Construction of a hybrid plasmid capable of replication in Amycolatopsis mediterranei

A new plasmid, pA387, has been isolated from "Amycolatopsis sp." (DSM 43387). This plasmid could be isolated from liquid culture as well as mycelium from agar plates by a modified procedure. Plasmid pA387 is about 29.6 kb and can be cured at low frequency by protoplasting and ethidium bromide and heat treatment. Hybridization experiments showed that this plasmid is present in free form and does not integrate into the chromosome. A hybrid plasmid was constructed by cloning a 5.1-kb fragment of pA387 into the Escherichia coli vector pDM10. This hybrid plasmid, termed pRL1, could be transformed into Amycolatopsis mediterranei and A. orientalis by electroporation. A transformation frequency of 2.2 x 10(3) transformants per micrograms of DNA at 12.5 kV/cm and a pulse duration of 10.8 ms was obtained in A. mediterranei, whereas 1.1 x 10(5) transformants per microgram of DNA were obtained at a field strength of 7.5 kV/cm and a pulse duration of 7.6 ms in A. orientalis. Plasmid pRL1 is the first hybrid plasmid which could be used successfully for the transformation of A. mediterranei. The plasmid has a rather high copy number, is genetically stable, and can be easily reisolated from A. mediterranei. Plasmid pRL1 will be useful for further construction of a shuttle vector for E. coli and A. mediterranei and becomes the basis for the development of gene cloning techniques in Amycolatopsis spp.     

Anonymous nuclear DNA markers in the American oyster and their implications for the heterozygote deficiency phenomenon in marine bivalves

A puzzling population-genetic phenomenon widely reported in allozyme surveys of marine bivalves is the occurrence of heterozygote deficits relative to Hardy-Weinberg expectations. Possible explanations for this pattern are categorized with respect to whether the effects should be confined to protein-level assays or are genomically pervasive and expected to be registered in both protein- and DNA-level assays. Anonymous nuclear DNA markers from the American oyster were employed to reexamine the phenomenon. In assays based on the polymerase chain reaction (PCR), two DNA-level processes were encountered that can lead to artifactual genotypic scorings: (a) differential amplification of alleles at a target locus and (b) amplification from multiple paralogous loci. We describe symptoms of these complications and prescribe methods that should generally help to ameliorate them. When artifactual scorings at two anonymous DNA loci in the American oyster were corrected, Hardy-Weinberg deviations registered in preliminary population assays decreased to nonsignificant values. Implications of these findings for the heterozygote-deficit phenomenon in marine bivalves, and for the general development and use of PCR-based assays, are discussed.      

Monocarbonyl Analogs of Curcumin with Potential to Treat Colorectal Cancer

Curcumin has a plethora of biological properties, making this compound potentially effective in the treatment of several diseases, including cancer. However, curcumin clinical use is compromised by its poor pharmacokinetics, being crucial to find novel analogs with better pharmacokinetic and pharmacological properties. Here, we aimed to evaluate the stability, bioavailability and pharmacokinetic profiles of monocarbonyl analogs of curcumin. A small library of monocarbonyl analogs of curcumin 1a–q was synthesized. Lipophilicity and stability in physiological conditions were both assessed by HPLC-UV, while two different methods assessed the electrophilic character of each compound monitored by NMR and by UV-spectroscopy. The potential therapeutic effect of the analogs 1a–q was evaluated in human colon carcinoma cells and toxicity in immortalized hepatocytes. Our results showed that the curcumin analog 1e is a promising agent against colorectal cancer, with improved stability and efficacy/safety profile.     

Characterization of a mini-F plasmid derived from an F mutant expressing incompatibility in the autonomous but not in the integrated state

Plasmid DNA from Escherichia coli F' ser/MA219 harboring an altered F' factor, which expressed incompatibility in the autonomous but not in the integrated state (DeVries and Maas, 1973, J. Bacteriol. 115, 213-220), was digested with the restriction endonuclease EcoRI and ligated to a nonreplicating trpED fragment. A miniplasmid was obtained containing a 5.7-kb EcoRI fragment capable of self-replication. This plasmid, designated pRE300, was incompatible with mini-F as well as with ColE1 derivatives. It represents a cointegrate formed in vivo between a 2.2-kb segment of the F replication region and a ColE1-type replicon of unknown derivation. The F-derived component of pRE300 corresponds to a minimalized F replicon (43.85-46.05 kb F) retaining oriII and the incB locus but missing the incC and incD functions. It is postulated that the Inc- mutation resulted from the insertion of a transposable DNA sequence into the incC locus of the parent F plasmid.     

Complementation of replication-deficient deletion derivatives of plasmid mini-F.

Deleted mini-F plasmids with defects in replication were constructed and tested to see whether they could be rescued through complementation by a helper plasmid. This allowed us to identify two genetic loci determining trans-acting functions required for stable maintenance of plasmid mini-F, one encoded by the PstI fragment from 45.7 to 47.3 F-coordinates (F) and the other most probably located in the region from 43.1 to 43.8 F. The smallest mini-F plasmid that could be established through complementation consists of the PstI fragment 44.0 to 45.7 F, encoding origin II and the incB locus.     

Economic evaluation of water loss saving due to the biological control of water hyacinth at New Year’s Dam,Eastern Cape province,South Africa

Water hyacinth Eichhornia crassipes is considered the most damaging aquatic weed in the world. However, few studies have quantified the impact of this weed economically and ecologically, and even fewer studies have quantified the benefits of its control. This paper focuses on water loss saving as the benefit derived from biological control of this plant between 1990 and 2013 at New Year’s Dam, Alicedale, Eastern Cape, South Africa. Estimates of water loss due to evapotranspiration from water hyacinth vary significantly; therefore, the study used three different rates, high, medium and low. A conservative raw agriculture value of R 0.26 per m³ was used to calculate the benefits derived by the water saved. The present benefit and cost values were determined using 10% and 5% discount rates. The benefit/cost ratio at the low evapotranspiration rate was less than one, implying that biological control was not economically viable but, at the higher evapotranspiration rates, the return justified the costs of biological control. However, at the marginal value product of water, the inclusion of the costs of damage to infrastructure, or the adverse effects of water hyacinth on biodiversity, would justify the use of biological control, even at the low transpiration rate.     

Isolation and characterization of IS1409, an insertion element of 4-chlorobenzoate-degrading Arthrobacter sp. strain TM1, and development of a system for transposon mutagenesis

A new insertion element of 1,449 bp with 25-bp perfect terminal repeats, designated IS1409, was identified in the chromosome of 4-chlorobenzoate-degrading Arthrobacter sp. strain TM1 NCIB12013. Upon insertion, IS1409 causes a target duplication of 8 bp. IS1409 carries only a single open reading frame of 435 codons encoding the transposase TnpA. Both TnpA and the overall organization of IS1409 are highly similar to those of some related insertion elements of the ISL3 group (J. Mahillon and M. Chandler, Microbiol. Mol. Biol. Rev. 62:725--774, 1998). IS1409 was also found in other 4-chlorobenzoate-degrading Arthrobacter strains and Micrococcus luteus. Based on IS1409, a series of transposons carrying resistance genes for chloramphenicol and gentamicin were constructed. These transposons were used to demonstrate transposition events in vivo and to mutagenize Arthrobacter sp. strains.     

Bioluminescence Imaging of Clavibacter michiganensis subsp. michiganensis Infection of Tomato Seeds and Plants

Clavibacter michiganensis subsp. michiganensis is a Gram-positive bacterium that causes wilting and cankers, leading to severe economic losses in commercial tomato production worldwide. The disease is transmitted from infected seeds to seedlings and mechanically from plant to plant during seedling production, grafting, pruning, and harvesting. Because of the lack of tools for genetic manipulation, very little is known regarding the mechanisms of seed and seedling infection and movement of C. michiganensis subsp. michiganensis in grafted plants, two focal points for application of bacterial canker control measures in tomato. To facilitate studies on the C. michiganensis subsp. michiganensis movement in tomato seed and grafted plants, we isolated a bioluminescent C. michiganensis subsp. michiganensis strain using the modified Tn1409 containing a promoterless lux reporter. A total of 19 bioluminescent C. michiganensis subsp. michiganensis mutants were obtained. All mutants tested induced a hypersensitive response in Mirabilis jalapa and caused wilting of tomato plants. Real-time colonization studies of germinating seeds using a virulent, stable, constitutively bioluminescent strain, BL-Cmm17, showed that C. michiganensis subsp. michiganensis aggregated on hypocotyls and cotyledons at an early stage of germination. In grafted seedlings in which either the rootstock or scion was exposed to BL-Cmm17 via a contaminated grafting knife, bacteria were translocated in both directions from the graft union at higher inoculum doses. These results emphasize the use of bioluminescent C. michiganensis subsp. michiganensis to help better elucidate the C. michiganensis subsp. michiganensis-tomato plant interactions. Further, we demonstrated the broader applicability of this tool by successful transformation of C. michiganensis subsp. nebraskensis with Tn1409::lux. Thus, our approach would be highly useful to understand the pathogenesis of diseases caused by other subspecies of the agriculturally important C. michiganensis.Clavibacter michiganensis subsp. michiganensis is a Gram-positive, aerobic bacterium that belongs to a group of plant-pathogenic actinomycetes (37). Infections by C. michiganensis subsp. michiganensis cause bacterial canker and wilt in tomato, which is considered one of the most destructive and economically significant diseases of this crop. Severe epidemics can cause up to 80% yield loss, mainly due to wilting and death of plants and lesions on fruit. Bacterial canker was first discovered in Michigan greenhouses in 1909 and has now been reported to occur in most tomato production areas around the world (11, 40).Plant wounds facilitate but are not required for infection by C. michiganensis subsp. michiganensis, which invades the xylem vessels and causes vascular disease with high titers (10⁹ bacteria/g of plant tissue) (2, 29), impairing water transport and leading to plant wilting, canker stem lesions, and death (17, 23). Alternatively, asymptomatic infections can be induced by C. michiganensis subsp. michiganensis during late stages of plant development, resulting in the production of contaminated seeds, a major source of outbreaks of C. michiganensis subsp. michiganensis infections in tomato production (13, 34). Traditional bacterial-disease management measures, such as applications of antibiotics and copper bactericides, have not been successful against this disease, and canker-resistant tomato cultivars are not available. As a result, C. michiganensis subsp. michiganensis has been included under international quarantine regulation (10, 11). Consequently, seed testing and maintaining pathogen-free seeds and transplants is currently the most appropriate approach to minimize the spread of disease (23). However, even a low C. michiganensis subsp. michiganensis transmission rate (0.01%) from seed to seedling can cause a disease epidemic under favorable conditions (5). Due to overcrowding of seedlings during transplant production, the pathogen can easily spread through splashing of irrigation water and leaf contact. Despite its apparent significance in C. michiganensis subsp. michiganensis epidemiology, the mechanism of seed-to-seedling transmission of C. michiganensis subsp. michiganensis is not well understood.Another critical point for disease spread is the grafting process, which is now a common practice for the majority of plants used in production greenhouses. Desirable tomato cultivars (scions) are grafted onto rootstocks that provide greater vigor, longevity, or, in some cases, disease resistance (26). Grafting requires cutting both rootstock and scion, providing a quick way for C. michiganensis subsp. michiganensis to spread from plant to plant. However, grafting is a relatively recent innovation in tomato production, and little is known about how grafting affects the dynamics of C. michiganensis subsp. michiganensis infection. Developing adequate control measures for C. michiganensis subsp. michiganensis is complicated by the complexity of genetic manipulation of Gram-positive bacteria, which impairs analysis and characterization of pathogenesis mechanisms (23). Consequently, there is a need to develop molecular techniques that would allow a better understanding of C. michiganensis subsp. michiganensis infections.One method of interest is using engineered bioluminescent bacteria to monitor plant-pathogen interactions in real time. By exploiting natural light-emitting reactions that are encoded by the luxCDABE genes, bioluminescent bacteria have been used to assess gene expression and to monitor the internalization and distribution of bacteria in hosts (3, 6, 7, 8, 9, 12, 15, 24, 31, 35, 36). In particular, bioluminescent phytopathogenic Xanthomonas campestris pathovars and Pseudomonas spp. have been used to track bacterial movement and distribution in host plants (7, 8, 15, 31, 36), as well as to assess host susceptibility quantitatively (15). Likewise, the lux genes have also been transferred to beneficial bacteria, such as Rhizobium leguminosarum and Pseudomonas spp. to visualize colonization patterns in rhizospheres (3, 9).The genes that carry the function of light emission are luxAB, which express luciferase enzymes that catalyze the bioluminescent reaction, while luxCDE encode the enzymes required for biosynthesis of a fatty aldehyde substrate necessary for the reaction (28, 39). Bioluminescence involves an intracellular oxidation of the reduced form of flavin mononucleotide and the fatty aldehyde by luciferase in the presence of molecular oxygen; therefore, bacterial bioluminescence also requires oxygen, a source of energy (38). Cells that express the lux operon spontaneously emit photons that can be captured by a sensitive charge-coupled-device (CCD) camera, enabling imaging and visualization of bacterial cells (22). Luciferase activity depends on the metabolic integrity of the cell, while the number of photons emitted correlates with the biomass of living bacteria (12, 31). Furthermore, since the half-life of luciferase binding to its substrate is several seconds (28), captured light events reflect processes in real time and are not artifacts of accumulated signals. Consequently, live imaging of bioluminescence provides a sensitive means of visualizing bacterial colonization and invasion of hosts and allows real-time representation and examination of pathogen-plant interactions (24, 36).Very little information is available about the mechanisms of C. michiganensis subsp. michiganensis pathogenesis and its colonization of seeds and subsequent transmission to seedlings. This is largely attributable to a lack of tools and difficulties in genetically manipulating this Gram-positive bacterium (30). However, recent development of an insertion sequence element IS1409 (Tn1409)-based efficient transposon mutagenesis system for C. michiganensis subsp. michiganensis has increased our knowledge of the pathogenesis of tomato canker (16, 25). To better understand the dynamics of seed-to-seedling transmission of C. michiganensis subsp. michiganensis, as well as movement of C. michiganensis subsp. michiganensis in grafted plants, we constructed a bioluminescent C. michiganensis subsp. michiganensis strain using the Tn1409 transposon mutagenesis system. Our results demonstrated the utility of using a bioluminescent C. michiganensis subsp. michiganensis strain as a novel approach to elucidate the interaction of plants with this economically important pathogen.     

Treatment with apolipoprotein A-1 mimetic peptide reduces lupus-like manifestations in a murine lupus model of accelerated atherosclerosis

Introduction

The purpose of this study was to evaluate the effects of L-4F, an apolipoprotein A-1 mimetic peptide, alone or with pravastatin, in apoE^-/-Fas^-/-C57BL/6 mice that spontaneously develop immunoglobulin G (IgG) autoantibodies, glomerulonephritis, osteopenia, and atherosclerotic lesions on a normal chow diet.

Methods

Female mice, starting at eight to nine weeks of age, were treated for 27 weeks with 1) pravastatin, 2) L-4F, 3) L-4F plus pravastatin, or 4) vehicle control, followed by disease phenotype assessment.

Results

In preliminary studies, dysfunctional, proinflammatory high-density lipoproteins (piHDL) were decreased six hours after a single L-4F, but not scrambled L-4F, injection in eight- to nine-week old mice. After 35 weeks, L-4F-treated mice, in the absence/presence of pravastatin, had significantly smaller lymph nodes and glomerular tufts (P_{L, LP} < 0.05), lower serum levels of IgG antibodies to double stranded DNA (dsDNA) (P_L < 0.05) and oxidized phospholipids (oxPLs) (P_{L, LP} < 0.005), and elevated total and vertebral bone mineral density (P_{L, LP} < 0.01) compared to vehicle controls. Although all treatment groups presented larger aortic root lesions compared to vehicle controls, enlarged atheromas in combination treatment mice had significantly less infiltrated CD68⁺ macrophages (P_LP < 0.01), significantly increased mean α-actin stained area (P_LP < 0.05), and significantly lower levels of circulating markers for atherosclerosis progression, CCL19 (P_{L, LP} < 0.0005) and VCAM-1 (P_L < 0.0002).

Conclusions

L-4F treatment, alone or with pravastatin, significantly reduced IgG anti-dsDNA and IgG anti-oxPLs, proteinuria, glomerulonephritis, and osteopenia in a murine lupus model of accelerated atherosclerosis. Despite enlarged aortic lesions, increased smooth muscle content, decreased macrophage infiltration, and decreased pro-atherogenic chemokines in L-4F plus pravastatin treated mice suggest protective mechanisms not only on lupus-like disease, but also on potential plaque remodeling in a murine model of systemic lupus erythematosus (SLE) and accelerated atherosclerosis.