Poly-β-hydroxybutyrate accumulation in cyanobacteria under photoautotrophy

Poly-β-hydroxybutyrate (PHB) is a biodegradable and biocompatible polymer that has immense potential in the field of environmental, agricultural and biomedical sciences. An alternative host system has been explored in this study for low-cost production. Examination of 25 cyanobacterial species from 19 different genera for photoautrophic production of polyhydroxyalkanoates (PHAs) under batch culture demonstrated that 20 species were poly-β-hydroxybutyrate (PHB) accumulators, while others were found to be negative. Presence of PHB was confirmed by UV-spectroscopy, (1)H-NMR spectroscopy and GC-MS analysis. Accumulation of PHB in cyanobacteria was found to be species specific. The PHB extracted from Nostoc muscorum exhibited comparable material properties with the commercial PHB, thus advocating its potential applications in various fields.     

Poly-β-hydroxybutyrate accumulation in bacterial consortia from different environments

The aim of the present study was to examine soil samples from various vegetation zones in terms of physicochemical properties, microbial communities, and isolation and identification (by polymerase chain reaction and transmission electron microscopy) of bacteria producing poly-β-hydroxybutyrates (PHBs). Soil samples were analysed originating from zones with heterogeneous environmental conditions from the Romanian Carpathian Mountains (mountain zone with alpine meadow, karstic zone with limestone meadow, hill zone with xerophilous meadow, and flood plain zone with hygrophilic meadow). Different bacterial groups involved in the nitrogen cycle (aerobic mesophilic heterotrophs, ammonifiers, denitrifiers, nitrifiers, and free nitrogen-fixing bacteria from Azotobacter genus) were analysed. Soil biological quality was assessed by the bacterial indicator of soil quality, which varied between 4.3 and 4.7. A colony polymerase chain reaction technique was used for screening PHB producers. With different primers, specific bands were obtained in all the soil samples. Some wild types of Azotobacter species were isolated from the 4 studied sites. Biodegradable polymers of PHB were assessed by negative staining in transmission electron microscopy. The maximum PHB granules density was obtained in the strains isolated from the xerophilous meadow (10-18 granules/cell), which was the most stressful environment from all the studied sites, as the physicochemical and microbiological tests proved.     

Kinetics of Δ5,7-sterol accumulation during growth ofSaccharomyces cerevisiae

Saccharomyces cerevisiae accumulates Δ^5,7-sterols up to 4 mg per g biomass. The differential rate of sterol synthesis continually increases during growth, its value only being decreased at sterol levels higher than 30 mg per g biomass. The specific rate of sterol synthesis reaches a broad maximum during the growth phase. The gradual sterol accumulation pattern is dominant in cultures growing both on fermentable and nonfermentable carbon sources and is modulated by glucose repression. Limited feeding with sucrose has a significantly greater negative impact on sterol accumulation than feeding with ethanol as a carbon source.     

Does abscisic acid influence proline accumulation in stressed leaves?

Root treatments of barley (Hordeum distichum L.) plants with 10^-7 to 10^-4 M abscisic acid (ABA) caused an increase in proline content, especially at higher concentrations, within 2–3 h. Even 3 h after the removal of ABA from the medium the plants continued to accumulate proline. The higher the concentration of the ABA, the higher was the proline level at 6 h. When the highest ABA concentration, 10^-4 M, was tested with polyethylene glycol (PEG) (-5.0 bars) in the medium, the ABA treatment resulted in a higher proline content than in control plants. The treatments PEG alone and PEG + ABA resulted in heavy accumulation of proline, especially, 3 h after releasing the plants from the stress. The proline content in PEG+ABA-treated plants was always higher than plants treated with PGE or ABA alone. In peas (Pisum sativum L. cv Alaska) the same trend occurred although to a lesser degree. These findings indicate an influence of ABA on proline accumulation in water-stressed plants.Abbreviations ABA abscisic acid - PEG polyethylene glycol - RWC relative water content     

Phycotoxin accumulation in zooplankton feeding on Alexandrium fundyense--vector or sink?

Zooplankton can consume toxic Alexandrium spp. dinoflagellatesin the Gulf of Maine and retain paralytic shellfish poisoning(PSP) toxins, potentially acting as toxin vectors. We performedexperiments to determine toxin budgets for common species ofcopepods (Acartia hudsonica, Eurytemora herdmani, Centropageshamatus) feeding on toxic Alexandrium fundyense, offered asmonocultures or in mixtures of algal prey, by comparing calculatedtoxin ingestion rates and toxin content of copepod body tissueand fecal pellets. When fed monocultures, both copepod tissueand fecal pellet fractions accounted for 5% each of the calculatedingested toxin, and thus by difference 90% was lost as a dissolvedfraction into the seawater medium. The presence of alternativefood did not significantly alter the efficiency of toxin retention.Sloppy feeding or regurgitation are probable mechanisms forrelease of toxin to sea water. Experiments using varying concentrationsof A. fundyense and alternativenon-toxic species did not showsignificant effects of cell concentration on toxin retentionefficiency. Total toxin retained and efficiency of retentionvaried among copepod species. Toxin profiles (% molar composition)of dinoflagellates, copepod tissues and fecal pellets differedslightly, suggesting some metabolic transformation. Becauseof their low retention efficiency, copepod grazers can effectivelydisperse PSP toxins produced by Alexandrium spp. into the environment,where they are much less likely to be harmful—zooplanktonact as a sink for PSP toxins. Nevertheless, sufficient toxinbody burdens are attained to contribute to propagation of PSPtoxins to other trophic levels.     

Crocetin attenuates inflammation and amyloid-β accumulation in APPsw transgenic mice

Background

Crocetin, an agent derived from saffron, has multiple pharmacological properties, such as neuroprotective, anti-oxidant, and anti-inflammatory actions. These properties might benefit the treatment of Alzheimer’s disease (AD). In the present study, we tested whether crocetin attenuates inflammation and amyloid-β (Aβ) accumulation in APPsw transgenic mice, AD mouse models. Cell viability and the levels of Aβ40 and Aβ42 in HeLa cells stably transfected with Swedish mutant APP751 were evaluated. Mice with Swedish mutant APP751 transgene were used as transgenic mouse models of AD, and were orally administrated with crocetin. Aβ protein and inflammatory cytokines were measured with ELISA. NF-κB and P53 were measured with western blot assay. Learning and memory were analyzed with Morris water maze and novel object recognition tests.

Results

Crocetin significantly reduced Aβ40 and Aβ42 secretion in Hela cells without effecting cell viability. In AD transgenic mice, crocetin significantly reduced the pro-inflammatory cytokines and enhanced anti-inflammatory cytokine in plasma, suppressed NF-κB activation and P53 expression in the hippocampus, decreased Aβ in various brain areas, and improved learning and memory deficits.

Conclusion

Crocetin improves Aβ accumulation-induced learning and memory deficit in AD transgenic mice, probably due to its anti-inflammatory and anti-apoptotic functions.

     

Increase in isoleucine accumulation by α-aminobutyric acid-resistant mutants ofBifidobacterium Ruminale

Summary A number of DL--aminobutyric acid-resistant mutants ofBifidobacterium ruminale were isolated. Several of these mutants were found to be superior to the parent strain in converting -aminobutyric acid to L-isoleucine and in the valine accumulation. One of them accumulated over 9 mg/ml of L-isoleucine in presence of 3% DL--aminobutyric acid and 3 mg/ml of L-valine in absence of the precursor.     

Differential RNA accumulation of two β-tubulin genes in arbuscular mycorrhizal fungi

RNA was isolated from spores of different arbuscular mycorrhizal (AM) fungi and used for RT-PCR with degenerate primers for beta-tubulin genes. PCR products were cloned and the sequence of several clones was analysed for each fragment. Comparison of sequences identified two loci for beta-tubulin genes with different GC content and codon usage. Btub1 sequences were most similar to beta-tubulin genes from the Oomycota, while Btub2 sequences showed highest similarity to sequences from the Zygomycota. RT-PCR experiments were carried out to monitor RNA accumulation patterns of Btub1 and Btub2 in asymbiotic germinating spores and in symbiotic extraradical hyphae of three different AM fungi. This indicated that Btub1 is constitutively expressed in Gigaspora rosea, but down-regulated during symbiosis in Glomus mosseae and Glomus intraradices. In contrast, Btub2 showed constitutive expression in the two Glomus species, but down-regulation in G. rosea. Further analysis of different fungi indicated that Btub2 primers could be used to specifically monitor RNA accumulation of AM fungi in environmental samples.     

Enhanced cadmium accumulation in maize roots—the impact of organic acids

Low molecular weight organic acids are important components of root exudates and therefore, knowledge regarding the mechanisms of cadmium (Cd) uptake and distribution within plants under the influence of organic acids, is necessary for a better understanding of Cd behavior in the plant–soil system. In this study, acetic and malic acids increased the uptake of Cd by maize (Zea mays L. cv. TY2) roots and enhanced Cd accumulation in shoots under hydroponic conditions. Concentration-dependent net Cd influx in the presence and absence of organic acids could be resolved into linear and saturable components. The saturable component followed Michaelis–Menten kinetics, which indicated that Cd uptake across the plasma membrane was transporter-mediated. While the K _m values were similar, the V _max values in the presence of acetic and malic acids were respectively 6.0 and 3.0 times that of the control. Zinc transporters were the most probable pathways for Cd accumulation. It was hypothesized that Cd(II)–organic acid complexes associated with the root zone, could decompose and liberate Cd²⁺ for subsequent absorption by maize roots; and that in the layer of the roots or within the root free space, depletion of Cd²⁺ was buffered by the presence of Cd(II)–organic acid complexes. Plant response to elevated Cd levels involved overproduction of organic acids in maize roots as a resistance mechanism to alleviate Cd toxicity.     

Pinoresinol and matairesinol accumulation in a Forsythia × intermedia cell suspension culture

A newly established Forsythia × intermedia cell suspension culture was shown to accumulate (+)- and (–)-pinoresinol as well as matairesinol. The influence of the sucrose content of the culture medium and of the cultivation time on pinoresinol and matairesinol accumulation was evaluated. The highest pinoresinol yield was achieved from cells grown in medium containing 6% sucrose for 12 ± 2 days with levels of 0.6–0.8 mg g^–1 dry weight and an average enantiomeric composition of 75 ± 5% (+)-pinoresinol. The highest matairesinol amount was reached in the same medium at the 14th ± 2 culture day with levels of 1.0–2.7 mg g^–1 dry weight. To our knowledge, this is the first report on pinoresinol accumulation in Forsythia × intermedia plants or cell suspension cultures.     

Naked1 antagonizes Wnt signaling by preventing nuclear accumulation of β-catenin

Cyto-nuclear shuttling of β-catenin is at the epicenter of the canonical Wnt pathway and mutations in genes that result in excessive nuclear accumulation of β-catenin are the driving force behind the initiation of many cancers. Recently, Naked Cuticle homolog 1 (Nkd1) has been identified as a Wnt-induced intracellular negative regulator of canonical Wnt signaling. The current model suggests that Nkd1 acts between Disheveled (Dvl) and β-catenin. Here, we employ the zebrafish embryo to characterize the cellular and biochemical role of Nkd1 in vivo. We demonstrate that Nkd1 binds to β-catenin and prevents its nuclear accumulation. We also show that this interaction is conserved in mammalian cultured cells. Further, we demonstrate that Nkd1 function is dependent on its interaction with the cell membrane. Given the conserved nature of Nkd1, our results shed light on the negative feedback regulation of Wnt signaling through the Nkd1-mediated negative control of nuclear accumulation of β-catenin.     

Is nitrogen accumulation in grain legumes responsive to growth or ontogeny?

Nitrogen (N) accumulation in legumes is one of the main determinants of crop yield. Although N accumulation from symbiotic nitrogen fixation or N absorption from the soil has been widely investigated, there is no clear consensus on timing of the beginning of N accumulation and the termination of N accumulation and the physiological events that may be associated with these two events. The analyses conducted in this study aimed at identifying the determinant of N accumulation in two grain legume species. Nitrogen accumulation dynamics and mass accumulation and development stages were recorded in the field for several genotypes of common bean (Phaseolus vulgaris) and faba bean (Vicia faba) under different growing conditions. This study showed that during the vegetative stages, N accumulation rate was correlated with mass accumulation rate. However, the maximum accumulation of N did not correspond to the time of the maximum mass accumulation. In fact, for both species, N accumulation was found to persist in seed growth. This challenges a common hypothesis that seed growth causes a decrease in N accumulation because of a shift of the photosynthate supply to support the seed growth. Even more surprising was the shift of the active accumulation of N in faba bean to late in the growing season as compared with common bean. N accumulation by faba bean only was initiated at high rates very late in vegetative growth and persisted at high rates well into seed fill.     

Dipeptidyl-peptidase-IV by cleaving neuropeptide Y induces lipid accumulation and PPAR-γ expression

We evaluated the effects of dipeptidyl peptidase-IV (DPPIV), and its inhibitor, vildagliptin, on adipogenesis and lipolysis in a pre-adipocyte murine cell line (3T3-L1). The exogenous rDPPIV increased lipid accumulation and PPAR-γ expression, whereas an inhibitor of DPPIV, the anti-diabetic drug vildagliptin, suppresses the stimulatory role of DPPIV on adipogenesis and lipid accumulation, but had no effect on lipolysis. NPY immunoneutralization or NPY Y(2) receptor blockage inhibited DPPIV stimulatory effects on lipid accumulation, collectively, indicating that DPPIV has an adipogenic effect through NPY cleavage and subsequent NPY Y(2) activation. Vildagliptin inhibits PPAR-γ expression and lipid accumulation without changing lipolysis, suggesting that this does not impair the ability of adipose tissue to store triglycerides inside lipid droplets. These data indicate that DPPIV and NPY interact on lipid metabolism to promote adipose tissue depot.     

Akt1 inhibition promotes breast cancer metastasis through EGFR-mediated β-catenin nuclear accumulation

Background

Knockdown of Akt1 promotes Epithelial-to-Mesenchymal Transition in breast cancer cells. However, the mechanisms are not completely understood.

Methods

Western blotting, immunofluorescence, luciferase assay, real time PCR, ELISA and Matrigel invasion assay were used to investigate how Akt1 inhibition promotes breast cancer cell invasion in vitro. Mouse model of lung metastasis was used to measure in vivo efficacy of Akt inhibitor MK2206 and its combination with Gefitinib.

Results

Knockdown of Akt1 stimulated β-catenin nuclear accumulation, resulting in breast cancer cell invasion. β-catenin nuclear accumulation induced by Akt1 inhibition depended on the prolonged activation of EGFR signaling pathway in breast cancer cells. Mechanistic experiments documented that knockdown of Akt1 inactivates PIKfyve via dephosphorylating of PIKfyve at Ser³¹⁸ site, resulting in a decreased degradation of EGFR signaling pathway. Inhibition of Akt1 using MK2206 could induce an increase in the expression of EGFR and β-catenin in breast cancer cells. In addition, MK2206 at a low dosage enhance breast cancer metastasis in a mouse model of lung metastasis, while an inhibitor of EGFR tyrosine kinase Gefitinib could potentially suppress breast cancer metastasis induced by Akt1 inhibition.

Conclusion

EGFR-mediated β-catenin nuclear accumulation is critical for Akt1 inhibition-induced breast cancer metastasis.

     

Hyoscyamine and proline accumulation in water-stressed Hyoscyamus muticus ‘hairy root’ cultures

Summary The patterns of hyoscyamine and proline accumulation were studied in Agrobacterium-transformed ‘hairy root’ cultures of Hyoscyamus muticus to determine if proline is a metabolic precursor of hyoscyamine. Root cultures were stressed osmotically with mannitol and the subsequent growth, hyoscyamine levels, and proline levels were measured after each transfer to fresh experimental medium for a total of four transfers. H. muticus ‘hairy roots’ were also treated with [U-¹⁴C] proline or [1,4-¹⁴C] putrescine and analyzed for radioactive hyoscyamine. Growth of ‘hairy root’ cultures was reduced by up to 90% in 0.4 M mannitol, and this inhibition persisted for at least four transfers. ‘Hairy root’ cultures of H. muticus accumulated hyoscyamine and free proline (up to 6-fold and 25-fold, respectively) when osmotically stressed with mannitol, and this effect also persisted for four transfers when grown in the same mannitol concentration. Because the total production of hyoscyamine was also increased by twofold, we conclude that the elevated hyoscyamine concentration results from increased hyoscyamine synthesis and not from reduced growth. H. muticus ‘hairy roots’ incorporated radioactivity from [1,4-¹⁴C] putrescine efficiently into hyoscyamine in both treatments, but failed to convert [U-¹⁴C] proline into hyoscyamine. We thus conclude that accumulated proline does not serve as a precursor for hyoscyamine.