972 resultados para Receptors, Cytoplasmic and Nuclear
Resumo:
The first topic area of this thesis involved studies on the accumulation and translocation of glucosinolates (GSs), bioactive secondary plant compounds, in broccoli plants. Changes in GS accumulation and gene expression levels in response to exogeneous methyl jasmonate (MeJA) treatment were analyzed in different tissue types at different developmental stages of broccoli. Greater accumulation of GSs with MeJA treatment was observed in apical leaves of broccoli seedlings and florets of plants at harvest maturity. Increases in indolyl GS in apical leaves of seedlings and florets were coupled with the up-regulation of indolyl GS biosynthesis genes. The accumulation of indolyl GSs appears to be modulated by MeJA treatment in an organ-specific manner for optimal distribution of defense substances in the plant. Metabolic profiling of hydrophilic metabolites using GC-MS demonstrated increased accumulation of various phenolics, ascorbates and amino acids in broccoli tissues after MeJA treatment. Distinct changes in carbohydrate levels observed between different tissues (vegetative leaves and floret tissues) of broccoli plants after treatment suggest that carbon metabolism is differentially modulated by MeJA treatment in different tissue types depending on sink-source relationships. Reduced levels of hexose sugars and tricarboxylic acid intermediates after MeJA treatment may reflect the increased requirement for carbon and energy needed to drive secondary product biosynthesis to accumulate metabolites for defense against insects and other herbivores. Substantial increases of indolyl and aromatic GSs after exogenous treatment with MeJA in stem and petioles of seedlings and the existence of intact indolyl-GS forms in phloem exudates suggest enhanced de novo synthesis in combination with active transport. Indoly GSs share structural similarities with the auxin, IAA, and may interact with components of the auxin transport system for intra- and extra-cellular transport or translocation. Application of the auxin efflux inhibitor, 1-naphthylphthalamic acid (NPA) reduced MeJA-mediated accumulation of indolyl GSs in broccoli florets and seedling tissues. NPA did not inhibit expression of indolyl GS biosynthesis genes shown to be upregulated by MeJA treatment or the accumulation of tryptophan, the amino acid precursor of indolyl GSs. Exogenous application of benzyl GS to Arabidopsis roots induced ectopic expression of the PIN1 protein associated with the auxin transport system similar to treatment with NPA, again suggesting GS interaction with the auxin efflux carrier system. The inhibitory effect of NPA on MeJA-mediated accumulation of GS may be due to competitive binding of NPA to auxin efflux carrier components and that GS transport is mediated by the auxin transport system. The inhibitory effect of NPA on indolyl and aromatic GS accumulation and the bioactivity of exogenous treatment of these GS compounds in PIN1 localization, Arabidopsis root growth, and gravitrophic response suggest that indolyl and aromatic GSs may be antagonistic to IAA transport and biosynthesis. Indolyl and aromatic GSs can also be potentially converted into IAA by hydrolysis. This intrinsic feature of GSs may be the part of a sophisticated regulatory process where the metabolic pathways in the plant shift from active growth to a reversible defense posture in response to biotic or abiotic stress. It seems likely that indolyl and aromatic GSs are important compounds that provide connections between jasmonate and auxin signaling. Further studies are required to reveal the regulatory mechanism for crosstalk between the two hormones. The third part of this research was to investigate effect of selenium fertilization and MeJA treatment on accumulation of GSs in broccoli florets. Increasing dietary intake of the element selenium (Se) has been shown to reduce the risk of cancer. Simultaneous enhancement of both Se and GS concentrations in broccoli floret tissue were conducted through the combined treatment of MeJA with Se fertilization. A low level of Se fertilization (concentration) with MeJA treatment displayed no significant changes in total aliphatic GS concentrations with 90% and 50% increases in indolyl and total GSs concentrations, respectively. This result suggests that Se- and GS-enriched broccoli with improved health-promoting properties can be generated by this combined treatment. The second topic of this thesis was conducted to provide basic information required to improve biomass quality and productivity and develop tools for gene transformation in Miscanthus x giganteus. The perennial rhizomatous grass, Miscanthus x giganteus is an ideal biomass crop due to its rapid vegetative growth and high biomass yield potential. As a naturally occurring sterile hybrid, M. x giganteus must be propagated vegetatively by mechanicalling divided rhizomes or from micropropagated plantlets. The effect of callus type, age and culture methods on regeneration competence was studied to improve regeneration efficiency and shorten the period of tissue culture in M. x giganteus propagation. Seven lignin biosynthesis genes and one putative flowering gene were isolated from M. x giganteus by PCR reactions using maize othologous sequences. Southern hybridization and nuclear DNA content analysis indicated that the genes isolated from M. x giganteus exist in the genome of other Miscanthus species as multiple copies. Analysis of lignin content and histological staining of lignin deposition indicated that higher lignin content is found in mature stem node tissues compared to young leaves and apical stem nodal tissues. Cell wall lignification is associated with increasing tissue maturity in Miscanthus species. RNAi and antisense constructs harboring sequences of these genes were developed to generate Miscanthus transgenic plants with suppressed of lignin biosynthesis and delayed flowering.
Resumo:
This review summarizes the research progress made over the past decade in the field of gastropod immunity resulting from investigations of the interaction between the snail Biomphalaria glabrata and its trematode parasites. A combination of integrated approaches, including cellular, genetic and comparative molecular and proteomic approaches have revealed novel molecular components involved in mediating Biomphalaria immune responses that provide insights into the nature of host-parasite compatibility and the mechanisms involved in parasite recognition and killing. The current overview emphasizes that the interaction between B. glabrata and its trematode parasites involves a complex molecular crosstalk between numerous antigens, immune receptors, effectors and anti-effector systems that are highly diverse structurally and extremely variable in expression between and within host and parasite populations. Ultimately, integration of these molecular signals will determine the outcome of a specific interaction between a B. glabrata individual and its interacting trematodes. Understanding these complex molecular interactions and identifying key factors that may be targeted to impairment of schistosome development in the snail host is crucial to generating new alternative schistosomiasis control strategies.
Resumo:
The impact of Chernobyl on the 137Cs activities found in wild boars in Europe, even in remote locations from the NPP, has been much greater than the impact of Fukushima on boars in Japan. Although there is great variability within the 137Cs concentrations throughout the wild boar populations, some boars in southern Germany in recent years exhibit higher activity concentrations (up to 10,000 Bq/kg and higher) than the highest 137Cs levels found in boars in the governmental food monitoring campaign (7900 Bq/kg) in Fukushima prefecture in Japan. The levels of radiocesium in boar appear to be more persistent than would be indicated by the constantly decreasing 137Cs inventory observed in the soil which points to a food source that is highly retentive to 137Cs contamination or to other radioecological anomalies that are not yet fully understood.
Resumo:
We investigated Ocean sediments and seawater from inside the Fukushima exclusion zone and found radiocesium (134Cs and 137Cs) up to 800 Bq kg-1 as well as 90Sr up to 5.6 Bq kg-1. This is one of the first reports on radiostrontium in sea sediments from the Fukushima exclusion zone. Seawater exhibited contamination levels up to 5.3 Bq kg-1 radiocesium. Tap water from Tokyo from weeks after the accident exhibited detectable but harmless activities of radiocesium (well below the regulatory limit). Analysis of the Unit 5 reactor coolant (finding only 3H and even low 129I) leads to the conclusion that the purification techniques for reactor coolant employed at Fukushima Daiichi are very effective.
Resumo:
Colorectal cancer (CRC) is the third most common cancer worldwide. Various factors such as age, lifestyle and dietary patterns affect the risk of having CRC. Epidemiological studies showed a chemopreventive effect of soy consumption against CRC. However, which component(s) of soybean is associated with this reduced risk is not yet fully delineated. The objective of this research was to evaluate the anti-colon cancer potential of lunasin isolated from defatted soybean flour using in vitro and in vivo models of CRC. Lunasin was isolated from defatted soybean flour by a combination of different chromatographic and ultrafiltration techniques. The anti-colon cancer potential of lunasin was determined using different human colon cancer cell lines in vitro and a CRC liver metastasis model in vivo. Lunasin caused cytotoxicity to different human colon cancer cells with an IC50 value of 13.0, 21.6, 26.3 and 61.7 µM for KM12L4, RKO, HCT-116 and HT-29 human colon cancer cells, respectively. This cytotoxicity correlated with the expression of the α5 integrin on human colon cancer cells with a correlation coefficient of 0.78. The mechanism involved in the cytotoxic effect of lunasin was through cell cycle arrest and induction of the mitochondrial pathway of apoptosis. In KM12L4 human colon cancer cells, lunasin caused a G2/M phase arrest increasing the percentage of cells at G2/M phase from 12% (PBS-treated) to 24% (treated with 10 µM lunasin). This arrest was attributed to the capability of lunasin to increase the expression of cyclin dependent kinase inhibitors p21 and p27. At 10 µM, lunasin increased the expression of p21 and p27 in KM12L4 colon cancer cells by 2.2- and 2.3-fold, respectively. Flow cytometric analysis showed that lunasin at 10 µM increased the percentage of cells undergoing apoptosis from 13.6% to 24.7%. This is further supported by fluorescence microscopic analysis of KM12L4 cells treated with 10 µM lunasin showing chromatin condensation and DNA fragmentation. The mechanism involved is through modification of proteins involved in the mitochondrial pathway of apoptosis in KM12L4 cells as 10 µM lunasin reduced the expression of the anti-apoptotic Bcl-2 protein by 2-fold and increased the expression of the pro-apoptotic proteins Bax, cytochrome c and nuclear clusterin by 2.2-, 2.1- and 2.3- fold, respectively. This led to increased expression and activity of the executioner of apoptosis, caspase-3 by 1.8- and 2.3-fold, respectively. This pro-apoptotic property of lunasin can be attributed to its capability to internalize into the cytoplasm and nucleus of colon cancer cells 24 h and 72 h after treatment, respectively. In addition, lunasin mediated metastasis of colon cancer cells in vitro by inhibiting the focal adhesion kinase activation thereby reducing expression of extracellular regulated kinase and nuclear factor kappa B and finally inhibiting migration of colon cancer cells. In KM12L4 colon cancer cells, 10 µM lunasin resulted in the reduction of phosphorylation of focal adhesion kinase and extracellular regulated kinase by 2.5-fold, resulting in the reduced nuclear translocation of p50 and p65 NF-κB subunits by 3.8- and 1.4-fold, respectively. In an in vivo model of CRC liver metastasis, daily intraperitoneal administration of lunasin at 4 mg/kg body weight resulted in the inhibition of KM12L4 liver metastasis as shown by the reduction of the number of liver metastases from 28 (PBS-treated) to 14 (lunasin-treated, P = 0.047) and reduction in tumor burden as measured by liver weight/body weight from 0.13 (PBS-treated) to 0.10 (lunasin-treated, P = 0.039). Moreover, lunasin potentiated the anti-metastatic effect of the chemotherapeutic drug oxaliplatin given at 5 mg/kg body weight twice per week. Lunasin and oxaliplatin combination resulted in a more potent inhibition of outgrowth of KM12L4 cell metastases to the liver reducing the number of liver metastases by 6-fold and reducing the tumor burden in the liver by 3-fold when compared to PBS-treated group. This can be attributed by the capability of lunasin and oxaliplatin to reduce expression of proliferating cell nuclear antigen in liver-tumor tissue as measured by immunohistochemical staining. The results of this research for the first time demonstrated the anti-colon cancer potential of lunasin isolated from defatted soybean flour which might contribute to the chemopreventive effect of soybean in CRC as seen in different epidemiological studies. In conclusion, lunasin isolated from defatted soybean flour mediated colon carcinogenesis by inducing apoptosis and preventing outgrowth of metastasis. We suggest that the results of this research serve as a basis for further study on the chemopreventive effect of lunasin against CRC and a possible adjuvant role for lunasin in therapy of patients with metastatic CRC.
Resumo:
Purpose: Alternative splicing of the small GTPase RAC1 generates RAC1b, a hyperactivated variant that is overexpressed in a subtype of colorectal tumors. The objective of our studies is to understand the molecular regulation of this alternative splicing event and how it contributes to tumorigenesis. Experimental description: The regulation of the RAC1b splicing event in human colon cell lines was dissected using a transfected RAC1 minigene and the role of upstream regulating protein kinases through an RNA interference approach. The functional properties of the RAC1b protein were characterized by experimental modulation of Rac1b levels in colon cell lines. Results: The RAC1b protein results from an in-frame inclusion of an additional alternative exon encoding 19 amino acids that change the regulation and signaling properties of the protein. RAC1b is a hyperactive variant that exists predominantly in the GTP-bound active conformation in vivo and promotes cell cycle progression and cell survival through activation of the transcription factor NF-κB. RAC1b overexpression functionally cooperates with the oncogenic mutation in BRAF-V600E to sustain colorectal tumor cell survival. The splicing factor SRSF1 was identified to bind an exonic splice enhancer element in the alternative exon and acts as a prime regulator of Rac1b alternative splicing in colorectal cells. SRSF1 is controlled by upstream protein kinase SRPK1, the inhibition or depletion of which led to reduced SRSF1 phosphorylation and nuclear translocation with a concomitant reduction in RAC1b levels. As further SRSF1-regulating pathways we discovered kinase GSK3 and a cyclooxygenase independent effect of the non-steroidal anti-inflammatory drug ibuprofen. Conclusions: Expression of tumor-related RAC1b in colorectal cancer depends critically on SRSF1 for the observed deregulation of alternative splicing during tumorigenesis and is controlled by upstream protein kinases that can be pharmacologically targeted.
Resumo:
Introduction: Formaldehyde is a compound with a wide range and is commonly used in anatomy and pathology laboratories. At room temperature is quickly volatilized to a pungent and suffocating gas and its inhalation has been correlated to nuclear alterations in different tissues. We aimed to investigate whether exposure to this compound was correlated with the appearance of cytotoxic and genotoxic features in the nasal epithelial cells of students enrolled in a human anatomy course. Material and Methods: This prospective study collected periodically nasal cells from mucosa of 17 volunteers from two different undergraduate programs with different workloads of practical lessons in an anatomy laboratory, 30 and 90 hours per semester. Cells were staining according to Feulgen method and nuclear morphology was analyzed to detect possible damage. Dunn's post hoc test was used in the statistical analysis. Pearson's correlation was performed for gender, age and questionnaire responses. Results: Epithelial cells showed indicators of cytotoxicity and mutagenicity. Students with a more extensive workload in anatomy laboratory displayed a more severe profile with an increase in karyorrhexis (p < 0.05) over time. The micronucleus analysis showed difference between first and second collection (p < 0.01), although it was not maintained over the time. Students with a less extensive workload display no differences in most of cytological features. Despite karyorrhexis was present in a greater number of cells, for this group no significant difference was observed between any range. The same was observed to karyolysis and micronucleus (p > 0.05). Conclusion: Individuals exposed for short periods of time to formaldehyde are subject to the toxic action of this gas. Karyorrhexis was the most frequently observed cytotoxic feature and micronucleus showed an increase between the first time point. The patterns observed between the student's groups suggest a negative effect due to exposure time.
