Global ETD Search

1	Implication of a novel nerve growth factor (NGF) maturation and degradation cascade in the Fischer-344 rat model of age-associated memory deficits Bossy, Tanya. January 2009 (has links) Despite the overwhelming evidence for atrophy of the NGF-dependant Basal Forebrain Cholinergic neurons during aging, there is no persuasive evidence towards a decrease in NGF and/or NGF mRNA content in the brain of aged animals. Previous experiments from our laboratory have shown that NGF is released as a precursor protein and cleaved into the mature form in the extracellular space under the influence of a complex protease cascade. These recent findings have lead us to propose that any alterations in levels and/or activity of this maturation/degradation cascade might affect NGF's biological activity and perhaps lead to cognitive impairments in a subset of aged rats. To investigate this possibility, we measured protein and mRNA levels of the protease cascade players (NGF, pro-NGF, tPA, plasminogen, plasmin, MMP-9, neuroserpin). We found significantly decreased levels of both pro-NGF protein and NGF mRNA, but no difference in the remaining elements of the protease cascade, when comparing aged impaired (Al) to the aged unimpaired (AU) animals. Our second objective was to investigate whether animals trained in the Morris Water Maze would preserve their cognitive status in two additional behavioral paradigms, the Novel Object Location (NOL, spatial memory) and Novel Object Recognition (NOR, nonspatial memory) tasks. We found that both AU and AI animals in the MWM were impaired in the NOL when compared to the young controls, with the AI animals performing significantly worse than the AU in this particular task. In the NOR tasks, AI animals performed significantly worse compared to both young and AU animals. In conclusion, further experiments are required to better understand the implication of the complex protease cascade involved in NGF's maturation and degradation as well as its effect on memory of aged animals. In addition, because the segregation of animals (aged impaired/unimpaired) is a crucial step in aging research, we now have additional behavioral paradigms (NOL/NOR) that confirm the cognitive status of these animals. Aging -- metabolism. Cognition Disorders -- metabolism. Memory Disorders -- metabolism. Nerve Growth Factors -- metabolism. Rats. Rats, Inbred F344.
2	Implication of a novel nerve growth factor (NGF) maturation and degradation cascade in the Fischer-344 rat model of age-associated memory deficits Bossy, Tanya. January 2009 (has links) No description available. Aging -- metabolism. Memory Disorders -- metabolism. Cognition Disorders -- metabolism. Rats, Inbred F344. Rats. Nerve Growth Factors -- metabolism.
3	The role of norepinephrine in learning : cerebellar motor learning in rats / Paredes, Daniel A. January 2007 (has links) Dissertation (Ph.D.)--University of South Florida, 2007. / Includes vita. Includes bibliographical references (leaves 109-141). Also available online.
4	Altered Hepatic Catabolism of Low-Density Lipoprotein Subjected to Lipid Peroxidation in Vitro Stone, William L., Heimberg, M, Scott, R L., LeClair, I., Wilcox, H. G. 01 February 1994 (has links) Recent evidence suggests that oxidatively modified forms of low-density lipoprotein (LDL) may be particularly atherogenic. In this investigation, the catabolism of human LDL modified by lipid peroxidation in vitro was studied with a recirculating rat liver perfusion system. A dual-labelling technique was used that permitted native LDL and modified LDL to be studied simultaneously in the liver perfusion system. Native human LDL was found to have a fractional catabolic rate (FCR) of 1.00 +/- 0.21%/h, in agreement with other investigators. Subjecting LDL to oxidation for 12 h in the presence of 30 microM FeEDTA did not significantly affect its FCR. LDL treated with a superoxide-generating system (xanthine oxidase, hypoxanthine, O2) in the presence of 30 microM FeEDTA did, however, show a significant increase in FCR (3.23 +/- 0.19%/h). The hepatic uptakes of native LDL and LDL oxidized with FeEDTA+O2 were similar, but both were significantly lower than the hepatic uptake of LDL treated with the superoxide-radical-generating system. The proteolysis of LDL with pancreatin did not influence either its susceptibility to oxidation or its FCR. LDL oxidation resulted in the preferential loss of alpha-tocopherol rather than gamma-tocopherol. These data indicate that the rat liver effectively catabolizes LDL oxidatively modified by treatment with the superoxide-generating system. Furthermore, our results suggest that only very low plasma levels of highly oxidized LDL could be found under conditions in vivo. The liver may therefore play a major role in protecting the arterial vasculature from highly atherogenic forms of LDL. animals humans hydrolysis lipid peroxidation lipoproteins LDL(metabolism) liver (metabolism) male rats rats inbred F344 Pediatrics
5	Avaliação do potencial papel imunomodulador de células-tronco mesenquimais derivadas de tecido adiposo, no modelo experimental de transplante renal em ratos / Evaluation of the potential immunomodulatory role of mesenchymal stem cells derived from adipose tissue in the experimental kidney transplant model in rats Pepineli, Rafael 19 January 2018 (has links) Estudos com células tronco mesenquimais (CTm) têm despertado grande interesse devido a seu promissor potencial terapêutico e representam uma alternativa para o tratamento de diversas patologias em diferentes órgãos, inclusive em transplante renal. A rejeição crônica é um dos maiores desafios no transplante tardio e se caracteriza por perda progressiva da função renal causado pela intensa fibrogênese no aloenxerto. Os tratamentos convencionais com imunossupressores, apesar de reduzirem significativamente as crises de rejeição aguda, não interferem na sobrevida do enxerto a longo prazo. A compreensão dos processos fisiopatológicos da doença depende de seu estudo em modelos experimentais, que são de grande importância pois também propiciam uma melhor compreensão dos possíveis tratamentos. O presente estudo teve como objetivo analisar a terapia com células-tronco mesenquimais derivadas de tecido adiposo (CTmTA) no modelo experimental de transplante renal em ratos, para estudar seu efeito na rejeição crônica e avaliar seu potencial efeito imunomodulador. O modelo foi estabelecido com ratos das linhagens isogênicas Fisher (doador) e Lewis (receptor) e os animais transplantados foram divididos em três grupos: ISO (transplante isogênico de Lewis para Lewis, n=6), ALO (transplante alogênico de Fisher para Lewis, n=6) e ALO+CTmTA (transplante alogênico, tratado com CTmTA, n=6). As CTmTA foram caracterizadas por aderência ao plástico, diferenciação nas linhagens adipogênica, condrogênicas e osteogênicas e por citometria de fluxo. Foram inoculadas 1 x 106 células na região subcapsular renal no dia da realização da nefrectomia unilateral direita (10 dias pós-transplante). Após 6 meses foram realizadas análises dos parâmetros clínicos e laboratoriais, além de análise histológica, imunohistoquímica e PCR em tempo real. As CTmTA foram eficientes em prevenir significativamente a elevação da ureia e da creatinina séricas, manter clearence de creatinina em níveis normais, e prevenir a elevação da fração de excreção de Na+ e K+. Além disso, impediram o desenvolvimento de proteinúria e da hipertensão arterial. A análise histológica mostrou uma redução significativa do infiltrado inflamatório de macrófagos e linfócitos T, além de uma diminuição da fibrose intersticial no grupo ALO+CTmTA. O tratamento com CTmTA reduziu significativamente a expressão relativa dos fatores e citocinas pró-inflamatórios tais como INF-y, TNF-alfa, IL1beta e IL-6, além de aumento importante na expressão de IL-4 e IL-10, conhecidas por seu potencial antiinflamatório. Em conclusão, o tratamento com ADMSC em um modelo experimental de transplante renal pode trazer uma nova abordagem terapêutica para controle da rejeição crônica do enxerto. A aparente modulação da resposta imune observada neste trabalho, pode estar associada a uma possível polarização de macrófagos e células T. Outros estudos pré-clínicos e clínicos são necessários para confirmar nossos resultados / Studies involving mesenchymal stem cells (MSCs) have aroused great interest due to their promising therapeutic potential representing an alternative for the treatment of several pathologies in different organs, including renal transplantation. Chronic rejection is one of the major challenges in late transplantation and is characterized by progressive loss of renal function caused by intense fibrogenesis in the allograft. Conventional immunosuppressive treatments, while significantly reducing acute rejection crises, do not interfere with long-term graft survival. Animal model of kidney transplantation can provide a better understanding of the pathophysiological processes and bring a new path to treat chronic rejection. The aim of this project was to analyze the therapy with mesenchymal stem cells derived from adipose tissue (ADMSCs) in the experimental model of kidney transplantation in rats, focus on chronic rejection and evaluate its potential immunomodulatory effect. The model was established with rats of isogenic strains Fisher (donor) and Lewis (recipient), and the transplanted animals were divided into three groups: ISO (isogenic transplantation from Lewis to Lewis, n = 6), ALO (allogenic transplant from Fisher to Lewis, n = 6) and ALO + ADMSCs (allogenic transplantation, treated with ADMSCs, n = 6). ADMSCs were characterized by adhesion to plastic, differentiation in adipogenic, condrogenic and osteogenic lines and by flow cytometry. One million of cells were inoculated under the renal capsule on the day of the right unilateral nephrectomy (10 days after transplantation). After 6 months, clinical and laboratory parameters were analyzed, as well as histological analysis, immunohistochemistry and real-time PCR. ADMSCs were effective in preventing elevation of serum urea and creatinine, elevation of the Na + and K + excretion fraction as well as maintained creatinine clearence at normal levels. Furthermore, the treatment also prevented the development of proteinuria and preserved blood pressure. Histological analysis showed a significant reduction of macrophages and T cells infiltrate, associated to a decreased of interstitial fibrosis in the ALO + ADMSCs group. In the presence of ADMSCs, there was a significant decrease in the relative expression of INF-y, TNF-alpha, IL1beta and IL-6 factors and pro-inflammatory cytokines, as well as a significant increase in the relative expression of anti-inflammatory cytokines as IL-4 and IL-10. In conclusion, treatment with ADMSC in a transplantation model could open a new approach to control chronic rejection. This apparent modulation of the immune response may be associated with a possible polarization of macrophages and T cells. Further pre-clinical and clinical studies are needed to confirm our findings Adipose tissue Células-tronco Fibrose Graft rejection, Fibrosis Imunologia de transplantes Kidney transplantation Ratos endogâmicos F344 Ratos endogâmicos Lew Rats inbred F344 Rats inbred Lew Rejeição de enxerto Stem cells Tecido adiposo Transplantation immunology Transplante de rim
6	The role of norepinephrine in learning : cerebellar motor learning in rats Paredes, Daniel A. January 2007 (has links) Dissertation (Ph.D.)--University of South Florida, 2007. / Title from PDF of title page. Document formatted into pages; contains 144 pages. Includes vita. Includes bibliographical references.
7	Avaliação do potencial papel imunomodulador de células-tronco mesenquimais derivadas de tecido adiposo, no modelo experimental de transplante renal em ratos / Evaluation of the potential immunomodulatory role of mesenchymal stem cells derived from adipose tissue in the experimental kidney transplant model in rats Rafael Pepineli 19 January 2018 (has links) Estudos com células tronco mesenquimais (CTm) têm despertado grande interesse devido a seu promissor potencial terapêutico e representam uma alternativa para o tratamento de diversas patologias em diferentes órgãos, inclusive em transplante renal. A rejeição crônica é um dos maiores desafios no transplante tardio e se caracteriza por perda progressiva da função renal causado pela intensa fibrogênese no aloenxerto. Os tratamentos convencionais com imunossupressores, apesar de reduzirem significativamente as crises de rejeição aguda, não interferem na sobrevida do enxerto a longo prazo. A compreensão dos processos fisiopatológicos da doença depende de seu estudo em modelos experimentais, que são de grande importância pois também propiciam uma melhor compreensão dos possíveis tratamentos. O presente estudo teve como objetivo analisar a terapia com células-tronco mesenquimais derivadas de tecido adiposo (CTmTA) no modelo experimental de transplante renal em ratos, para estudar seu efeito na rejeição crônica e avaliar seu potencial efeito imunomodulador. O modelo foi estabelecido com ratos das linhagens isogênicas Fisher (doador) e Lewis (receptor) e os animais transplantados foram divididos em três grupos: ISO (transplante isogênico de Lewis para Lewis, n=6), ALO (transplante alogênico de Fisher para Lewis, n=6) e ALO+CTmTA (transplante alogênico, tratado com CTmTA, n=6). As CTmTA foram caracterizadas por aderência ao plástico, diferenciação nas linhagens adipogênica, condrogênicas e osteogênicas e por citometria de fluxo. Foram inoculadas 1 x 106 células na região subcapsular renal no dia da realização da nefrectomia unilateral direita (10 dias pós-transplante). Após 6 meses foram realizadas análises dos parâmetros clínicos e laboratoriais, além de análise histológica, imunohistoquímica e PCR em tempo real. As CTmTA foram eficientes em prevenir significativamente a elevação da ureia e da creatinina séricas, manter clearence de creatinina em níveis normais, e prevenir a elevação da fração de excreção de Na+ e K+. Além disso, impediram o desenvolvimento de proteinúria e da hipertensão arterial. A análise histológica mostrou uma redução significativa do infiltrado inflamatório de macrófagos e linfócitos T, além de uma diminuição da fibrose intersticial no grupo ALO+CTmTA. O tratamento com CTmTA reduziu significativamente a expressão relativa dos fatores e citocinas pró-inflamatórios tais como INF-y, TNF-alfa, IL1beta e IL-6, além de aumento importante na expressão de IL-4 e IL-10, conhecidas por seu potencial antiinflamatório. Em conclusão, o tratamento com ADMSC em um modelo experimental de transplante renal pode trazer uma nova abordagem terapêutica para controle da rejeição crônica do enxerto. A aparente modulação da resposta imune observada neste trabalho, pode estar associada a uma possível polarização de macrófagos e células T. Outros estudos pré-clínicos e clínicos são necessários para confirmar nossos resultados / Studies involving mesenchymal stem cells (MSCs) have aroused great interest due to their promising therapeutic potential representing an alternative for the treatment of several pathologies in different organs, including renal transplantation. Chronic rejection is one of the major challenges in late transplantation and is characterized by progressive loss of renal function caused by intense fibrogenesis in the allograft. Conventional immunosuppressive treatments, while significantly reducing acute rejection crises, do not interfere with long-term graft survival. Animal model of kidney transplantation can provide a better understanding of the pathophysiological processes and bring a new path to treat chronic rejection. The aim of this project was to analyze the therapy with mesenchymal stem cells derived from adipose tissue (ADMSCs) in the experimental model of kidney transplantation in rats, focus on chronic rejection and evaluate its potential immunomodulatory effect. The model was established with rats of isogenic strains Fisher (donor) and Lewis (recipient), and the transplanted animals were divided into three groups: ISO (isogenic transplantation from Lewis to Lewis, n = 6), ALO (allogenic transplant from Fisher to Lewis, n = 6) and ALO + ADMSCs (allogenic transplantation, treated with ADMSCs, n = 6). ADMSCs were characterized by adhesion to plastic, differentiation in adipogenic, condrogenic and osteogenic lines and by flow cytometry. One million of cells were inoculated under the renal capsule on the day of the right unilateral nephrectomy (10 days after transplantation). After 6 months, clinical and laboratory parameters were analyzed, as well as histological analysis, immunohistochemistry and real-time PCR. ADMSCs were effective in preventing elevation of serum urea and creatinine, elevation of the Na + and K + excretion fraction as well as maintained creatinine clearence at normal levels. Furthermore, the treatment also prevented the development of proteinuria and preserved blood pressure. Histological analysis showed a significant reduction of macrophages and T cells infiltrate, associated to a decreased of interstitial fibrosis in the ALO + ADMSCs group. In the presence of ADMSCs, there was a significant decrease in the relative expression of INF-y, TNF-alpha, IL1beta and IL-6 factors and pro-inflammatory cytokines, as well as a significant increase in the relative expression of anti-inflammatory cytokines as IL-4 and IL-10. In conclusion, treatment with ADMSC in a transplantation model could open a new approach to control chronic rejection. This apparent modulation of the immune response may be associated with a possible polarization of macrophages and T cells. Further pre-clinical and clinical studies are needed to confirm our findings Células-tronco Fibrose Imunologia de transplantes Ratos endogâmicos F344 Ratos endogâmicos Lew Rejeição de enxerto Tecido adiposo Transplante de rim Adipose tissue Graft rejection, Fibrosis Kidney transplantation Rats inbred F344 Rats inbred Lew Stem cells Transplantation immunology

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