Enhanced lymph node retention of subcutaneously injected IgG1-PEG2000-liposomes through pentameric IgM antibody-mediated vesicular aggregation

An efficient strategy for enhancing the lymph node deposition of rapidly drained liposomes from the interstitial injection site is described. Subcutaneously injected small-sized immuno-poly(ethyleneglycol)-liposomes (immuno-PEG-liposomes), containing 10 mol% mPEG₃₅₀-phospholipid and 1 mol% PEG₂₀₀₀-phospholipid in their bilayer and where IgG1 is coupled to the distal end of PEG₂₀₀₀, not only drain rapidly from the interstitial spaces into the initial lymphatic system, but also accumulate efficiently among the lymph nodes draining the region when compared with non-PEG-bearing immunoliposomes where IgG is directly coupled to the phospholipid. Liposome deposition among the draining lymph nodes, however, was further enhanced dramatically following an adjacent subcutaneous injection of a pentameric IgM against the surface attached IgG molecules (IgM:IgG, 10:1) without compromising vesicle drainage from the interstitium. This is suggested to arise either as a result of formation of large immuno-aggregates within the lymphatic vessels with subsequent transport to and trapping among the regional lymph nodes and/or following IgM binding to Fc receptors of the lymph node sinus macrophages forming a platform for subsequent trapping of drained IgG-coupled liposomes. This lymph node targeting approach may be amenable for the design and surface engineering of any rapidly drained nanoparticulate system bearing peptides and proteins that can be aggregated with a desired monoclonal pentameric IgM.     

Genome structure and evolution in the cruciferous tribe Thlaspideae (Brassicaceae)

Whole-genome duplications (WGDs) and chromosome rearrangements (CRs) play the key role in driving the diversification and evolution of plant lineages. Although the direct link between WGDs and plant diversification is well documented, relatively few studies focus on the evolutionary significance of CRs. The cruciferous tribe Thlaspideae represents an ideal model system to address the role of large-scale chromosome alterations in genome evolution, as most Thlaspideae species share the same diploid chromosome number (2n = 2x = 14). Here we constructed the genome structure in 12 Thlaspideae species, including field pennycress (Thlaspi arvense) and garlic mustard (Alliaria petiolata). We detected and precisely characterized genus- and species-specific CRs, mostly pericentric inversions, as the main genome-diversifying drivers in the tribe. We reconstructed the structure of seven chromosomes of an ancestral Thlaspideae genome, identified evolutionary stable chromosomes versus chromosomes prone to CRs, estimated the rate of CRs, and uncovered an allohexaploid origin of garlic mustard from diploid taxa closely related to A. petiolata and Parlatoria cakiloidea. Furthermore, we performed detailed bioinformatic analysis of the Thlaspideae repeatomes, and identified repetitive elements applicable as unique species- and genus-specific barcodes and chromosome landmarks. This study deepens our general understanding of the evolutionary role of CRs, particularly pericentric inversions, in plant genome diversification, and provides a robust base for follow-up whole-genome sequencing efforts.     

Tamoxifen Induces Apoptosis of Leishmania major Promastigotes in Vitro

Tamoxifen is an antagonist of the estrogen receptor and currently used for the treatment of breast cancer. The current treatment of cutaneous leishmaniasis with pentavalent antimony compounds is not satisfactory. Therefore, in this study, due to its antileishmanial activity, effects of tamoxifen on the growth of promastigotes and amastigotes of Leishmania major Iranian strain were evaluated in vitro. Promastigotes and amastigotes were treated with different concentrations (1, 5, 10, 20, and 50 μg/ml) and time periods (24, 48, and 72 hr) of tamoxifen. After tamoxifen treatment, MTT assay (3-[4,5-dimethylthiazol-2-yl]-2,5 biphenyl tetrazolium bromide assay) was used to determine the percentage of live parasites and Graph Pad Prism software to calculate IC₅₀. Flow cytometry was applied to investigate the induction of tamoxifen-induced apoptosis in promastigotes. The half maximal inhibitory concentration (IC₅₀) of tamoxifen on promastigotes was 2.6 μg/ml after 24 hr treatment. Flow cytometry analysis showed that tamoxifen induced early and late apoptosis in Leishmania promastigotes. While after 48 hr in control group the apoptosis was 2.0%, the 50 µg/L concentration of tamoxifen increased it to 59.7%. Based on the in vitro antileishmanial effect, tamoxifen might be used for leishmaniasis treatment; however, further researches on in vivo effects of tamoxifen in animal models are needed.     

In vitro and computational studies on the effects of ARE deletion and targeted mutations on the expression of interferon beta-1a in HEK293T cells

Applied Microbiology and Biotechnology - Interferon beta (IFNβ) is transiently expressed in response to viral infections and widely used to treat relapsing-remitting multiple sclerosis (MS)....     

Evaluation of phenolic and flavonoid compounds in pollen grains of three Citrus species in response to low temperature

Low temperature during the reproductive stage causes sterility of pollen grains and reduces yield. Phenolic compounds function as stress indicators because they accumulate to high levels in many plant tissues in response to a wide range of biotic and abiotic signals. Branches with unopened flowers were collected from trees of three Citrus species (C. reticulata, C. sinensis and C. paradisi) and exposed to different temperatures (5, 10, 15, 20 and 25 °C) for six hours. The highest amount of polyphenol and flavonoids was observed at 5 °C and then their content reduced with increasing temperature in all species. Total phenols and flavonoids content in control temperature as well as all treatments showed that C. paradisi has lower amounts of these compounds than the two other species. HPLC analysis demonstrated that low temperatures, particularly 5 °C, induce flavonoids accumulation as both peak number and flavonoid levels for retention times in pollen grains of all species. The comparison of the HPLC patterns of the three species showed that flavonoid extracts in pollen of C. paradisi decrease in peak number and flavonoids levels for retention times in both control and treatments. Citrus reticulata showed an increase of eight- and two-fold in peaks of one and four, respectively, at 5 °C. Peaks of one and six in C. sinensis increased about four- and three-fold, respectively, at 5 °C compared to the control. In C. paradisi, the levels of peaks two to four were near to the baseline in control samples. With temperature reduction, peak two showed no significant increase but the levels of peaks one, three and four in samples exposed to 5 °C increased approximately three-, three- and four-fold, respectively. ?     

Morphine Inhibited the Rat Neural Stem Cell Proliferation Rate by Increasing Neuro Steroid Genesis

Up to present, a large number of reports unveiled exacerbating effects of both long- and short-term administration of morphine, as a potent analgesic agent, on opium-addicted individuals and a plethora of cell kinetics, although contradictory effect of morphine on different cells have been introduced until yet. To address the potent modulatory effect of morphine on neural multipotent precursors with emphasis on endogenous sex-related neurosteroids biosynthesis, we primed the rat neural stem cells isolated from embryonic rat telencephalon to various concentrations of morphine including 10, 20, 50 and 100 µM alone or in combination with naloxone (100 µM) over period of 72 h. Flow cytometric Ki-67 expression and Annexin-V/PI based necrosis and apoptosis of exposed cells were evaluated. The total content of dihydrotestosterone and estradiol in cell supernatant was measured by ELISA. According on obtained data, both concentration- and time-dependent decrement of cell viability were orchestrated thorough down-regulation of ki-67 and simultaneous up-regulation of Annexin-V. On the other hand, the addition of naloxone (100 µM), as Mu opiate receptor antagonist, could blunt the morphine-induced adverse effects. It also well established that time-course exposure of rat neural stem cells with morphine potently could accelerate the endogenous dihydrotestosterone and estradiol biosynthesis. Interestingly, naloxone could consequently attenuate the enhanced neurosteroidogenesis time-dependently. It seems that our results discover a biochemical linkage between an accelerated synthesis of sex-related steroids and rat neural stem cells viability.