Preliminary study on the expression of peroxisome proliferator response element by ethyl acetate extract of algae and Echinodermata Crinoidea

Kuo, Tse-Wei

30 July 2009

PPAR (peroxisome proliferator activated receptors) is a transcription factor that regulates activity and transcription of enzymes of lipid metabolism and thought PPAR-PPRE (peroxisome proliferator activated receptors ¡V peroxisome prolierator response element) interaction. Cell toxicity was also tested by (3-(4,5-dimethylthiaz ol-2-yl)-2,5-diphenyltetrazolium bromide (MTT assay)). The effects of ethyl acetate (EA) extracts of algae and Echinodermata sp. on PPRE-luciferase activity in Huh-7 cell and cell cytotoxicity were conducted. EA extracts of Gracilaria coronopifolia can induce PPRE-luciferase activity without cytotoxity. EA extracts of Pterocladiella capillacea, Gelidium japonicum, and Euchema sp. showed PPRE-luciferase activity and cytotoxicity. Gelidium amansii and Porphyra sp. did not show PPRE-Luciferase activity but had cyotoxicity. EA extracts of Spirulina sp. had PPRE-Luciferase activity but no cytotoxicity, while that of Chlorella sorokiniana inhibited PPRE-Luciferase activity but did not show cytotoxicity. EA extracts of Echinodermata sp. can kill larva and repellent of mosquito, but had no PPRE-Luciferase activity and cytotoxicity. These results demonstrated that the effects of EA extracts on PPRE-luciferase activity are different between algae. EA extract of Gracilaria and Spirulina showed PPRE regulation activity and Echinodermata sp. EA extract have the potential to become green chemical.

PPAR

Luciferase

MTT

Desenvolvimento de estratégias alternativas para teste de fármacos: obtenção e caracterização de linhagens mutantes estáveis de Leishmania expressando luciferase. / Development of alternative strategies for drug testing: obtainment and characterization of stable mutant strains of Leishmania expressing luciferase.

Oliveira, Jordana Cristina

22 September 2014

A leishmaniose é causada por protozoários do gênero Leishmania e no Brasil, as principais espécies causadoras da leishmaniose cutânea são Leishmania (V.) braziliensis e Leishmania (L.) amazonenses. O tratamento da leishmaniose apresenta diversas dificuldades, portanto é fundamental a descoberta de novos fármacos ativos, podendo ser detectada em células cultivadas in vitro e também em animais íntegros, através da técnica de bioimageamento. Neste trabalho, propusemo-nos a produzir linhagens de L. (V.) braziliensis e L. (L) amazonenses expressoras de luciferase e caracterizar o comportamento das linhagens mutantes em testes de sensibilidade a fármacos e de infecção in vitro e in vivo. Foi confirmada a emissão de luz pelas linhagens mutantes das duas espécies de Leishmania, em promastigotas e amastigotas. O comportamento das linhagens mutantes obtidas em relação a curvas de crescimento, sensibilidade aos fármacos tamoxifeno e anfoterina B em promastigotas, perfil de infectividade e sobrevivência em macrófagos e sensibilidade de amastigotas à anfotericina B foi comparado ao comportamento das linhagens parentais, não sendo observadas diferenças significativas. Camundongos BALB/c infectados com a linhagem expressora de luciferase de L. (L.) amazonenses desenvolveram lesões comparáveis aos animais infectados com a cepa selvagem, sendo possível quantificar a carga parasitária nesses animais por bioimageamento. Os resultados obtidos neste trabalho indicam que os parasitas mutantes expressores de luciferase obtidos podem ser utilizados em testes de sensibilidade a fármacos tanto in vitro como in vivo, representando um avanço metodológico nessa área de pesquisa. / Leishmaniasis is caused by protozoan parasites in Brazil, the main causative species of cutaneous leishmaniasis are Leishmania (Viannia) braziliensis and Leishmania (Leishmania) amazonenses. The treatment of leishmaniasis presents several difficulties, and the discovery of new active drugs for the treatment of leishmaniasis is therefore fundamental. The enzyme luciferase is a reporter widely used in screening tests for new drugs. This enzyme catalyzes the oxidation of luciferase in the presence of ATP emitting light that can be detected in cultured cells in vitro as well as in intact animals, using the technique of bioimaging. In this work, we sought to produce strains of L. (V.) braziliensis and L. (L) amazonenses expressing luciferase and characterize the behavior of these mutant strains in drug susceptibility tests and in in vitro and in vivo infections. Production of light was detected in mutants of both species, in all life cycle stages. Mutant strains were compared to their corresponding parental lines as to their growth pattern, infectivity and survival profile in macrophages and sensitivity to amphotericin B and tamoxifen. No significant differences were observed for these parameters. BALB/c mice infected with the luciferase expressing line of L. (L.) amazonenses developed lesions comparable to those in animals infected with the wild-type strain. The parasite load in these animals was quantified through bioimaging. The results obtained of this study indicate that the mutant parasites expressing luciferase can be used for drug susceptibility testing in vitro and in vivo, representing a methodological advance in this area of research.

Leishmania

Leishmania

Genes repórteres

Luciferase

Luciferase

Reporter genes

Transfecção

Transfection

Estudo mecanístico da bioluminescência de fungos / Mechanistic study on fungi bioluminescence

Oliveira, Anderson Garbuglio de

11 June 2010

Esta tese descreve como é possível obter emissão de luz in vitro enzimaticamente, a partir de extratos quente e frio de diferentes espécies de fungos bioluminescentes, o que indica também um mecanismo comum de bioluminescência em todos esses organismos. Dados cinéticos sugerem um mecanismo enzimático em duas etapas e corroboram a hipótese enzimática de Airth e Foerster, da década de 1960. Finalmente, utilizando-se extratos quente e frio foi possível também isolar a luciferina fúngica e obter sua massa molecular (298,1837 m/z). Essa substância isolada emite luz enzimaticamente in vitro, sendo que a sobreposição do espectro de emissão e do espectro de bioluminescência do fungo confirma que essa substância é a luciferina fúngica. / This thesis describes how in vitro light emission can be enzymatically obtained from the hot and cold extracts assay using different species of fungi, which also indicates a common mechanism of light emission for all these organisms. Kinetic data suggest a consecutive two-step mechanism and corroborate the 1960\'s enzymatic proposal of Airth and Foerster. Finally, using hot and cold extracts assay we were also able to purify and to determine the molecular weight of the fungal luciferin (298.1837 m/z). The isolated substance emits light enzymatically in vitro, whose light emission spectrum matches with the fungal bioluminescence one thus confirming that the substance is the fungal luciferin

Bioluminescence

Bioluminescência

Fungi

Fungos

Luciferase

Luciferase

Luciferin

Luciferina

Estudo mecanístico da bioluminescência de fungos / Mechanistic study on fungi bioluminescence

Anderson Garbuglio de Oliveira

11 June 2010

Esta tese descreve como é possível obter emissão de luz in vitro enzimaticamente, a partir de extratos quente e frio de diferentes espécies de fungos bioluminescentes, o que indica também um mecanismo comum de bioluminescência em todos esses organismos. Dados cinéticos sugerem um mecanismo enzimático em duas etapas e corroboram a hipótese enzimática de Airth e Foerster, da década de 1960. Finalmente, utilizando-se extratos quente e frio foi possível também isolar a luciferina fúngica e obter sua massa molecular (298,1837 m/z). Essa substância isolada emite luz enzimaticamente in vitro, sendo que a sobreposição do espectro de emissão e do espectro de bioluminescência do fungo confirma que essa substância é a luciferina fúngica. / This thesis describes how in vitro light emission can be enzymatically obtained from the hot and cold extracts assay using different species of fungi, which also indicates a common mechanism of light emission for all these organisms. Kinetic data suggest a consecutive two-step mechanism and corroborate the 1960\'s enzymatic proposal of Airth and Foerster. Finally, using hot and cold extracts assay we were also able to purify and to determine the molecular weight of the fungal luciferin (298.1837 m/z). The isolated substance emits light enzymatically in vitro, whose light emission spectrum matches with the fungal bioluminescence one thus confirming that the substance is the fungal luciferin

Bioluminescência

Fungos

Luciferase

Luciferina

Bioluminescence

Fungi

Luciferase

Luciferin

Desenvolvimento de estratégias alternativas para teste de fármacos: obtenção e caracterização de linhagens mutantes estáveis de Leishmania expressando luciferase. / Development of alternative strategies for drug testing: obtainment and characterization of stable mutant strains of Leishmania expressing luciferase.

Jordana Cristina Oliveira

22 September 2014

A leishmaniose é causada por protozoários do gênero Leishmania e no Brasil, as principais espécies causadoras da leishmaniose cutânea são Leishmania (V.) braziliensis e Leishmania (L.) amazonenses. O tratamento da leishmaniose apresenta diversas dificuldades, portanto é fundamental a descoberta de novos fármacos ativos, podendo ser detectada em células cultivadas in vitro e também em animais íntegros, através da técnica de bioimageamento. Neste trabalho, propusemo-nos a produzir linhagens de L. (V.) braziliensis e L. (L) amazonenses expressoras de luciferase e caracterizar o comportamento das linhagens mutantes em testes de sensibilidade a fármacos e de infecção in vitro e in vivo. Foi confirmada a emissão de luz pelas linhagens mutantes das duas espécies de Leishmania, em promastigotas e amastigotas. O comportamento das linhagens mutantes obtidas em relação a curvas de crescimento, sensibilidade aos fármacos tamoxifeno e anfoterina B em promastigotas, perfil de infectividade e sobrevivência em macrófagos e sensibilidade de amastigotas à anfotericina B foi comparado ao comportamento das linhagens parentais, não sendo observadas diferenças significativas. Camundongos BALB/c infectados com a linhagem expressora de luciferase de L. (L.) amazonenses desenvolveram lesões comparáveis aos animais infectados com a cepa selvagem, sendo possível quantificar a carga parasitária nesses animais por bioimageamento. Os resultados obtidos neste trabalho indicam que os parasitas mutantes expressores de luciferase obtidos podem ser utilizados em testes de sensibilidade a fármacos tanto in vitro como in vivo, representando um avanço metodológico nessa área de pesquisa. / Leishmaniasis is caused by protozoan parasites in Brazil, the main causative species of cutaneous leishmaniasis are Leishmania (Viannia) braziliensis and Leishmania (Leishmania) amazonenses. The treatment of leishmaniasis presents several difficulties, and the discovery of new active drugs for the treatment of leishmaniasis is therefore fundamental. The enzyme luciferase is a reporter widely used in screening tests for new drugs. This enzyme catalyzes the oxidation of luciferase in the presence of ATP emitting light that can be detected in cultured cells in vitro as well as in intact animals, using the technique of bioimaging. In this work, we sought to produce strains of L. (V.) braziliensis and L. (L) amazonenses expressing luciferase and characterize the behavior of these mutant strains in drug susceptibility tests and in in vitro and in vivo infections. Production of light was detected in mutants of both species, in all life cycle stages. Mutant strains were compared to their corresponding parental lines as to their growth pattern, infectivity and survival profile in macrophages and sensitivity to amphotericin B and tamoxifen. No significant differences were observed for these parameters. BALB/c mice infected with the luciferase expressing line of L. (L.) amazonenses developed lesions comparable to those in animals infected with the wild-type strain. The parasite load in these animals was quantified through bioimaging. The results obtained of this study indicate that the mutant parasites expressing luciferase can be used for drug susceptibility testing in vitro and in vivo, representing a methodological advance in this area of research.

Leishmania

Genes repórteres

Luciferase

Transfecção

Leishmania

Luciferase

Reporter genes

Transfection

Reporter gene analysis of regulatory mechanisms in cAMP signalling

Kemp, Daniel M.

January 2000

No description available.

572

Control of cyclic AMP-mediated and ß₂ adrenergic receptor gene expression in cultured human airway smooth muscle cells

Scott, Mark George Hunter

January 1999

No description available.

572.8

Generation of a reporter for mitochondrial gene expression studies

Temperley, Richard James

January 2001

No description available.

572.8

Photodynamic therapy using Luciferase nanoconjugate as a treatment for colon cancer

Koritarov, Tamara

22 January 2016

Photodynamic Therapy (PDT) has proven itself in previous studies to be a successful therapeutic treatment for surface tumors, but its effectiveness is limited to only shallow depths that allow for the penetration of light. This study demonstrates that we have improved upon the conventional method of PDT and have overcome the previous depth limitation by creating the light at the location of the tumor in situ. We conjugated a bioluminescent protein, Luciferase, to a semiconductor nanoparticle, TiO2, and with a cell specific antibody, anti-EGFR monoclonal antibody C225. The nanoconjugate, TiDoL-C225, was then activated by ATP and Luciferin in a reaction that creates reactive oxygen species (ROS) and induces apoptosis in the tumor cells. We created the optimal nanoconjugate synthesis protocol to make TiDoL and TiDoL-C225 for use in the PDT treatment. The TiDoL-C225 nanoconjugate is able to bind specifically to colon caner cells as the C225 antibody recognizes EGFR expressed at the surface of the cells, and further, when activated it will react only with the tumor cells. The optimal cell staining protocols were developed to visualize the treatment process and later analyze with the laser confocal microscope. The TiDoL nanoconjugate was found to only be operational and effective at killing tumor cells after being activated by Luciferin and ATP, which then enhances the control we have over the therapy. The TiDoL-C225 nanoconjugate increases the efficacy of binding to tumor cells and the speed of the reaction in the cells to begin apoptosis, even in lower concentrations when compared to the free TiDoL nanoconjugate. Finally, our PDT technique allowed us to monitor the tumor cells as they begin to undergo apoptosis in less than five minutes after the Luciferin was added to activate the reaction. The advantage of our method of PDT with the TiDoL-C225 nanoconjugate is that it can be used for early detection as well as developed into an effective treatment for cancers in all depths of tissue.

Nanotechnology

Cancer

Luciferase

Nanoconjugate

Photodynamic therapy

STUDIES ON THE MECHANISM OF BACTERIAL BIOLUMINESCENCE IN VIVO AND IN VITRO

Campbell, Zachary Taylor

January 2009

Despite the importance of molecular recognition in nearly all aspects of protein function, the determinants of specificity for enzyme-substrate and protein-protein interactions are poorly understood. The majority of these complexes involving bacterial luciferase from V. harveyi have yet to be fully characterized. Luciferase catalyzes the reaction of molecular oxygen, FMNH2 and a long-chain aliphatic aldehyde yielding FMN, the corresponding carboxylic acid and blue-green light. In vivo, luciferase is thought to obtain FMNH2 following transfer from a transiently associated oxidoreductase. To identify the oxidoreductase responsible for providing FMNH2 in E. coli, bioluminescence was compared using single gene deletion strains deficient in either a homolog to the endogenous V. harveyi oxidoreductase (Frp) or an oxidoreductase distantly related to luxG from V. fischeri (Fre). Fre is responsible for reducing flavin in vivo but does not physically interact with luciferase. The association between luciferase and the flavin product is also described. Luciferase was crystallized and subjected to soaking with high concentrations of FMN. A model was obtained for luciferase bound to FMN. Using molecular dynamics, models for the enzyme:aldehyde, enzyme:FMNH2, and luciferase bound to several reaction intermediates are presented. Finally, a conserved loop region adjacent to the active center was investigated for the ability to facilitate protein:protein interaction between luciferase and the endogenous Frp oxidoreductase. Following alanine mutagenesis of the charged residues throughout this loop, it appears that the residues targeted by this study are not components of a docking platform but facilitate a lid-gating mechanism of paramount importance for catalytic function.

Bioluminescence

Fre

Frp

Luciferase

Lux

Oxidoreductase