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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The Relevance of mTOR and Hypoxia Inducible Factor to 2-Deoxy-D-Glucose Toxicity in Lung Cancer Cell Lines Under Hypoxia

Wangpaichitr, Medhi 23 September 2008 (has links)
Hypoxic regions found in most solid tumors often contain cells which are resistant to various cancer therapies. However, hypoxia also forces cells to rely solely on the catabolism of glucose through glycolysis for ATP production and survival, thereby creating a therapeutic window that can be exploited by glycolytic inhibitors, such as 2-deoxy-D-glucose (2-DG). Previous studies in our lab demonstrated that activation of Hypoxia Inducible Factor (HIF-1) in hypoxic tumor cells confers resistance to glycolytic inhibition by 2-DG. In surveying a number of tumor types for differences in intrinsic levels of HIF-1 alpha under hypoxia, we found that pathways upstream of HIF -- i.e. AKT and mammalian target of rapamycin (mTOR) -- have significantly reduced activity in 2 human non-small lung cancer cell lines (NSCLC) as compared to 4 small cell lung cancer cell (SCLC) lines. This reduced activity of AKT and mTOR correlated with increased sensitivity to 2-DG under hypoxia. Since HIF-1 alpha translation is regulated by the mammalian target of rapamycin (mTOR), we examined the effects of blocking mTOR with an analog of rapamycin (CCI-779) in SCLC cells which express high levels of mTOR activity. Under hypoxia, treatment with CCI-779 resulted in HIF-1 alpha down-regulation. Furthermore, CCI-779 potentiated the cytotoxic effects of 2-DG in hypoxic SCLC cells. Conversely, CCI-779 did not increase 2-DG toxicity in NSCLC lines that do not express HIF, SCLC lines treated with siRNA against HIF-1 alpha, or HIF-deficient mutants. These latter results support the hypothesis that, although mTOR modulates numerous downstream pathways, mTOR inhibition by CCI-779 increases the toxicity of 2-DG in hypoxic cells through down-regulation of HIF-1 alpha. Overall, our findings show that CCI-779 hyper-sensitizes HIF-expressing hypoxic tumor cells to 2-DG. Additionally, our results suggest that the intrinsic expression of AKT, mTOR, and HIF in many tumor types may be important predictors of clinical responsiveness to 2-DG and could be used to guide future treatment decisions on whether to use 2-DG alone or in combination with an mTOR inhibitor.
2

Enhanced Glycolytic Metabolism Contributes to Cardiac Dysfunction in Polymicrobial Sepsis

Zheng, Zhibo, Ma, He, Zhang, Xia, Tu, Fei, Wang, Xiaohui, Ha, Tuanzhu, Fan, Min, Liu, Li, Xu, Jingjing, Yu, Kaijiang, Wang, Ruitao, Kalbfleisch, John, Kao, Race, Williams, David, Li, Chuanfu 01 May 2017 (has links)
Background. Cardiac dysfunction is present in >40% of sepsis patients and is associated with mortality rates of up to 70%. Recent evidence suggests that glycolytic metabolism plays a critical role in host defense and inflammation. Activation of Toll-like receptors on immune cells can enhance glycolytic metabolism. This study investigated whether modulation of glycolysis by inhibition of hexokinase will be beneficial to septic cardiomyopathy. Methods. Male C57B6/J mice were treated with a hexokinase inhibitor (2-deoxy-d-glucose [2-DG], 0.25-2 g/kg, n = 6-8) before cecal ligation and puncture (CLP) induced sepsis. Untreated septic mice served as control. Sham surgically operated mice treated with or without the 2-DG inhibitor served as sham controls. Cardiac function was assessed 6 hours after CLP sepsis by echocardiography. Serum was harvested for measurement of inflammatory cytokines and lactate. Results. Sepsis-induced cardiac dysfunction was significantly attenuated by administration of 2-DG. Ejection fraction and fractional shortening in 2-DG-treated septic mice were significantly (P < .05) greater than in untreated CLP mice. 2-DG administration also significantly improved survival outcome, reduced kidney and liver injury, attenuated sepsis-increased serum levels of tumor necrosis factor α and interleukin 1β as well as lactate, and enhanced the expression of Sirt1 and Sirt3 in the myocardium, which play an important role in mitochondrial function and metabolism. In addition, 2-DG administration suppresses sepsis-increased expression of apoptotic inducers Bak and Bax as well as JNK phosphorylation in the myocardium. Conclusions. Glycolytic metabolism plays an important role in mediating sepsis-induced septic cardiomyopathy. The mechanisms may involve regulation of inflammatory response and apoptotic signaling.
3

Bcl-2 family members regulate the sensitivity to 2-deoxy-D-glucose in lymphomas

Zagorodna, Oksana 01 December 2011 (has links)
Bcl-2 family members are important regulators of apoptosis, and their tampered expression is often involved in oncogenesis. Of particular importance are the levels of Bcl-2 family members in forming lymphomas. We studied two groups of murine thymic T cell lymphomas derived from either Bcl-2 or Bax overexpression in order to predict their sensitivity and resistance to treatments. While the growth rate and histological characteristics were similar for both lymphoma groups, Bax-derived lymphomas failed to undergo cell cycle arrest following radiation treatment and had frequent p53 mutations. In contrast, Bcl-2-derived lymphomas often halted proliferation following radiation delivery and rarely had p53 mutations. Bax-derived lymphomas were uniformly sensitive to treatment with 2-deoxy-D-glucose (2DG) while all Bcl-2-derived lymphomas were resistant. This led us to hypothesize that the Bcl-2 family is involved in 2DG-induced cell death. Focusing on the mechanism of 2DG toxicity in Bax-derived lymphomas, our studies demonstrate the following: cell death involved the activation of proapoptotic Bax, was effectively blocked by anti-apoptotic Bcl-2, and was mediated, at least in part, by the BH3-only family member Bim. Based on these results, we explored whether a BH3 mimetic (ABT-737) could sensitize lymphomas to 2DG killing. Indeed, a combination of ABT-737 with 2DG enhanced killing in Bax-derived lymphomas and resensitized Bcl-2-overexpressing lymphomas to 2DG. Since both 2DG and BH3 mimetics are currently in clinical trials, understanding their killing mechanisms and optimal combinations are of potential clinical significance. The work in this dissertation demonstrates a novel role of Bcl-2 family member proteins in regulating 2DG toxicity and may predict response to 2DG treatment. The information found presents a new strategy of combining 2DG with BH3 mimetics to improve existing lymphoma therapies.
4

Regional Lung Kinetics of Ventilator-Induced Lung Injury and Protective-Ventilation Strategies Studied by Dynamic Positron Emission Tomography

Borges, João Batista January 2014 (has links)
Mechanical ventilation in itself can harm the lung and cause ventilator-induced lung injury (VILI), which can induce or aggravate acute respiratory distress syndrome (ARDS). Much debate remains over pivotal concepts regarding the pathophysiology of VILI, especially about the precise contribution, kinetics, and primary role of potential VILI mechanisms. Consequently, it remains largely unknown how best to design a well-timed and full-bodied mechanical ventilation strategy. Little is known also about small airways dysfunction in ARDS. Dynamic positron emission tomography (PET) with [18F]fluoro-2-deoxy-D-glucose (18F-FDG) can be used to image cellular metabolism, which during lung inflammation mainly reflects neutrophil activity, allowing the study of regional lung inflammation in vivo. We studied the regional evolution of inflammation using dynamic PET/CT imaging of 18F-FDG in VILI and during different lung-protective mechanical ventilation strategies. By dynamic CT we investigated also the location and magnitude of peripheral airway closure and alveolar collapse under high and low distending pressures and high and low inspiratory oxygen fraction. Piglets were submitted to an experimental model of early ARDS combining repeated lung lavages and injurious mechanical ventilation. The animals were subsequently studied during sustained VILI, or submitted to distinct approaches of lung-protective mechanical ventilation: the one recommended by the ARDS Network (ARDSNet), or to one defined as open lung approach (OLA). The normally and poorly aerated regions - corresponding to intermediate gravitational zones - were the primary targets of the inflammatory process accompanying early VILI, which may be attributed to the small volume of the aerated lung that receives most of ventilation. The ARDSNet strategy did not attenuate global pulmonary inflammation during 27h and led to a concentration of inflammatory activity in the upper and poorly aerated lung regions. The OLA, in comparison with the ARDSNet approach, resulted in sustained and better gas exchange and lung mechanics. Moreover, the OLA strategy resulted in less global and regional inflammation. Dynamic CT data suggested that a significant amount of airway closure and related reabsorption atelectasis occurs in acute lung injury. Whether potential distal bronchioles injury (“bronchiolotrauma”) is a critical and decisive element in ventilator-associated lung injury is a matter for future studies.
5

Interferon Signaling-Dependent Contribution of Glycolysis to Rubella Virus Infection

Schilling, Erik, Wald, Maria Elisabeth, Schulz, Juliane, Werner, Lina Emilia, Claus, Claudia 31 August 2023 (has links)
Interferons (IFNs) are an essential part of innate immunity and contribute to adaptive immune responses. Here, we employed a loss-of-function analysis with human A549 respiratory epithelial cells with a knockout (KO) of the type I IFN receptor (IFNAR KO), either solely or together with the receptor of type III IFN (IFNAR/IFNLR1 KO). The course of rubella virus (RuV) infection on the IFNAR KO A549 cells was comparable to the control A549. However, on the IFNAR/IFNLR1 KO A549 cells, both genome replication and the synthesis of viral proteins were significantly enhanced. The generation of IFN β during RuV infection was influenced by type III IFN signaling. In contrast to IFNAR KO A549, extracellular IFN β was not detected on IFNAR/IFNLR1 KO A549. The bioenergetic profile of RuV-infected IFNAR/IFNLR1 KO A549 cells generated by extracellular flux analysis revealed a significant increase in glycolysis, whereas mitochondrial respiration was comparable between all three cell types. Moreover, the application of the glucose analogue 2-deoxy-D-glucose (2-DG) significantly increased viral protein synthesis in control A549 cells, while no effect was noted on IFNAR/IFNLR KO A549. In conclusion, we identified a positive signaling circuit of type III IFN signaling on the generation of IFN β during RuV infection and an IFN signaling-dependent contribution of glycolysis to RuV infection. This study on epithelial A549 cells emphasizes the interaction between glycolysis and antiviral IFN signaling and notably, the antiviral activity of type III IFNs against RuV infection, especially in the absence of both type I and III IFN signaling, the RuV replication cycle was enhanced.
6

The Interferon Response Dampens the Usutu Virus Infection-Associated Increase in Glycolysis

Wald, Maria Elisabeth, Sieg, Michael, Schilling, Erik, Binder, Marco, Vahlenkamp, Thomas Wilhelm, Claus, Claudia 03 April 2023 (has links)
The mosquito-borne Usutu virus (USUV) is a zoonotic flavivirus and an emerging pathogen. So far therapeutical options or vaccines are not available in human and veterinary medicine. The bioenergetic profile based on extracellular flux analysis revealed an USUV infection-associated significant increase in basal and stressed glycolysis on Vero and with a tendency for basal glycolysis on the avian cell line TME-R derived from Eurasian blackbirds. On both cell lines this was accompanied by a significant drop in the metabolic potential of glycolysis. Moreover, glycolysis contributed to production of virus progeny, as inhibition of glycolysis with 2-deoxy-D-glucose reduced virus yield on Vero by one log10 step. Additionally, the increase in glycolysis observed on Vero cells after USUV infection was lost after the addition of exogenous type I interferon (IFN) b. To further explore the contribution of the IFN response pathway to the impact of USUV on cellular metabolism, USUV infection was characterized on human A549 respiratory cells with a knockout of the type I IFN receptor, either solely or together with the receptor of type III IFN. Notably, only the double knockout of types I and III IFN receptor increased permissiveness to USUV and supported viral replication together with an alteration of the glycolytic activity, namely an increase in basal glycolysis to an extent that a further increase after injection of metabolic stressors during extracellular flux analysis was not noted. This study provides evidence for glycolysis as a possible target for therapeutic intervention of USUV replication. Moreover, presented data highlight type I and type III IFN system as a determinant for human host cell permissiveness and for the infection-associated impact on glycolysis.
7

Efeito da secção do nervo isquiático sobre parâmetros ultraestrutural, histoquímico, imunoistoquímico e de captação de análogos da glicose em gânglio da raiz dorsal de rãs Lithobates catesbianus

Rigon, Fabiana January 2013 (has links)
As rãs são utilizadas como modelos experimentais em diferentes situações experimentais. Uma delas é o estudo dos efeitos da seção do nervo isquiático (SNI) sobre o tecido nervoso. Essa ampla utilização desses animais como modelos experimentais justifica a realização de estudos que visam o conhecimento morfofuncional de seus tecidos. Inúmeros estudos mostram que, assim como nos mamíferos, o principal substrato energético no tecido nervoso de rãs é a glicose. Porém, é desconhecida a distribuição dos transportadores de glicose no tecido nervoso de rãs, bem como se a SNI altera esse transporte. Outra questão em aberto é se o lactato, cuja concentração está aumentada no plasma de rãs durante períodos de hibernação e após atividades motoras, é usado como substrato energético pelo tecido nervoso, o que está demonstrado em outras espécies de vertebrados. É desconhecida ainda no gânglio da raiz dorsal (GRD) de rãs a distribuição e os efeitos da SNT sobre a reação à nicotinamida adenina dinucleotídeo fosfato diaforase (NADPH-diaforase), enzima considerada equivalente a óxido nítrico sintase, responsável pela síntese de óxido nítrico, e a reação ao ácido periódico-reativo de Schiff (PAS), que indica a presença de mucopolissarídeos, incluindo o glicogênio, uma importante reserva energética no tecido nervoso de rãs. Desconhece-se também a distribuição e os efeitos da SNT sobre a imunorreatividade à serotonina, importante molécula com função neurotransmissora e/ou moduladora no sistema nervoso, tirosina hidroxilase, enzima limitante na síntese de catecolaminas, moléculas com diversos papéis fisiológicos, incluindo ação neurotransmissora e/ou neuromoduladora no tecido nervoso, e c-Fos, proteína considerada marcadora de ativação neural por estimulação nociva. Outras questões ainda em aberto são os efeitos da SNT sobre: a captação do análogo da glicose 1-14C 2-deoxi-D-glicose (14C-2-DG) e concentração plasmática de glicose e lactato; se os tipos II e III de células gliais satélites (CGSs), recentemente descritas no GRD de coelho, estão presentes nesse gânglio de rãs; e os efeitos da SNT sobre a ultraestrutura de CGSs e neurônios do GRD. Assim, o objetivo dessa tese foi determinar: 1) a ultraestrutura de neurônios e CGSs; 2) a distribuição das reações à NADPH-diaforase e PAS, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose tipo 1 e 3; e 3) a captação de 14C-2-DG, na presença e ausência de lactato, em GRD de rãs Lithobates catesbianus com e sem SNI. A escolha pelos transportadores de glicose tipos 1 e 3 foi pelo fato de ocorrerem na membrana de endotélio, células gliais e de neurônios. Para a realização do estudo inicialmente 12 rãs Lithobates catesbianus, adultas, machos, com peso de 100-200g, que não sofreram qualquer manipulação cirúrgica foram mortas por decapitação e os gânglios das raízes dorsais (GRDs) do nervo isquiático retirados e preparados para análises ultraestrutural, histoquímica à NADPH-diaforase e PAS, e imunoistoquímica à serotonina, tirosina hidroxilase e transportadores de glicose dos tipos 1 e 3. Feito isso, 18 outras rãs, nas mesmas condições físicas, foram divididas em três grupos experimentais (n=6/grupo): controle (rãs que não sofreram qualquer manipulação cirúrgica), sham (rãs onde foram efetuados apenas os procedimentos para isolamento do nervo isquiático) e SNI (rãs que tiveram o nervo isquiático direito totalmente seccionado em seu tronco comum). Esses animais foram mortos três dias após a intervenção cirúrgica e seus GRDs do nervo isquiático usados para demonstrar os efeitos da secção nervosa sobre a ultraestrutura, a reação à NADPH-diaforase, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose dos tipos 1 e 3 no GRD. Outros 20 animais, divididos nos mesmos grupos experimentais, foram usados para demonstrar os efeitos da SNI sobre a captação de 14C-2-DG, na presença ou ausência de lactato, e a taxa de produção de 14CO2 a partir de 14C-L-lactato e de 14C-glicose no GRD. Essas rãs foram usadas ainda para demonstrar os efeitos da denervação periférica sobre a concentração plasmática de glicose e lactato. Nossos resultados mostraram que os neurônios sensoriais do GRD de rã Lithobates catesbianus tiveram distribuição, diâmetro e morfologia que foi similar àquela descrita para essas células em gânglio de mamíferos. As CGSs apresentaram morfologia similar àquela descrita para essas células em gânglios de outras espécies de vertebrados. As células dos tipos II e III, observadas no GRD de coelho, não ocorreram no GRD de Lithobates catesbianus. O padrão de atividade à NADPH-diaforase e a distribuição da imunorreatividade à serotonina, tirosina hidroxilase e Glut 1 e 3 foram também similares ao descrito em mamíferos. Pela primeira vez foi demonstrada, em anfíbios, a presença de reação à NADPH-diaforase em CGCs do GRD. A captação de 14C-2-DG foi reduzida quando o lactato foi acrescentado ao meio de incubação. As alterações induzidas pela SNI foram também similares àquelas descritas nos mamíferos. Houve acréscimo no número de mitocôndrias, retículo endoplasmático, ribossomas e filamentos no citoplasma das CGSs, mais neurônios e CGCs com reação positiva à NADPH-diaforase, um maior número de prolongamentos imunorreativos à tirosina hidroxilase em torno de somas de neurônios sensoriais, e mais núcleos neuronais imunorreativos a c-Fos. Nenhuma alteração ocorreu na imunorreatividade a serotonina e transportadores de glicose. Houve aumento na captação de 14C-2-DG, que foi reduzido quando o lactato foi acrescentado ao meio de incubação. Porém, a formação de 14CO2 a partir de 14C-L-lactato e de 14C-glicose não alterou nessas condições. Todavia, diferentemente dos mamíferos, a SNI não provocou mudança no número de CGCs no GRD, mostrando uma peculiaridade na resposta das rãs à SNI. Assim, nosso estudo reforça o uso de rãs como modelo experimental para estudo dos efeitos da SNI, um modelo de dor fantasma, sobre o tecido nervoso. Porém, dada a diferença peculiar ocorrida no GRD de rãs com SNI, é evidente a necessidade de mais conhecimento dos efeitos dessa situação experimental nesses animais. / Frogs have been used as experimental models in different experimental situations. One of these is the study of the effects of the sciatic nerve transection (SNT) on the nerve tissue. The wide use of these animals as experimental models justifies the studies aimed at morphofunctionally understanding of their tissues. Numerous studies have shown that glucose is the main energy substrate in the nerve tissue of frogs as well as in mammals. However, the distribution of glucose transporters in the nerve tissue of frogs is unknown as well as whether SNT alters such transportation. Another unanswered question is whether the lactate, whose concentration is increased in the frog plasma during hibernation periods and after motor activities, is used as an energy substrate by the nerve tissue, which has been demonstrated in other vertebrate species. In the dorsal root ganglion (DRG) cells of frogs are still unknown the distribution and effects of SNT on the reaction of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-diaphorase), an enzyme that is considered equivalent to nitric oxide synthase, responsible for the synthesis of nitric oxide, and on the reaction of periodic acid-Schiff (PAS), which indicates the presence of mucopolysaccharides, including glycogen, an important energy reserve in frog nerve tissue. Moreover, the distribution and effects of SNT on immunoreactivity to serotonin, an important molecule that functions as a neurotransmitter and / or neuromodulator in the nervous system, tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis, molecules with various physiological roles, including neurotransmitter and / or neuromodulator action in the nerve tissue, and c-Fos, a protein that is regarded as a marker of neuronal activation by noxious stimulation are also unknown. Other questions regarding is the effect of SNT on the uptake of glucose analogue 2-Deoxy-D-glucose-1-14C (14C-2-DG) and glucose and lactate concentration plasma; whether the types II and III of satellite glial cells (SGCs), recently described in rabbit DRG, are present in this ganglion of frogs; and the effects of SNT on the ultrastructure of SGCs and DRG neurons remain unanswered as well. Thus, this thesis aimed to determine: 1) the ultrastructure of neurons and SGCs; 2) the distribution of NADPH-diaphorase and PAS reaction, and immunohistochemistry for serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3; and 3) the uptake of 2-DG-14C, in the presence and absence of lactate, in DRG of frogs, Lithobates catesbianus, with and without SNT. Glucose transporters types 1 and 3 were chosen because they occur in the membrane of endothelial cells, glial cells and neurons. Initially, 12 adult male frogs, Lithobates catesbianus, weighing 100-200g, not having undergone any previous surgical manipulation, were killed by decapitation. The DRGs of the sciatic nerve were removed and prepared for ultrastructural analysis, histochemistry of NADPH-diaphorase and PAS, and immunohistochemistry for serotonin, tyrosine hydroxylase and glucose transporters types 1 and 3. After that, 18 other frogs in the same physical conditions were divided into three experimental groups (n = 6/group): control group (frogs not subjected to any surgical manipulation), sham (frogs in which only surgical procedures for isolating the sciatic nerve were performed), and SNT (frogs in which the right sciatic nerve was completely transected). These animals were killed three days after the procedure, and their sciatic nerve DRGs used to demonstrate the effects of nerve transection on the ultrastructure, NADPH-diaphorase reaction, and immunohistochemical serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3 in the DRG. Other 20 animals, divided into the same experimental groups, were used to demonstrate the effects of SNI on the uptake of 14C-2-DG in the presence or absence of lactate, the production rate of 14CO2 from 14C-L-lactate and 14C-glucose in the DRG. These frogs were used to further demonstrate the effects of peripheral denervation on plasma glucose and lactate levels. Our results have demonstrated that sensory neurons of bullfrog, Lithobates catesbianus, DRG showed distribution, diameter and morphology similar to those described for these ganglion cells in mammals. The CGSs showed morphology similar to that described for these cells in the lymph nodes of other vertebrate species. Cells types II and III, observed in rabbit DRG did not occur in the Lithobates catesbianus DRG. The pattern of NADPH-diaphorase activity and distribution of immunoreactivity of serotonin, tyrosine hydroxylase and Glut 1 and 3 were also similar to those described in mammals. For the first time, it has been demonstrated the presence of NADPH-diaphorase reaction on SGCs of DRG in amphibians. The uptake of 14C-2-DG was reduced when lactate was added to the incubation medium. SNT-induced changes were also similar to those ones described in mammals. There was an increase in the number of mitochondria, endoplasmic reticulum, ribosomes and filaments in the SGCs cytoplasm; more neurons and SGCs with positive reaction to NADPH-diaphorase; a greater number of tyrosine hydroxylase immunoreactive extensions around body sensory neurons; and more c-Fos immunoreactivity in neuronal nuclei. No changes occurred in serotonin immunoreactivity and glucose transporters. There was an increase in the uptake of 14C-2-DG, which was reduced when lactate was added to the incubation medium. However, the formation of 14C-2-DG from 14C-L-lactato and glucose did not change under these conditions. Unlike mammals, SNT caused no change in the number of SGCs in DRG, showing a peculiarity in the response of frogs to SNT. Therefore, our study supports the use of frogs as an experimental model to study the effects of SNT, a model of phantom pain on the nerve tissue. However, given the peculiar differences occurred in the DRG of frogs with SNT, it is clearly necessary to carry out further studies to better understand the effects of an experimental situation like this in such animals.
8

Efeito da secção do nervo isquiático sobre parâmetros ultraestrutural, histoquímico, imunoistoquímico e de captação de análogos da glicose em gânglio da raiz dorsal de rãs Lithobates catesbianus

Rigon, Fabiana January 2013 (has links)
As rãs são utilizadas como modelos experimentais em diferentes situações experimentais. Uma delas é o estudo dos efeitos da seção do nervo isquiático (SNI) sobre o tecido nervoso. Essa ampla utilização desses animais como modelos experimentais justifica a realização de estudos que visam o conhecimento morfofuncional de seus tecidos. Inúmeros estudos mostram que, assim como nos mamíferos, o principal substrato energético no tecido nervoso de rãs é a glicose. Porém, é desconhecida a distribuição dos transportadores de glicose no tecido nervoso de rãs, bem como se a SNI altera esse transporte. Outra questão em aberto é se o lactato, cuja concentração está aumentada no plasma de rãs durante períodos de hibernação e após atividades motoras, é usado como substrato energético pelo tecido nervoso, o que está demonstrado em outras espécies de vertebrados. É desconhecida ainda no gânglio da raiz dorsal (GRD) de rãs a distribuição e os efeitos da SNT sobre a reação à nicotinamida adenina dinucleotídeo fosfato diaforase (NADPH-diaforase), enzima considerada equivalente a óxido nítrico sintase, responsável pela síntese de óxido nítrico, e a reação ao ácido periódico-reativo de Schiff (PAS), que indica a presença de mucopolissarídeos, incluindo o glicogênio, uma importante reserva energética no tecido nervoso de rãs. Desconhece-se também a distribuição e os efeitos da SNT sobre a imunorreatividade à serotonina, importante molécula com função neurotransmissora e/ou moduladora no sistema nervoso, tirosina hidroxilase, enzima limitante na síntese de catecolaminas, moléculas com diversos papéis fisiológicos, incluindo ação neurotransmissora e/ou neuromoduladora no tecido nervoso, e c-Fos, proteína considerada marcadora de ativação neural por estimulação nociva. Outras questões ainda em aberto são os efeitos da SNT sobre: a captação do análogo da glicose 1-14C 2-deoxi-D-glicose (14C-2-DG) e concentração plasmática de glicose e lactato; se os tipos II e III de células gliais satélites (CGSs), recentemente descritas no GRD de coelho, estão presentes nesse gânglio de rãs; e os efeitos da SNT sobre a ultraestrutura de CGSs e neurônios do GRD. Assim, o objetivo dessa tese foi determinar: 1) a ultraestrutura de neurônios e CGSs; 2) a distribuição das reações à NADPH-diaforase e PAS, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose tipo 1 e 3; e 3) a captação de 14C-2-DG, na presença e ausência de lactato, em GRD de rãs Lithobates catesbianus com e sem SNI. A escolha pelos transportadores de glicose tipos 1 e 3 foi pelo fato de ocorrerem na membrana de endotélio, células gliais e de neurônios. Para a realização do estudo inicialmente 12 rãs Lithobates catesbianus, adultas, machos, com peso de 100-200g, que não sofreram qualquer manipulação cirúrgica foram mortas por decapitação e os gânglios das raízes dorsais (GRDs) do nervo isquiático retirados e preparados para análises ultraestrutural, histoquímica à NADPH-diaforase e PAS, e imunoistoquímica à serotonina, tirosina hidroxilase e transportadores de glicose dos tipos 1 e 3. Feito isso, 18 outras rãs, nas mesmas condições físicas, foram divididas em três grupos experimentais (n=6/grupo): controle (rãs que não sofreram qualquer manipulação cirúrgica), sham (rãs onde foram efetuados apenas os procedimentos para isolamento do nervo isquiático) e SNI (rãs que tiveram o nervo isquiático direito totalmente seccionado em seu tronco comum). Esses animais foram mortos três dias após a intervenção cirúrgica e seus GRDs do nervo isquiático usados para demonstrar os efeitos da secção nervosa sobre a ultraestrutura, a reação à NADPH-diaforase, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose dos tipos 1 e 3 no GRD. Outros 20 animais, divididos nos mesmos grupos experimentais, foram usados para demonstrar os efeitos da SNI sobre a captação de 14C-2-DG, na presença ou ausência de lactato, e a taxa de produção de 14CO2 a partir de 14C-L-lactato e de 14C-glicose no GRD. Essas rãs foram usadas ainda para demonstrar os efeitos da denervação periférica sobre a concentração plasmática de glicose e lactato. Nossos resultados mostraram que os neurônios sensoriais do GRD de rã Lithobates catesbianus tiveram distribuição, diâmetro e morfologia que foi similar àquela descrita para essas células em gânglio de mamíferos. As CGSs apresentaram morfologia similar àquela descrita para essas células em gânglios de outras espécies de vertebrados. As células dos tipos II e III, observadas no GRD de coelho, não ocorreram no GRD de Lithobates catesbianus. O padrão de atividade à NADPH-diaforase e a distribuição da imunorreatividade à serotonina, tirosina hidroxilase e Glut 1 e 3 foram também similares ao descrito em mamíferos. Pela primeira vez foi demonstrada, em anfíbios, a presença de reação à NADPH-diaforase em CGCs do GRD. A captação de 14C-2-DG foi reduzida quando o lactato foi acrescentado ao meio de incubação. As alterações induzidas pela SNI foram também similares àquelas descritas nos mamíferos. Houve acréscimo no número de mitocôndrias, retículo endoplasmático, ribossomas e filamentos no citoplasma das CGSs, mais neurônios e CGCs com reação positiva à NADPH-diaforase, um maior número de prolongamentos imunorreativos à tirosina hidroxilase em torno de somas de neurônios sensoriais, e mais núcleos neuronais imunorreativos a c-Fos. Nenhuma alteração ocorreu na imunorreatividade a serotonina e transportadores de glicose. Houve aumento na captação de 14C-2-DG, que foi reduzido quando o lactato foi acrescentado ao meio de incubação. Porém, a formação de 14CO2 a partir de 14C-L-lactato e de 14C-glicose não alterou nessas condições. Todavia, diferentemente dos mamíferos, a SNI não provocou mudança no número de CGCs no GRD, mostrando uma peculiaridade na resposta das rãs à SNI. Assim, nosso estudo reforça o uso de rãs como modelo experimental para estudo dos efeitos da SNI, um modelo de dor fantasma, sobre o tecido nervoso. Porém, dada a diferença peculiar ocorrida no GRD de rãs com SNI, é evidente a necessidade de mais conhecimento dos efeitos dessa situação experimental nesses animais. / Frogs have been used as experimental models in different experimental situations. One of these is the study of the effects of the sciatic nerve transection (SNT) on the nerve tissue. The wide use of these animals as experimental models justifies the studies aimed at morphofunctionally understanding of their tissues. Numerous studies have shown that glucose is the main energy substrate in the nerve tissue of frogs as well as in mammals. However, the distribution of glucose transporters in the nerve tissue of frogs is unknown as well as whether SNT alters such transportation. Another unanswered question is whether the lactate, whose concentration is increased in the frog plasma during hibernation periods and after motor activities, is used as an energy substrate by the nerve tissue, which has been demonstrated in other vertebrate species. In the dorsal root ganglion (DRG) cells of frogs are still unknown the distribution and effects of SNT on the reaction of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-diaphorase), an enzyme that is considered equivalent to nitric oxide synthase, responsible for the synthesis of nitric oxide, and on the reaction of periodic acid-Schiff (PAS), which indicates the presence of mucopolysaccharides, including glycogen, an important energy reserve in frog nerve tissue. Moreover, the distribution and effects of SNT on immunoreactivity to serotonin, an important molecule that functions as a neurotransmitter and / or neuromodulator in the nervous system, tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis, molecules with various physiological roles, including neurotransmitter and / or neuromodulator action in the nerve tissue, and c-Fos, a protein that is regarded as a marker of neuronal activation by noxious stimulation are also unknown. Other questions regarding is the effect of SNT on the uptake of glucose analogue 2-Deoxy-D-glucose-1-14C (14C-2-DG) and glucose and lactate concentration plasma; whether the types II and III of satellite glial cells (SGCs), recently described in rabbit DRG, are present in this ganglion of frogs; and the effects of SNT on the ultrastructure of SGCs and DRG neurons remain unanswered as well. Thus, this thesis aimed to determine: 1) the ultrastructure of neurons and SGCs; 2) the distribution of NADPH-diaphorase and PAS reaction, and immunohistochemistry for serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3; and 3) the uptake of 2-DG-14C, in the presence and absence of lactate, in DRG of frogs, Lithobates catesbianus, with and without SNT. Glucose transporters types 1 and 3 were chosen because they occur in the membrane of endothelial cells, glial cells and neurons. Initially, 12 adult male frogs, Lithobates catesbianus, weighing 100-200g, not having undergone any previous surgical manipulation, were killed by decapitation. The DRGs of the sciatic nerve were removed and prepared for ultrastructural analysis, histochemistry of NADPH-diaphorase and PAS, and immunohistochemistry for serotonin, tyrosine hydroxylase and glucose transporters types 1 and 3. After that, 18 other frogs in the same physical conditions were divided into three experimental groups (n = 6/group): control group (frogs not subjected to any surgical manipulation), sham (frogs in which only surgical procedures for isolating the sciatic nerve were performed), and SNT (frogs in which the right sciatic nerve was completely transected). These animals were killed three days after the procedure, and their sciatic nerve DRGs used to demonstrate the effects of nerve transection on the ultrastructure, NADPH-diaphorase reaction, and immunohistochemical serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3 in the DRG. Other 20 animals, divided into the same experimental groups, were used to demonstrate the effects of SNI on the uptake of 14C-2-DG in the presence or absence of lactate, the production rate of 14CO2 from 14C-L-lactate and 14C-glucose in the DRG. These frogs were used to further demonstrate the effects of peripheral denervation on plasma glucose and lactate levels. Our results have demonstrated that sensory neurons of bullfrog, Lithobates catesbianus, DRG showed distribution, diameter and morphology similar to those described for these ganglion cells in mammals. The CGSs showed morphology similar to that described for these cells in the lymph nodes of other vertebrate species. Cells types II and III, observed in rabbit DRG did not occur in the Lithobates catesbianus DRG. The pattern of NADPH-diaphorase activity and distribution of immunoreactivity of serotonin, tyrosine hydroxylase and Glut 1 and 3 were also similar to those described in mammals. For the first time, it has been demonstrated the presence of NADPH-diaphorase reaction on SGCs of DRG in amphibians. The uptake of 14C-2-DG was reduced when lactate was added to the incubation medium. SNT-induced changes were also similar to those ones described in mammals. There was an increase in the number of mitochondria, endoplasmic reticulum, ribosomes and filaments in the SGCs cytoplasm; more neurons and SGCs with positive reaction to NADPH-diaphorase; a greater number of tyrosine hydroxylase immunoreactive extensions around body sensory neurons; and more c-Fos immunoreactivity in neuronal nuclei. No changes occurred in serotonin immunoreactivity and glucose transporters. There was an increase in the uptake of 14C-2-DG, which was reduced when lactate was added to the incubation medium. However, the formation of 14C-2-DG from 14C-L-lactato and glucose did not change under these conditions. Unlike mammals, SNT caused no change in the number of SGCs in DRG, showing a peculiarity in the response of frogs to SNT. Therefore, our study supports the use of frogs as an experimental model to study the effects of SNT, a model of phantom pain on the nerve tissue. However, given the peculiar differences occurred in the DRG of frogs with SNT, it is clearly necessary to carry out further studies to better understand the effects of an experimental situation like this in such animals.
9

Efeito da secção do nervo isquiático sobre parâmetros ultraestrutural, histoquímico, imunoistoquímico e de captação de análogos da glicose em gânglio da raiz dorsal de rãs Lithobates catesbianus

Rigon, Fabiana January 2013 (has links)
As rãs são utilizadas como modelos experimentais em diferentes situações experimentais. Uma delas é o estudo dos efeitos da seção do nervo isquiático (SNI) sobre o tecido nervoso. Essa ampla utilização desses animais como modelos experimentais justifica a realização de estudos que visam o conhecimento morfofuncional de seus tecidos. Inúmeros estudos mostram que, assim como nos mamíferos, o principal substrato energético no tecido nervoso de rãs é a glicose. Porém, é desconhecida a distribuição dos transportadores de glicose no tecido nervoso de rãs, bem como se a SNI altera esse transporte. Outra questão em aberto é se o lactato, cuja concentração está aumentada no plasma de rãs durante períodos de hibernação e após atividades motoras, é usado como substrato energético pelo tecido nervoso, o que está demonstrado em outras espécies de vertebrados. É desconhecida ainda no gânglio da raiz dorsal (GRD) de rãs a distribuição e os efeitos da SNT sobre a reação à nicotinamida adenina dinucleotídeo fosfato diaforase (NADPH-diaforase), enzima considerada equivalente a óxido nítrico sintase, responsável pela síntese de óxido nítrico, e a reação ao ácido periódico-reativo de Schiff (PAS), que indica a presença de mucopolissarídeos, incluindo o glicogênio, uma importante reserva energética no tecido nervoso de rãs. Desconhece-se também a distribuição e os efeitos da SNT sobre a imunorreatividade à serotonina, importante molécula com função neurotransmissora e/ou moduladora no sistema nervoso, tirosina hidroxilase, enzima limitante na síntese de catecolaminas, moléculas com diversos papéis fisiológicos, incluindo ação neurotransmissora e/ou neuromoduladora no tecido nervoso, e c-Fos, proteína considerada marcadora de ativação neural por estimulação nociva. Outras questões ainda em aberto são os efeitos da SNT sobre: a captação do análogo da glicose 1-14C 2-deoxi-D-glicose (14C-2-DG) e concentração plasmática de glicose e lactato; se os tipos II e III de células gliais satélites (CGSs), recentemente descritas no GRD de coelho, estão presentes nesse gânglio de rãs; e os efeitos da SNT sobre a ultraestrutura de CGSs e neurônios do GRD. Assim, o objetivo dessa tese foi determinar: 1) a ultraestrutura de neurônios e CGSs; 2) a distribuição das reações à NADPH-diaforase e PAS, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose tipo 1 e 3; e 3) a captação de 14C-2-DG, na presença e ausência de lactato, em GRD de rãs Lithobates catesbianus com e sem SNI. A escolha pelos transportadores de glicose tipos 1 e 3 foi pelo fato de ocorrerem na membrana de endotélio, células gliais e de neurônios. Para a realização do estudo inicialmente 12 rãs Lithobates catesbianus, adultas, machos, com peso de 100-200g, que não sofreram qualquer manipulação cirúrgica foram mortas por decapitação e os gânglios das raízes dorsais (GRDs) do nervo isquiático retirados e preparados para análises ultraestrutural, histoquímica à NADPH-diaforase e PAS, e imunoistoquímica à serotonina, tirosina hidroxilase e transportadores de glicose dos tipos 1 e 3. Feito isso, 18 outras rãs, nas mesmas condições físicas, foram divididas em três grupos experimentais (n=6/grupo): controle (rãs que não sofreram qualquer manipulação cirúrgica), sham (rãs onde foram efetuados apenas os procedimentos para isolamento do nervo isquiático) e SNI (rãs que tiveram o nervo isquiático direito totalmente seccionado em seu tronco comum). Esses animais foram mortos três dias após a intervenção cirúrgica e seus GRDs do nervo isquiático usados para demonstrar os efeitos da secção nervosa sobre a ultraestrutura, a reação à NADPH-diaforase, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose dos tipos 1 e 3 no GRD. Outros 20 animais, divididos nos mesmos grupos experimentais, foram usados para demonstrar os efeitos da SNI sobre a captação de 14C-2-DG, na presença ou ausência de lactato, e a taxa de produção de 14CO2 a partir de 14C-L-lactato e de 14C-glicose no GRD. Essas rãs foram usadas ainda para demonstrar os efeitos da denervação periférica sobre a concentração plasmática de glicose e lactato. Nossos resultados mostraram que os neurônios sensoriais do GRD de rã Lithobates catesbianus tiveram distribuição, diâmetro e morfologia que foi similar àquela descrita para essas células em gânglio de mamíferos. As CGSs apresentaram morfologia similar àquela descrita para essas células em gânglios de outras espécies de vertebrados. As células dos tipos II e III, observadas no GRD de coelho, não ocorreram no GRD de Lithobates catesbianus. O padrão de atividade à NADPH-diaforase e a distribuição da imunorreatividade à serotonina, tirosina hidroxilase e Glut 1 e 3 foram também similares ao descrito em mamíferos. Pela primeira vez foi demonstrada, em anfíbios, a presença de reação à NADPH-diaforase em CGCs do GRD. A captação de 14C-2-DG foi reduzida quando o lactato foi acrescentado ao meio de incubação. As alterações induzidas pela SNI foram também similares àquelas descritas nos mamíferos. Houve acréscimo no número de mitocôndrias, retículo endoplasmático, ribossomas e filamentos no citoplasma das CGSs, mais neurônios e CGCs com reação positiva à NADPH-diaforase, um maior número de prolongamentos imunorreativos à tirosina hidroxilase em torno de somas de neurônios sensoriais, e mais núcleos neuronais imunorreativos a c-Fos. Nenhuma alteração ocorreu na imunorreatividade a serotonina e transportadores de glicose. Houve aumento na captação de 14C-2-DG, que foi reduzido quando o lactato foi acrescentado ao meio de incubação. Porém, a formação de 14CO2 a partir de 14C-L-lactato e de 14C-glicose não alterou nessas condições. Todavia, diferentemente dos mamíferos, a SNI não provocou mudança no número de CGCs no GRD, mostrando uma peculiaridade na resposta das rãs à SNI. Assim, nosso estudo reforça o uso de rãs como modelo experimental para estudo dos efeitos da SNI, um modelo de dor fantasma, sobre o tecido nervoso. Porém, dada a diferença peculiar ocorrida no GRD de rãs com SNI, é evidente a necessidade de mais conhecimento dos efeitos dessa situação experimental nesses animais. / Frogs have been used as experimental models in different experimental situations. One of these is the study of the effects of the sciatic nerve transection (SNT) on the nerve tissue. The wide use of these animals as experimental models justifies the studies aimed at morphofunctionally understanding of their tissues. Numerous studies have shown that glucose is the main energy substrate in the nerve tissue of frogs as well as in mammals. However, the distribution of glucose transporters in the nerve tissue of frogs is unknown as well as whether SNT alters such transportation. Another unanswered question is whether the lactate, whose concentration is increased in the frog plasma during hibernation periods and after motor activities, is used as an energy substrate by the nerve tissue, which has been demonstrated in other vertebrate species. In the dorsal root ganglion (DRG) cells of frogs are still unknown the distribution and effects of SNT on the reaction of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-diaphorase), an enzyme that is considered equivalent to nitric oxide synthase, responsible for the synthesis of nitric oxide, and on the reaction of periodic acid-Schiff (PAS), which indicates the presence of mucopolysaccharides, including glycogen, an important energy reserve in frog nerve tissue. Moreover, the distribution and effects of SNT on immunoreactivity to serotonin, an important molecule that functions as a neurotransmitter and / or neuromodulator in the nervous system, tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis, molecules with various physiological roles, including neurotransmitter and / or neuromodulator action in the nerve tissue, and c-Fos, a protein that is regarded as a marker of neuronal activation by noxious stimulation are also unknown. Other questions regarding is the effect of SNT on the uptake of glucose analogue 2-Deoxy-D-glucose-1-14C (14C-2-DG) and glucose and lactate concentration plasma; whether the types II and III of satellite glial cells (SGCs), recently described in rabbit DRG, are present in this ganglion of frogs; and the effects of SNT on the ultrastructure of SGCs and DRG neurons remain unanswered as well. Thus, this thesis aimed to determine: 1) the ultrastructure of neurons and SGCs; 2) the distribution of NADPH-diaphorase and PAS reaction, and immunohistochemistry for serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3; and 3) the uptake of 2-DG-14C, in the presence and absence of lactate, in DRG of frogs, Lithobates catesbianus, with and without SNT. Glucose transporters types 1 and 3 were chosen because they occur in the membrane of endothelial cells, glial cells and neurons. Initially, 12 adult male frogs, Lithobates catesbianus, weighing 100-200g, not having undergone any previous surgical manipulation, were killed by decapitation. The DRGs of the sciatic nerve were removed and prepared for ultrastructural analysis, histochemistry of NADPH-diaphorase and PAS, and immunohistochemistry for serotonin, tyrosine hydroxylase and glucose transporters types 1 and 3. After that, 18 other frogs in the same physical conditions were divided into three experimental groups (n = 6/group): control group (frogs not subjected to any surgical manipulation), sham (frogs in which only surgical procedures for isolating the sciatic nerve were performed), and SNT (frogs in which the right sciatic nerve was completely transected). These animals were killed three days after the procedure, and their sciatic nerve DRGs used to demonstrate the effects of nerve transection on the ultrastructure, NADPH-diaphorase reaction, and immunohistochemical serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3 in the DRG. Other 20 animals, divided into the same experimental groups, were used to demonstrate the effects of SNI on the uptake of 14C-2-DG in the presence or absence of lactate, the production rate of 14CO2 from 14C-L-lactate and 14C-glucose in the DRG. These frogs were used to further demonstrate the effects of peripheral denervation on plasma glucose and lactate levels. Our results have demonstrated that sensory neurons of bullfrog, Lithobates catesbianus, DRG showed distribution, diameter and morphology similar to those described for these ganglion cells in mammals. The CGSs showed morphology similar to that described for these cells in the lymph nodes of other vertebrate species. Cells types II and III, observed in rabbit DRG did not occur in the Lithobates catesbianus DRG. The pattern of NADPH-diaphorase activity and distribution of immunoreactivity of serotonin, tyrosine hydroxylase and Glut 1 and 3 were also similar to those described in mammals. For the first time, it has been demonstrated the presence of NADPH-diaphorase reaction on SGCs of DRG in amphibians. The uptake of 14C-2-DG was reduced when lactate was added to the incubation medium. SNT-induced changes were also similar to those ones described in mammals. There was an increase in the number of mitochondria, endoplasmic reticulum, ribosomes and filaments in the SGCs cytoplasm; more neurons and SGCs with positive reaction to NADPH-diaphorase; a greater number of tyrosine hydroxylase immunoreactive extensions around body sensory neurons; and more c-Fos immunoreactivity in neuronal nuclei. No changes occurred in serotonin immunoreactivity and glucose transporters. There was an increase in the uptake of 14C-2-DG, which was reduced when lactate was added to the incubation medium. However, the formation of 14C-2-DG from 14C-L-lactato and glucose did not change under these conditions. Unlike mammals, SNT caused no change in the number of SGCs in DRG, showing a peculiarity in the response of frogs to SNT. Therefore, our study supports the use of frogs as an experimental model to study the effects of SNT, a model of phantom pain on the nerve tissue. However, given the peculiar differences occurred in the DRG of frogs with SNT, it is clearly necessary to carry out further studies to better understand the effects of an experimental situation like this in such animals.
10

Multidisciplinary study of the role of calcium in plant in vitro embryogenesis

Calabuig Serna, Antonio 06 September 2023 (has links)
[ES] El calcio (Ca2+) es un catión esencial que juega un papel fundamental en todos los organismos vivos. Desde el punto de vista funcional, el Ca2+ actúa como un segundo mensajero que regula distintos procesos celulares. Trabajos anteriores indican que la señalización mediante Ca2+ podría estar implicada en las primeras etapas de la inducción de la embriogénesis in vitro de las plantas, pero el verdadero papel del Ca2+ en este proceso es aún desconocido. Por eso, el principal objetivo de la presente Tesis es el estudio del papel del Ca2+ en la embriogénesis in vitro mediante dos sistemas in vitro: la embriogénesis somática y la embriogénesis de microsporas. Para determinar la importancia de la homeostasis del Ca2+ en la inducción de la embriogénesis y las dinámicas de los niveles de Ca2+ durante la inducción y el establecimiento de embriones somáticos y derivados de microsporas, se utilizaron tratamientos químicos y se detectaron los niveles de Ca2+ mediante sondas fluorescentes y sensores cameleon codificados genéticamente, visualizados con microscopía fluorescente y confocal. Observamos que el aumento de Ca2+ es un marcador temprano en la inducción de la embriogénesis in vitro y que los niveles de Ca2+ durante la embriogénesis in vitro son dinámicos en todos los sistemas estudiados. Además, las oscilaciones en los niveles de Ca2+ podrían estar relacionadas con los procesos de diferenciación que ocurren en las células inducidas una vez une el Ca2+ a la calmodulina. Mostramos que un aumento de Ca2+ dentro de un rango definido de concentración tiene un efecto positivo, dependiendo del sistema, en la producción de embriones, siendo más sensibles aquellos sistemas basados en suspensiones de células aisladas que aquellos que usan tejidos como explantes. Finalmente, estudiamos el papel de la calosa durante la embriogénesis somática, observando que la inhibición de la deposición de calosa impide el desarrollo embrionario, lo que sugiere una relación entre la formación de una barrera de calosa y el establecimiento de la identidad embrionaria en las células somáticas. / [CAT] El calci (Ca2+) és un catió essencial que juga un paper fonamental en tots els organismes vius. Des del punt de vista funcional, el Ca2+ actua com a un segon missatger que regula diferents processos cel·lulars. Treballs anteriors indiquen que la senyalització mitjançant el Ca2+ podria estar implicada en les primeres etapes de la inducció de l'embriogènesi in vitro de les plantes, però el paper real del Ca2+ en aquest procés encara és desconegut. Per això, el principal objectiu de la present Tesi és l'estudi del paper del Ca2+ en l'embriogènesi in vitro mitjançant dos sistemes in vitro: l'embriogènesi somàtica i l'embriogènesi de micròspores. Per tal de determinar la importància de l'homeòstasi del Ca2+ en la inducció de l'embriogènesi i les dinàmiques dels nivells de Ca2+ durant la inducció i l'establiment d'embrions somàtics i derivats de micròspores, es van utilitzar tractaments químics i es van detectar els nivells de Ca2+ mitjançant sondes fluorescents i sensors de cameleon codificats genèticament, visualitzats amb microscòpia fluorescent i confocal. Vam observar que l'augment de Ca2+ és un marcador primerenc en la inducció de l'embriogènesi in vitro i que els nivells de Ca2+ durant l'embriogènesi in vitro són dinàmics en tots els sistemes estudiats. A més, les oscil·lacions en els nivells de Ca2+ podrien estar relacionades amb els processos de diferenciació que tenen lloc en les cèl·lules induïdes una vegada uneix el Ca2+ a la calmodulina. Vam mostrar que un augment de Ca2+ dins d'un rang definit de concentració té un efecte positiu, depenent del sistema, en la producció d'embrions, essent més sensibles aquells sistemes basats en suspensions de cèl·lules aïllades que aquells que usen teixits com a explants. Finalment, vam estudiar el paper de la cal·losa durant l'embriogènesi somàtica, i vam observar que la inhibició de la deposició de cal·losa impedeix el desenvolupament embrionari, la qual cosa suggereix una relació entre la formació d'una barrera de cal·losa i l'establiment de la identitat embrionària en les cèl·lules somàtiques. / [EN] Calcium (Ca2+) is an essential cation that plays fundamental roles in all living organisms. From a functional point of view, Ca2+ acts as a second messenger that regulates different cellular processes. Previous works point to the fact that Ca2+ signaling may be involved in the early stages of induction of in vitro plant embryogenesis, but the actual role of Ca2+ in this process remained unveiled. Thus, the main goal of the present Thesis is to study the role of Ca2+ in in vitro embryogenesis using two in vitro systems: somatic embryogenesis and microspore embryogenesis. Chemical treatments and detection of Ca2+ with fluorescent probes and genetically-encoded cameleon sensors imaged by fluorescence and confocal microscopy were performed to determine the importance of Ca2+ homeostasis for induction of embryogenesis and the dynamics of Ca2+ levels during the induction and establishment of somatic and microspore-derived embryos. We observed that Ca2+ increase is an early marker of induction of in vitro embryogenesis and Ca2+ levels during in vitro embryogenesis are dynamic in all the systems we studied. Moreover, Ca2+ oscillations might be related to the differentiation processes that take place in the induced cells upon binding to calmodulin. We showed that Ca2+ increase within a defined range has system-specific positive effects in embryo yield, being more sensitive those systems using isolated cell suspensions rather than those using tissues as explants. Finally, we studied the role of callose during somatic embryogenesis, and we observed that inhibiting callose deposition prevents embryo development, which suggests a relationship between the formation of a callose barrier and the establishment of embryo identity in somatic cells. / Calabuig Serna, A. (2023). Multidisciplinary study of the role of calcium in plant in vitro embryogenesis [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/196022

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