MUSICOTERAPIA: DA PRESERVAÇÃO À RECUPERAÇÃO DA SAÚDE

A musicoterapia e a utilizacao da musica em um contexto clinico, educacional e social para prevencao e apoio a problemas de saude mental, promovendo qualidade de vida e bem estar. O emprego de sons e melodias tem o intuito de aliviar algum sintoma e tratar doenças, podendo ser empregada em adultos, crianças e idosos. Portanto, o objetivo deste projeto é proporcionar, aos internos da Santa Casa de Misericordia e do Asilo Sao Vicente de Paulo de Jacarezinho/Paraná, entretenimento, distração, socialização e melhora do bem- estar, prevenindo e aliviando sintomas relacionados as doencas, contribuindo para uma melhor qualidade de vida. São realizadas sessões de duas horas de musicoterapia com instrumento musical e canto, uma vez por semana, em cada local, além de reuniões semanais para preparação das sessões. Acredita-se que o projeto de musicoterapia tem alcançado os seus objetivos, principalmente no que tange a melhora do cognitivo e qualidade de vida dos internos e desenvolvimento de um espírito humanista nos universitários. Esse fato pode ser observado pelos depoimentos de responsáveis pelas instituições, internos e acompanhantes, além da observação da efetiva participa

Diversification of the Caenorhabditis heat shock response by Helitron transposable elements.

Heat Shock Factor 1 (HSF-1) is a key regulator of the heat shock response (HSR). Upon heat shock, HSF-1 binds well-conserved motifs, called Heat Shock Elements (HSEs), and drives expression of genes important for cellular protection during this stress. Remarkably, we found that substantial numbers of HSEs in multiple Caenorhabditis species reside within Helitrons, a type of DNA transposon. Consistent with Helitron-embedded HSEs being functional, upon heat shock they display increased HSF-1 and RNA polymerase II occupancy and up-regulation of nearby genes in C. elegans. Interestingly, we found that different genes appear to be incorporated into the HSR by species-specific Helitron insertions in C. elegans and C. briggsae and by strain-specific insertions among different wild isolates of C. elegans. Our studies uncover previously unidentified targets of HSF-1 and show that Helitron insertions are responsible for rewiring and diversifying the Caenorhabditis HSR

Metastasis of Tumor Cells Is Enhanced by Downregulation of Bit1

Resistance to anoikis, which is defined as apoptosis induced by loss of integrin-mediated cell attachment to the extracellular matrix, is a determinant of tumor progression and metastasis. We have previously identified the mitochondrial Bit1 (Bcl-2 inhibitor of transcription) protein as a novel anoikis effector whose apoptotic function is independent from caspases and is uniquely controlled by integrins. In this report, we examined the possibility that Bit1 is suppressed during tumor progression and that Bit1 downregulation may play a role in tumor metastasis.Using a human breast tumor tissue array, we found that Bit1 expression is suppressed in a significant fraction of advanced stages of breast cancer. Targeted disruption of Bit1 via shRNA technology in lowly aggressive MCF7 cells conferred enhanced anoikis resistance, adhesive and migratory potential, which correlated with an increase in active Extracellular kinase regulated (Erk) levels and a decrease in Erk-directed phosphatase activity. These pro-metastasis phenotypes were also observed following downregulation of endogenous Bit1 in Hela and B16F1 cancer cell lines. The enhanced migratory and adhesive potential of Bit1 knockdown cells is in part dependent on their high level of Erk activation since down-regulating Erk in these cells attenuated their enhanced motility and adhesive properties. The Bit1 knockdown pools also showed a statistically highly significant increase in experimental lung metastasis, with no differences in tumor growth relative to control clones in vivo using a BALB/c nude mouse model system. Importantly, the pulmonary metastases of Bit1 knockdown cells exhibited increased phospho-Erk staining.These findings indicate that downregulation of Bit1 conferred cancer cells with enhanced anoikis resistance, adhesive and migratory properties in vitro and specifically potentiated tumor metastasis in vivo. These results underscore the therapeutic importance of restoring Bit1 expression in cancer cells to circumvent metastasis at least in part through inhibition of the Erk pathway

Uncovering Transcriptional Activators and Targets of HSF-1 in Caenorhabditis elegans

In order to survive, cells must be able to cope with a variety of environmental stressors. The heat shock response (HSR) is a pro-survival mechanism employed by cells in response to protein denaturing stress, such as heat. Since its discovery in 1960, the heat shock response has been found to be regulated by the transcription factor heat shock factor 1 (HSF1). During periods of increased stress, HSF1 undergoes a multi-step process of activation that involves homotrimerization, DNA-binding, and post-translational regulatory modifications, all of which ultimately function to control the transcription of chaperone genes. These chaperone genes encode molecular chaperone proteins which function to promote survival during stress by restoring protein homeostasis to the cell. Although HSF1 is classically studied for its role in regulating the HSR, HSF1 also has roles in regulating metabolism, development, and longevity. Studies in the nematode Caenorhabditis elegans demonstrate the HSF1 homolog, HSF-1, as a global regulator of gene expression that has both stress-dependent and -independent functions. Modulating HSF1 activity therefore has implications beyond stress-induced processes, and has been suggested as a promising therapeutic target for diseases of aging and protein dysfunction. We were interested in determining regulators of the HSR using C. elegans as a model to test for effects on proteostasis and longevity. In these studies, we observed the effects of compound treatment (Chapters 1 and 2), genetic manipulation (Chapters 3 and 4), and environmental stimuli (Chapters 5 and 6), on the HSR in C. elegans. In Chapters 1 and 2, we describe our findings that treatment with the DNA synthesis inhibitor Fluorodeoxyuridine, and treatment with coffee and caffeine, enhance the heat shock response and improve proteostasis in aging worms in an HSF-1-dependent manner. In Chapters 3 and 4, we uncovered that negative regulation of the HSR by the cell cycle and apoptosis regulator CCAR2 is conserved in C. elegans, and is mediated by the CCAR2 ortholog, LST-3. We also uncovered that negative regulation of the HSR by LST-3 requires the SIRT1 homolog Sir-2.1, and knockdown of LST-3 via lst-3 RNAi works through Sir-2.1 to enhance stress-resistance, fitness, proteostasis and longevity. In Chapters 5 and 6, we describe the global impact of HSF-1 in regulating transcriptional processes during a heat stress. The profiling of global HSF-1 mRNA and miRNA targets has allowed us to uncover a heat-dependent and -independent role for HSF-1 in regulating gene expression to impact stress-resistance, proteostasis, and longevity. Altogether, these studies demonstrate the impact of compound treatment, genetic manipulation, and environmental stimuli on the heat shock response, while also uncovering global stress-dependent and -independent roles for HSF-1. This work therefore provides insight into various methods of activating the HSR by modulating HSF-1 activity, and uncovering global HSF-1 target genes, which may be useful for designing therapeutic treatment strategies for diseases of protein dysfunction

Io. Salom. Brvnnqvellii, Eo Tempore Icti Celeberrimi In Academia Ienensi, Postea Vero Magnae Britanniae Regi A Consiliis Avlicis, Ivris Canonici Prof. Et Facvlt. Ivrid. Ord. In Academia Reg. Goettingensi, Commentatio Historica Et Ivris Ecclesiastici, De Diverso Patroni Ecclesiastici Et Laici Ivre : Qva Simvl Qvaestio Per Modvm Responsi Ventilatvr: Vtrvm Imperator In Capitvlis Immediatis Avg. Confessioni Addictis Ivs Devolvtionis Exercere Possit? ; Cvm Indice Rervm Praecipvarvm

Zugl.: Jena, Univ., Jur. Diss., 1730Vorlageform des Erscheinungsvermerks: Ienae, Prostat Apvd I. B. Hellervm, 1754