Auxin production and detection of the gene coding for the Auxin Efflux Carrier (AEC) protein in <Emphasis Type="Italic">Paenibacillus polymyxa</Emphasis>

Different species of Paenibacillus are considered to be plant growth-promoting rhizobacteria (PGPR) due to their ability to repress soil borne pathogens, fix atmospheric nitrogen, induce plant resistance to diseases and/or produce plant growth-regulating substances such as auxins. Although it is known that indole-3-acetic acid (IAA) is the primary naturally occurring auxin excreted by Paenibacillus species, its transport mechanisms (auxin efflux carriers) have not yet been characterized. In this study, the auxin production of P. polymyxa and P. graminis, which are prevalent in the rhizospheres of maize and sorghum sown in Brazil, was evaluated. In addition, the gene encoding the Auxin Efflux Carrier (AEC) protein from P. polymyxa DSM36(T) was sequenced and used to determine if various strains of P. polymyxa and P. graminis possessed this gene. Each of the 68 P. polymyxa strains evaluated in this study was able to produce IAA, which was produced at concentrations varying from 1 to 17 microg/ml. However, auxin production was not detected in any of the 13 P. graminis strains tested in this study. Different primers were designed for the PCR amplification of the gene coding for the AEC in P. polymyxa, and the predicted protein of 319 aa was homologous to AEC from Bacillus amyloliquefaciens, B. licheniformis, and B. subtilis. However, no product was observed when these primers were used to amplify the genomic DNA of seven strains of P. graminis, which suggests that this gene is not present in this species. Moreover, none of the P. graminis genomes tested were homologous to the gene coding for AEC, whereas all of the P. polymyxa genomes evaluated were. This is the first study to demonstrate that the AEC protein is present in P. polymyxa genome.     

Carbofuran-induced alterations in biochemical composition, lipoperoxidation, and Na+/K+ATPase activity of Hyalella pleoacuta and Hyalella curvispina in bioassays

The present study investigated the effects of carbofuran on the energy metabolism (levels of glycogen, total proteins, total lipids, triglycerides, and lipoperoxidation), Na+/K+ATPase activity, and reproductive parameters (formation of couples, ovigerous females, and mean number of eggs) in the freshwater amphipods Hyalella pleoacuta and Hyalella curvispina. These crustaceans live in limnetic environments of the plateau (H. pleoacuta) and coastal plain (H. curvispina) of the state of Rio Grande do Sul in southern Brazil. The animals were collected in the winter of 2006 in the Vale das Trutas (28 degrees 47'00'S-49 degrees 50'53'W) in the Municipality of S?o José dos Ausentes, and in Gentil Lagoon (29 degrees 56'30'S, 50 degrees 07'50'W) in the Municipality of Tramandaí. In the laboratory, the amphipods were kept submerged in aquariums under controlled conditions of photoperiod (12 h light: 12 h dark), temperature (23 degrees C+/-1), and constant oxygenation. Animals were exposed to carbofuran at a dose of 5 or 50 microg/L for a period of 7 days. At the end of this period, the animals were immediately frozen for determination of the biochemical parameters, lipoperoxidation levels (TBARS), and enzyme Na+/K+ATPase activity. During each day of culture, several reproductive parameters were observed. Statistical analysis (ANOVA) revealed that carbofuran induces significant decreases in glycogen, proteins, lipids, triglycerides, and Na+/K+ATPase, as well as a significant increase in lipoperoxidation levels. Studies of all the biochemical parameters seem to be quite promising, in order to assess and predict the effects of toxicants on non-target organisms. The results also suggest that the reproductive parameters (formation of couples, ovigerous females and mean number of eggs) may provide sensitive criteria for assessing ecotoxicological effects. Furthermore, H. pleoacuta and H. curvispina are suitable organisms for use in toxicity tests, and we suggest that they are sensitive species that could be used in monitoring studies.     

Potential role of frugivorous birds (Passeriformes) on seed dispersal of six plant species in a restinga habitat, southeastern Brazil

Restingas are considered stressful habitats associated with the Brazilian Atlantic forest, and their ecological interactions are poorly known. The goal of the present study was to determine the potential role of frugivorous birds as seed dispersers in a restinga habitat. Data were collected in Parque Nacional da Restinga de Jurubatiba, southeastern Brazil, where the main physiognomy (Open Clusia Formation) is characterized by the presence of patches of vegetation covering 20 to 48 % of the sandy soil and reaching a height of 5 m. Birds were captured with mist nets (12 x 2.5 m; 36 mm mesh; 1,680 net-hrs) and had their fecal and regurgitate samples inspected for seeds. Six plant species found in these bird samples were studied. The germination of seeds obtained from plants was compared to those from the birds. Both groups of seeds were set on Petri dishes at room temperature and washed when infected with fungi. In general, there was no effect on germination rate, and the effect on germination speed was negative. Germination of seeds from Pilosocereus arrabidae treated by the birds seemed to be influenced by storage of defecated seeds, while few Miconia cinnamomifolia seeds both from plants and from birds germinated. Ocotea notata presented a great variation in time to the onset of germination, perhaps an advantage against dissecation. Aechmea nudicaulis, Clusia hilariana and Erythroxylum subsessile probably take advantage of the arrival to favorable microhabitats, not by the gut effect on the seeds. All plant species studied are numerically important for the community and some of them are main actors in the succession of vegetation patches. Among the birds, Mimus gilvus is an important resident species, endemic to restingas in Brazil, while Turdus amaurochalinus is a visitor and may be important for plants that fructify during its passage by the study site. Although the effect of pulp removal was only tested for one species (Achmea nudicaulis) in the present study, we confirmed that the tested effect of restinga frugivorous birds on seed germination was generally null. Although there is a need for more detailed studies on specific animal-plant interactions on this habitat, the overall effect of the birds on seed dispersal in restinga is probably positive.     

Influence of different storage methods on the predatory capacity of the fungi Arthrobotrys robusta and Monacrosporium thaumasium after passage through the bovine gastrointestinal tract

The biological control of helminth parasites of bovines by nematophagous fungi is an alternative to the use of drugs with the principal objective of reducing the source of infection available on pastureland. The maintenance of predatory activity of the fungal isolates is one of the basic prerequisites to ensure the success of this form of control. In this study behaviour of the isolates I31 of Arthrobotrys robusta and NF34a of Monacrosporium thaumasium was investigated following three storage methods: stored at 4 °C, cryopreserved with or without cryoprotectants or preserved in silica gel. All samples were subsequently passed through the gastrointestinal tract of calves. The latter involved the administration of 20 g of mycelia to the animals. This quantity was sufficient to recover fungal material from the faeces. The peak reduction in the number of infective larvae in the faeces occurred 24 h after administration of the samples (P < 0.05). The storage at 4 °C was the treatment that produced the greatest reduction in larvae for NF34a (81.3%) and I31 (65.1%) isolates. Nf34a isolate was responsible for the highest percentage reduction of larval helminth populations (P < 0.05). Cryopreservation appears to be an efficient method of preserving isolates, although diminished predatory capacity compared to storage at 4 °C was seen only for isolate NF34a (73.2%). Cryopreservation did not interfere in predatory activity of I31 isolate (P < 0.05). Maintenance of isolates in silica gel showed the lowest reduction throughout the experiment (P < 0.05).     

The antimicrobial effects of glucosinolates and their respective enzymatic hydrolysis products on bacteria isolated from the human intestinal tract

Aims:  The aim of the study was to evaluate the in vitro antibacterial activity of glucosinolates and their enzymatic hydrolysis product against bacteria isolated from the human intestinal tract.
Methods and results:  Using a disc diffusion bioassay, different doses of intact glucosinolates and their corresponding hydrolysis products were tested. There were clear structure–activity and concentration differences with respect to the in vitro growth inhibition effects as well as differences in the sensitivities of the individual bacteria. The most effective glucosinolate hydrolysis products were the isothiocyanates; sulforaphane and benzyl isothiocyanate were the best inhibitors of growth. Indole-3-carbinol had some inhibitory effects against the Gram-positive bacteria but had no effect, even at the highest dose, against the Gram-negative bacteria. Indole-3-acetonitrile had some inhibitory activity against the Gram-negative bacteria. Glucosinolates, nitriles and amines were ineffective at all the doses used.
Conclusions:  Glucosinolate hydrolysis products and specifically the isothiocyanates SFN and BITC have significant antimicrobial activity against Gram-positive and Gram-negative bacteria, and might be useful in controlling human pathogens through the diet.
Significance and Impact of the Study:  This the first major in vitro study demonstrating the potential of these natural dietary chemicals as an alternative to, or in combination with, current antibiotic-based therapies for treating infectious diseases.     

Humanized Mice Show Clinical Signs of Dengue Fever according to Infecting Virus Genotype

We demonstrated that the infection of humanized NOD-scid IL2rγ ^null mice with different strains (representing the four genotypes) of dengue virus serotype 2 (DEN-2) can induce the development of human-like disease, including fever, viremia, erythema, and thrombocytopenia. Newborn mice were irradiated and received transplants by intrahepatic inoculation of human cord blood-derived hematopoietic progenitor cells (CD34⁺). After 6 weeks, mouse peripheral blood was tested by flow cytometry to determine levels of human lymphocytes (CD45⁺ cells); rates of reconstitution ranged from 16 to 80% (median, 52%). Infection (with approximately 10⁶ PFU, the equivalent of a mosquito bite) of these humanized mice with eight low-passage-number strains produced a high viremia extending to days 12 to 18 postinfection. We observed a significant decrease in platelets at day 10 in most of the mice and an increase in body temperature (fever) and erythema (rash) in comparison with humanized mice inoculated with cell culture medium only. Comparison of Southeast (SE) Asian and other genotype viruses (American, Indian, and West African) in this model showed significant differences in magnitude and duration of viremia and rash, with the SE Asian viruses always being highest. Indian genotype viruses produced lower viremias and less thrombocytopenia than the others, and West African (sylvatic) viruses produced the shortest periods of viremia and the lowest rash measurements. These results correlate with virulence and transmission differences described previously for primary human target cells and whole mosquitoes and may correlate with epidemiologic observations around the world. These characteristics make this mouse model ideal for the study of dengue pathogenesis and the evaluation of vaccine attenuation and antivirals.Dengue viruses, which cause the disease dengue fever (DF) and its more severe form, dengue hemorrhagic fever (DHF), in humans, have been spreading to more areas of the world along with their mosquito (Aedes aegypti and Aedes albopictus) vectors. Now over 100 countries are affected, including some areas of the United States (Texas and Hawaii) (5, 26). Due to the fact that only humans show clinical signs and symptoms of disease, it has been difficult to directly test the mechanisms of pathogenesis of these viruses (4). Through decades of research, including clinical, epidemiologic, and laboratory studies, the factors involved in producing disease, whether it be DF or DHF, have remained unproved. However, there are many indications that both the virus and the host contribute to the occurrence and severity of disease: there are genetic differences in the virus and host immune response that can be measured in vitro, and these factors seem to lead to immunopathology in addition to the damage done by virus replication. Because there are four antigenically distinct dengue viruses (serotypes 1 to 4), humans can theoretically have dengue virus infections leading to clinical disease up to four times, and the immunity to the first virus enhances the probability of developing severe dengue after a subsequent infection. Thus, the development of vaccines has been hampered by the unknown effects of inoculating with a tetravalent preparation that might cause immunopathology or severe disease, and there are no appropriate animal models in which to test vaccine attenuation and efficacy for human applications.In 2005 we reported the development of humanized NOD/SCID (nonobese diabetic/severe combined immunodeficient) mice that produced signs of DF upon infection with one strain of dengue virus (3). The mice were humanized by giving them transplants of purified hematopoietic stem cells from human umbilical cord blood (CB) samples taken from normal births. After subcutaneous infection with a low dose of a Southeast (SE) Asian virus, the viremia, rash, and thrombocytopenia were significantly higher, longer lasting, and more like human disease than in any other animal model described at the time. We concluded that this model could be used to test antiviral treatments, since these mice did not produce measurable human antibodies. Since then, many other immunodeficient mouse strains have been produced that can have enhanced human engraftment levels, and they develop functional human immune system cells, including some level of adaptive immunity (20). It has been reported that some of these mouse strains develop immunoglobulins specific for human immunodeficiency virus and dengue virus, albeit at low levels (14, 25).Here we present results of dengue virus pathogenesis studies in a new mouse strain, NOD-scid IL2rγ ^null, that has a much higher degree of human lymphocyte development (median of 52%, versus 14% previously). The comparison of viruses from different genetic subgroups of dengue serotype 2 has led us to conclude that this model is reflective of actual human dengue pathogenesis, and this development might bring us to a new era in testing the factors that contribute to dengue disease.     

SCAMP3 is a component of the Salmonella-induced tubular network and reveals an interaction between bacterial effectors and post-Golgi trafficking

Salmonella enterica are facultative intracellular bacterial pathogens that proliferate within host cells in a membrane-bounded compartment, the Salmonella -containing vacuole (SCV). Intracellular replication of Salmonella is mediated by bacterial effectors translocated on to the cytoplasmic face of the SCV membrane by a type III secretion system. Some of these effectors manipulate the host endocytic pathway, resulting in the formation in epithelial cells of tubules enriched in late endosomal markers, known as Salmonella -induced filaments (SIFs). However, much less is known about possible interference of Salmonella with the secretory pathway. Here, a small-interference RNA screen revealed that secretory carrier membrane proteins (SCAMPs) 2 and 3 contribute to the maintenance of SCVs in the Golgi region of HeLa cells. This is likely to reflect a function of SCAMPs in vacuolar membrane dynamics. Moreover, SCAMP3, which accumulates on the trans -Golgi network in uninfected cells, marked tubules induced by Salmonella effectors that overlapped with SIFs but which also comprised distinct tubules lacking late endosomal proteins. We propose that SCAMP3 tubules reflect a manipulation of specific post-Golgi trafficking that might allow Salmonella to acquire nutrients and membrane, or to control host immune responses.     

One More Piece in the VACV Ecological Puzzle: Could Peridomestic Rodents Be the Link between Wildlife and Bovine Vaccinia Outbreaks in Brazil?

Background

Despite the fact that smallpox eradication was declared by the World Health Organization (WHO) in 1980, other poxviruses have emerged and re-emerged, with significant public health and economic impacts. Vaccinia virus (VACV), a poxvirus used during the WHO smallpox vaccination campaign, has been involved in zoonotic infections in Brazilian rural areas (Bovine Vaccinia outbreaks – BV), affecting dairy cattle and milkers. Little is known about VACV''s natural hosts and its epidemiological and ecological characteristics. Although VACV was isolated and/or serologically detected in Brazilian wild animals, the link between wildlife and farms has not yet been elucidated.

Methodology/Principal Findings

In this study, we describe for the first time, to our knowledge, the isolation of a VACV (Mariana virus - MARV) from a mouse during a BV outbreak. Genetic data, in association with biological assays, showed that this isolate was the same etiological agent causing exanthematic lesions observed in the cattle and human inhabitants of a particular BV-affected area. Phylogenetic analysis grouped MARV with other VACV isolated during BV outbreaks.

Conclusion/Significance

These data provide new biological and epidemiological information on VACV and lead to an interesting question: could peridomestic rodents be the link between wildlife and BV outbreaks?     

Genetic variation in taste and its influence on food selection

Abstract Taste perception plays a key role in determining individual food preferences and dietary habits. Individual differences in bitter, sweet, umami, sour, or salty taste perception may influence dietary habits, affecting nutritional status and nutrition-related chronic disease risk. In addition to these traditional taste modalities there is growing evidence that "fat taste" may represent a sixth modality. Several taste receptors have been identified within taste cell membranes on the surface of the tongue, and they include the T2R family of bitter taste receptors, the T1R receptors associated with sweet and umami taste perception, the ion channels PKD1L3 and PKD2L1 linked to sour taste, and the integral membrane protein CD36, which is a putative "fat taste" receptor. Additionally, epithelial sodium channels and a vanilloid receptor, TRPV1, may account for salty taste perception. Common polymorphisms in genes involved in taste perception may account for some of the interindividual differences in food preferences and dietary habits within and between populations. This variability could affect food choices and dietary habits, which may influence nutritional and health status and the risk of chronic disease. This review will summarize the present state of knowledge of the genetic variation in taste, and how such variation might influence food intake behaviors.