octopine Ti-plasmid, oilseed rape     

Spontaneous formation of cointegrates of the oncogenic Ti-Plasmid and the wide-host-range P-plasmid RP4

A pTiB6S3::RP4 cointegrate and a pTiC58::RP4 cointegrate plasmid were isolated. They are formed by the covalent linkage of the respective pTiB6S3 and pTiC58 plasmids of Agrobacterium tumefaciens and of the RP4 factor. They carry the genetic markers of both parental molecules, and these markers are transferred as a unit under the same circumstances as the RP4 factor alone. The pTiB6S3::RP4 plasmid retains its oncogenic capacity and does not dissociate with a detectable frequency in Agrobacterium strains. The pTiC58::RP4 cointegrate readily dissociates apparently with exact separation of the genetic markers of pTiC58 and of RP4. The cointegrate pTiC58::RP4 state is non-oncogenic whereas after dissociation the oncogenicity of pTiC58 is restored.     

Swimming against the tide: chemotaxis in Agrobacterium.

Chemotaxis in bacteria is an excellent model for signal transduction processes. In Agrobacterium tumefaciens, the causative agent of crown gall tumour on wounded plants, it is a vital part of the organism's biology. A chromosomally-determined chemotaxis system causes the bacterium to be attracted into the rhizosphere by chemoattractants in plant exudates. By interfacing with this system, the multifunctional products of two Ti-plasmid encoded genes, virA and virG, allow the sensing of specific wound phenolics such as acetosyringone. This attracts Ti-plasmid harbouring A. tumefaciens to wound sites, where the higher acetosyringone concentrations lead to virA and virG-mediated induction of the vir-genes. The products of the induced genes, act in concert to effect transfer of the T-DNA to the plant cell.     

A Cointegrate Ti Plasmid Vector for Agrobacterium tumefaciens - mediated Transformation of indica Rice cv Pusa Basmati 1

An intermediate vector pSSJ1 was constructed by cloning a hph gene and a gus gene with catalase intron in pGV1500. pSSJ1 was cointegrated into a disarmed receptor Ti plasmid pGV2260 harboured in Agrobacterium tumefaciens strain C58C1Rif^R. The resulting A. tumefaciens strain C58C1Rif^R (pGV2260::pSSJ1) stably transformed Oryza sativa L. cv Pusa Basmati 1 scutellum-derived calli at 26% frequency. Introduction of the plasmid pSSJ3 (3′virB, virG and virC of pTiB0542) into A. tumefaciens C58C1Rif^R (pGV2260::pSSJ1) resulted in the elevation of acetosyringone-induced T -strand accumulation. Rice transformation efficiency of the cointegrate plasmid pGV2260::pSSJ1 increased from 26% to 33% in the presence of pSSJ3 and from 26% to 35% in the presence of pToK47 (complete virB, virG and virC). T-DNA integration in To plants was confirmed by Southern hybridization analysis. Inheritance analysis of the T₀ plants with single-copy T-DNA insertions revealed segregation of hygromycin resistance in 3:1 ratio. The feasibility of rice transformation with a cointegrate Ti plasmid vector is clearly established.     

Complete genome sequencing of Agrobacterium sp. H13-3, the former Rhizobium lupini H13-3, reveals a tripartite genome consisting of a circular and a linear chromosome and an accessory plasmid but lacking a tumor-inducing Ti-plasmid

Agrobacterium sp. H13-3, formerly known as Rhizobium lupini H13-3, is a soil bacterium that was isolated from the rhizosphere of Lupinus luteus. The isolate has been established as a model system for studying novel features of flagellum structure, motility and chemotaxis within the family Rhizobiaceae. The complete genome sequence of Agrobacterium sp. H13-3 has been established and the genome structure and phylogenetic assignment of the organism was analysed. For de novo sequencing of the Agrobacterium sp. H13-3 genome, a combined strategy comprising 454-pyrosequencing on the Genome Sequencer FLX platform and PCR-based amplicon sequencing for gap closure was applied. The finished genome consists of three replicons and comprises 5,573,770 bases. Based on phylogenetic analyses, the isolate could be assigned to the genus Agrobacterium biovar I and represents a genomic species G1 strain within this biovariety. The highly conserved circular chromosome (2.82 Mb) of Agrobacterium sp. H13-3 mainly encodes housekeeping functions characteristic for an aerobic, heterotrophic bacterium. Agrobacterium sp. H13-3 is a motile bacterium driven by the rotation of several complex flagella. Its behaviour towards external stimuli is regulated by a large chemotaxis regulon and a total of 17 chemoreceptors. Comparable to the genome of Agrobacterium tumefaciens C58, Agrobacterium sp. H13-3 possesses a linear chromosome (2.15 Mb) that is related to its reference replicon and features chromosomal and plasmid-like properties. The accessory plasmid pAspH13-3a (0.6 Mb) is only distantly related to the plasmid pAtC58 of A. tumefaciens C58 and shows a mosaic structure. A tumor-inducing Ti-plasmid is missing in the sequenced strain H13-3 indicating that it is a non-virulent isolate.     

Fusion of Agrobacterium and E. coli spheroplasts with Nicotiana tabacum protoplasts — Direct gene transfer from microorganism to higher plant

Spheroplasts of Agrobacterium tumefaciens strains and E. coli were fused with protoplasts of Nicotiana tabacum. Fusion products were cultured in the presence of antibiotics to eliminate remaining bacterial spheroplasts. On hormone free medium, tobacco protoplasts treated with wild type Agrobacterium-strains formed colonies with an average frequency of 10^–4. Opine synthesis was detected in the tissues. Some calli derived from protoplasts treated with A. tumefaciens C58C1pRi15834 formed typical hairy roots. Kanamycin resistant calli were obtained after fusion with A. tumefaciens containing pLGVTi23 neo (frequency=10^–3). Fusion of E. coli spheroplasts containing a virulent pTiB6S3::RP4 co-integrate with tobacco protoplasts yielded two hormone independent growing calli producing octopine out of 10⁵ microcalli.Abbreviations PEG Polyethylene glycol - PVA Polyvinyl alcohol     

Characteristics of teratomas regenerated in vitro from octopine-type crown gall

Crown galls induced by infection of tobacco plants with Agrobacterium tumefaciens strain C58-Cl(pTiB6S3) were excised and cultured in vitro. After about one year of culture on medium-lacking phytohormones, two noncloned lines spontaneously formed shoots. Leaf explants from shoots of tumor-line T5 were capable of growing on hormone-free medium, and the resulting mixture of organized and unorganized tissue synthesized octopine. Detached leaves from T5 shoots also synthesized octopine. These results establish that shoots from this octopine-type tumor contain transformed cells and are true crown-gall teratomas.     

Chemotaxis of Rhizobium meliloti to the plant flavone luteolin requires functional nodulation genes.

Luteolin is a phenolic compound from plants that acts as a potent and specific inducer of nodABC gene expression in Rhizobium meliloti. We have found that R. meliloti RCR2011 exhibits positive chemotaxis towards luteolin. A maximum chemotactic response was observed at 10(-8) M. Two closely related flavonoids, naringenin and apigenin, were not chemoattractants. The presence of naringenin but not apigenin abolished chemotaxis of R. meliloti towards luteolin. A large deletion in the nif-nod region of the symbiotic megaplasmid eliminated all chemotactic response to luteolin but did not affect general chemotaxis, as indicated by swarm size on semisoft agar plates and chemotaxis towards proline in capillary tubes. Transposon Tn5 mutations in nodD, nodA, or nodC selectively abolished the chemotactic response of R. meliloti to luteolin. Agrobacterium tumefaciens GMI9050, a derivative of the C58 wild type lacking a Ti plasmid, responded chemotactically to 10(-8) M luteolin. The introduction of a 290-kilobase nif-nod-containing sequence of DNA from R. meliloti into A. tumefaciens GMI9050 enabled the recipient to respond to luteolin at concentrations peaking at 10(-6) M as well as at concentrations peaking at 10(-8) M. The response of A. tumefaciens GMI9050 to luteolin was also abolished by the presence of naringenin.     

Attachment, Chemotaxis, and Multiplication of Agrobacterium tumefaciens Biovar 1 and Biovar 3 on Grapevine and Pea

Tumorigenic (CG49) and nontumorigenic (CG484) strains of Agrobacterium tumefaciens bv. 3 attached to grape roots at a higher level than did a nonpectinolytic mutant of CG49 (CG50) or a tumorigenic strain of A. tumefaciens bv. 1 (CG628). Strains attached equally well to wounded and unwounded grape roots. Strains responded differently to pea plants in that biovar 3 strains consistently attached to unwounded roots at a lower level than they did to wounded roots, whereas CG628 attached equally well regardless of wounding. The lowest levels of attachment to pea roots were consistently observed for CG50. Population curves were calculated for the strains inoculated into wound sites on grape and pea roots. A. tumefaciens bv. 3 wild-type strains developed greater populations at wound sites on grape roots after 100 h (resulting in root decay) than did CG50 or CG628. Population curves for strains at wound sites on pea roots were different from those on grape roots. There were no significant differences in populations after 100 h, and no strains caused root decay. No differences in the chemotaxis of wild-type and mutant A. tumefaciens bv. 3 strains towards grape roots, crown pieces, or root extracts were observed, but the biovar 1 strain, CG628, always migrated the greatest distance towards all substrates. Polygalacturonase production may affect attachment to grape roots and multiplication of A. tumefaciens bv. 3 at wound sites and thus be associated with the specificity of the bacterium for grape.     

T-DNA of a crown gall tumor is organized in nucleosomes

Nucleosomes were isolated from chromatin of suspension cultured cells of Nicotiana tabacum var. White Burley, which were either habituated or transformed by Agrobacterium tumefaciens, strain T37. Chromatin repeat length in both types of tissue was identical and can be estimated to be 195 ± 10 bp. Using Southern transfer of nucleosomal DNA and hybridization with cloned nick-translated HindIII fragments of pTi C58 we show that the T-DNA originating from the Ti-plasmid of A. tumefaciens is organized in nucleosomes within the chromatin of crown gall tumor cells.     

A new amino acid derivative present in crown gall tumor tissue

A new amino acid derivative has been found in primary and secondary sunflower crown gall tissue cultures and in fresh crown gall tumors from sunflower plants wound-inoculated with Agrobacterium tumefaciens B₆. Normal plant tissue does not contain detectable levels of the compound. Radioactive labeling and cochromatography experiments strongly suggest that the natural derivative is identical to synthetic N²-(1-carboxyethyl)-L-histidine (histopine). Crown gall tissue cultures contain 1 μmole of histopine/20 g fresh weight. A. tumefaciens strain B₆, but not strain C₅₈, can utilize natural histopine and incorporate the products into macromolecules.     

Is there any crosstalk between the chemotaxis and virulence induction signaling in Agrobacterium tumefaciens?

Agrobacterium tumefaciens, a soil-born phytopathogenic bacterium, is well known as a nature's engineer due to its ability to genetically transform the host by transferring a DNA fragment (called T-DNA) from its Ti plasmid to host-cell genome. To combat the harsh soil environment and seek the appropriate host, A. tumefaciens can sense and be attracted by a large number of chemical compounds released by wounded host. As a member of α-proteobacterium, A. tumefaciens has a chemotaxis system different from that found in Escherichia coli, since many chemoattractants for A. tumefaciens chemotaxis are virulence (vir) inducers. However, advances in the study of the chemotaxis paradigm, E. coli chemotaxis system, have provided enough information to analyze the A. tumefaciens chemotaxis. At low concentration, chemoattractants elicit A. tumefaciens chemotaxis and attract the species to the wound sites of the host. At high concentration, chemoattractants induce the expression of virulence genes and trigger T-DNA transfer. Recent studies on the VirA and ChvE of the vir-induction system provide some evidences to support the crosstalk between chemotaxis and vir-induction. This review compares the core components of chemotaxis signaling system of A. tumefaciens with those observed in other species, discusses the connection between chemotaxis and vir-induction in A. tumefaciens, and proposes a model depicting the signaling crosstalk between chemotaxis and vir-induction.     

Regions of DNA sequence homology between an octopine and a nopaline Ti plasmid of Agrobacterium tumefaciens

Summary Despite the fact that pTiC58 and pTiB6S3 functionally, have been shown to date to have only tumorigenicity and phage AP1 exclusion in common, many restriction fragments of the plasmids contain DNA sequences common to both. The bulk of this homologous DNA is concentrated in a few restriction endonuclease fragments and the remainder is organized in short discontinuous regions spread over many fragments. In pTiB6S3 the bulk of the homology is distributed throughout a 29x10⁶ dalton segment comprising 8 Sma I fragments. This region includes those sequences which are transferred to and transcribed in tumorigenic plant cells induced by B6-806 or closely related strains. The pattern of homology within this portion of the plasmid shows a region of low sequence homology (Sma I Fragment 3 b) apparently corresponding to the gene or genes coding for octopine synthesis in the plant tumor cells, surrounded by regions of high sequence homology. The extent of inter-plasmid homology then decreases with increasing distance from fragment 3b. The remainder of the homology is distributed throughout a segment of maximum size 21.5x10⁶ daltons comprising two Sma I fragments and cannot yet be definitely linked with any specific plasmid function.     

Dictyostelium Erk2 is an atypical MAPK required for chemotaxis

The Dictyostelium genome encodes only two MAPKs, Erk1 and Erk2, and both are expressed during growth and development. Reduced levels of Erk2 expression have been shown previously to restrict cAMP production during development but still allow for chemotactic movement. In this study the erk2 gene was disrupted to eliminate Erk2 function. The absence of Erk2 resulted in a complete loss of folate and cAMP chemotaxis suggesting that this MAPK plays an integral role in the signaling mechanisms involved with this cellular response. However, folate stimulation of early chemotactic responses, such as Ras and PI3K activation and rapid actin filament formation, were not affected by the loss of Erk2 function. The erk2⁻ cells had a severe defect in growth on bacterial lawns but assays of bacterial cell engulfment displayed only subtle changes in the rate of bacterial engulfment. Only cells with no MAPK function, erk1⁻erk2⁻ double mutants, displayed a severe proliferation defect in axenic medium. Loss of Erk2 impaired the phosphorylation of Erk1 in secondary responses to folate stimulation indicating that Erk2 has a role in the regulation of Erk1 activation during chemotaxis. Loss of the only known Dictyostelium MAPK kinase, MekA, prevented the phosphorylation of Erk1 but not Erk2 in response to folate and cAMP confirming that Erk2 is not regulated by a conventional MAP2K. This lack of MAP2K phosphorylation of Erk2 and the sequence similarity of Erk2 to mammalian MAPK15 (Erk8) suggest that the Dictyostelium Erk2 belongs to a group of atypical MAPKs. MAPK activation has been observed in chemotactic responses in a wide range of organisms but this study demonstrates an essential role for MAPK function in chemotactic movement. This study also confirms that MAPKs provide critical contributions to cell proliferation.     

Molecular cloning of overlapping segments of the nopaline Ti-plasmid pTiC58 as a means to restriction endonuclease mapping

The nopaline Ti-plasmid pTiC58 of Agrobacterium tumefaciens C58 was characterized by restriction endonuclease analysis. Fragments generated by HindIII (52), HpaI (17), SmaI (37), KpnI (20), BamHI (>50), EcoRI (>50), and XbaI (9) were arranged into a circular map corresponding to a genome size of 132 × 10⁶ D. The map was established by analysis of large overlapping plasmid segments of pTiC58 derived from a partial HindIII digest and cloned in the vector pBR322. Taken together, the segments present in the 33 hybrid plasmids obtained cover the entire pTiC58 DNA except for 2% located between map coordinates 22 and 24.7 T. The restriction map of the pTiC58 region containing the T-DNA is presented in greater detail.     

Two unlinked T-DNAs can transform the same tobacco plant cell and segregate in the F1 generation

Summary The 200 kb Agrobacterium Ti-plasmid pTiT37 carries a 25 kb segment of T-DNA which it transfers to plant cells during crown-gall tumorigenesis. We have previously engineered into this T-DNA a pBR322-derived cloning vector which enabled us to rescue-clone full length T-DNA from the Ti-plasmid into a 36 kb MINI-Ti plasmid. We report here the deletion of oncogenes from MINI-Ti to produce Micro-Ti containing the nopaline synthase gene and the ampicillin resistance gene and origin of replication of pBR322, flanked by left and right T-DNA borders. Micro-Ti was recloned into the wide host range plasmid pRK290 and transformed into an A. tumefaciens strain carrying a helper plasmid that could supply Virulence (VIR) genes in trans. Using the octopine Ti-plasmid pTiB6-806 as a helper, transformed tobacco cells were obtained which produced both nopaline and octopine. Two cloned cell lines producing both opines were found to be hormone dependent and to produce fertile tobacco plants. We selfed one of these plants and found that the two opine markers segregated in the F1 progeny in a Mendelian fashion. This showed that the T-DNAs were not linked in the transformed plant genome. Southern blot analysis of the genomic DNA from the regenerated plant showed that only part of the (oncogenic) octopine T-DNA was present indicating that it had suffered a deletion in the auxin producing locus (tms region). Presence of the cytokinin autonomy locus presumably accounts for the abnormal rooting behavior of the F1 progeny seedlings containing this T-DNA.Abbreviations NAA Naphtalene acetic acid - IAA Indole-3-acetic acid - BA 6-benzylaminopurine - pCPA para-chlorophenoxyacetic acid Part of this work was presented for her doctoral thesis by A. JdF at the National Institute of Agronomy of Paris-Grignon, January 1983