NF-kB pathway controls mitochondrial dynamics

The Optic atrophy 1 protein (OPA1) is a key element in the dynamics and morphology of mitochondria. We demonstrated that the absence of I?B kinase-a, which is a key element of the nonclassical NF-?B pathway, has an impact on the mitochondrial network morphology and OPA1 expression. In contrast, the absence of NF-?B essential modulator (NEMO) or I?B kinase-ß, both of which are essential for the canonical NF-?B pathway, has no impact on mitochondrial dynamics. Whereas Parkin has been reported to positively regulate the expression of OPA1 through NEMO, herein we found that PARK2 overexpression did not modify the expression of OPA1. PARK2 expression reduced the levels of Bax, and it prevented stress-induced cell death only in Bak-deficient mouse embryonic fibroblast cells. Collectively, our results point out a role of the nonclassical NF-?B pathway in the regulation of mitochondrial dynamics and OPA1 expression.

Impact of mutated KRAS signalling on autophagy regulation in colorectal carcinoma

Programa Doutoral em Biologia Molecular e Ambiental

Systems biology approaches for the design of novel Saccharomyces cerevisiae winemaking strains for enhanced flavour compounds synthesis

Tese de Doutoramento em Biologia Ambiental e Molecular

Inactivation of PNKP by mutant ATXN3 triggers apoptosis by activating the DNA damage-response pathway in SCA3.

Spinocerebellar ataxia type 3 (SCA3), also known as Machado-Joseph disease (MJD), is an untreatable autosomal dominant neurodegenerative disease, and the most common such inherited ataxia worldwide. The mutation in SCA3 is the expansion of a polymorphic CAG tri-nucleotide repeat sequence in the C-terminal coding region of the ATXN3 gene at chromosomal locus 14q32.1. The mutant ATXN3 protein encoding expanded glutamine (polyQ) sequences interacts with multiple proteins in vivo, and is deposited as aggregates in the SCA3 brain. A large body of literature suggests that the loss of function of the native ATNX3-interacting proteins that are deposited in the polyQ aggregates contributes to cellular toxicity, systemic neurodegeneration and the pathogenic mechanism in SCA3. Nonetheless, a significant understanding of the disease etiology of SCA3, the molecular mechanism by which the polyQ expansions in the mutant ATXN3 induce neurodegeneration in SCA3 has remained elusive. In the present study, we show that the essential DNA strand break repair enzyme PNKP (polynucleotide kinase 3'-phosphatase) interacts with, and is inactivated by, the mutant ATXN3, resulting in inefficient DNA repair, persistent accumulation of DNA damage/strand breaks, and subsequent chronic activation of the DNA damage-response ataxia telangiectasia-mutated (ATM) signaling pathway in SCA3. We report that persistent accumulation of DNA damage/strand breaks and chronic activation of the serine/threonine kinase ATM and the downstream p53 and protein kinase C-d pro-apoptotic pathways trigger neuronal dysfunction and eventually neuronal death in SCA3. Either PNKP overexpression or pharmacological inhibition of ATM dramatically blocked mutant ATXN3-mediated cell death. Discovery of the mechanism by which mutant ATXN3 induces DNA damage and amplifies the pro-death signaling pathways provides a molecular basis for neurodegeneration due to PNKP inactivation in SCA3, and for the first time offers a possible approach to treatment.

The brewing yeast

The concept of brewing science is very recent when compared with the history of beer. It began with the microscopic observations of Louis Pasteur and evolved through the last century with improvements in engineering, microbiology, and instrumental analysis. However, the most profound insight into brewing processes only emerged in the past decades through the advances in molecular biology and genetic engineering. These techniques allowed scientists to not only affirm their experiences and past findings, but also to clarify a vast number of links between cellular structures and their role within the metabolic pathways in yeast. This chapter is therefore dedicated to the behavior of the brewing yeast during fermentation. The discussion puts together the recent findings in the core carbon and nitrogen metabolism of the model yeast Saccharomyces cerevisiae and their fermentation performance.

Toxicity induced by a metal mixture (Cd, Pb and Zn) in the yeast Pichia kudriavzevii: The role of oxidative stress

The present work aims to contribute for the elucidation of the role of oxidative stress in the toxicity associated with the exposure of Pichia kudriavzevii to multi-metals (Cd, Pb and Zn). Cells of the non-conventional yeast P. kudriavzevii exposed for 6 h to the action of multi-metals accumulated intracellular reactive oxygen species (ROS), evaluated through the oxidation of the probe 2,7-dichlorodihydrofluorescein diacetate. A progressive loss of membrane integrity (monitored using propidium iodide) was observed in multi-metal-treated cells. The triggering of intracellular ROS accumulation preceded the loss of membrane integrity. These results suggest that the disruption of membrane integrity can be attributed to the oxidative stress. The exposure of yeast cells to single metal showed that, under the concentrations tested, Pb was the metal responsible for the induction of the oxidative stress. Yeast cells coexposed to an antioxidant (ascorbic acid) and multi-metals did not accumulate intracellular ROS, but loss proliferation capacity. Together, the data obtained indicated that intracellular ROS accumulation contributed to metal toxicity, namely for the disruption of membrane integrity of the yeast P. kudriavzevii. It was proposed that Pb toxicity (the metal responsible for the toxic symptoms under the conditions tested) result from the combination of an ionic mechanism and the intracellular ROS accumulation.

Block of the Mitral-pulmonary Isthmus During Ablation of a Single Left-sided Accessory Pathway Causing Different Patterns of Retrograde Atrial Activation

The case of a 16-year-old patient with atrioventricular tachycardia caused by a single left anterolateral accessory pathway is reported. When the patient underwent radiofrequency ablation, a lesion on the mitral annulus lateral wall produced changes in the retrograde atrial activation pattern determined by that pathway; changes ranged from a delay in depolarization of the annulus posterior portions to full left atrium counterclockwise activation. Such phenomena were probably caused by a block in the isthmus between the annulus and the lower left pulmonary vein ostium. This case illustrates the importance of the mitral-pulmonary isthmus in the process of left atrium activation, an alert to changes induced by its unintentional block during accessory pathway ablation.

Expresión y rol del SLPI (Secretory leukocyte protease inhibitor) en la inmunidad innata del ojo asociado a procesos inflamatorios e infecciosos oculares

En la terapia antimicrobiana, se pretende comprender y desarrollar sinergia con los mecanismos de defensa innatos del huésped, en el área oftalmológica, los relacionados a procesos oculares infecciosos tanto específicos como no específicos. Conservando y estimulando la presencia de los péptidos antimicrobianos, se obtendría una prevención e inhibición de los microorganismos responsables de los principales procesos infecciosos e inflamatorios oculares, que permitirá un tratamiento rápido y eficaz en el control del proceso patológico. De esta forma se podrá evitar secuelas devastadoras de dichas complicaciones que en un gran porcentaje llevan a la ceguera del paciente asociadas al diagnóstico tardío, inespecífico o asociado a resistencia a los antibióticos actuales. Los péptidos antimicrobianos y anti-inflamatorios prometen ser un método terapéutico eficaz, natural, libre de efectos secundarios y adversos en la terapia antimicrobiana e inmuno moduladora futura. Basados en estudios publicados realizados en animales, estospéptidos con capacidad antibacteriana se expresarían en tejidos oculares normales actuando como agentes antimicrobianos de la inmunidad innata del ojo y así también como regulador de la actividad inflamatoria. Estos péptidos antimicrobianos – anti inflamatorios podrían utilizarse para la prevención y tratamiento de procesos infecciosos oculares, en formulaciones simples o combinadas a otras sustancias antibióticas antimicrobianas en forma sinérgica. Secretory leukocyte protease inhibitor (SLPI), terminología anglosajona que se utilizó para definir a una proteína de 12 kDa de peso molecular cuya única función conocida hasta hace unos años era la de ser secretada por leucocitos para inhibir proteasas de la matriz extracelular. El objetivo es estudiar la presencia del péptido antimicrobiano SLPI en relación con el remodelado cicatrizal de la matriz extracelular de la cornea y otras estructuras intra oculares, como así también su expresión en relación a procesos inflamatorios e infecciosos del ojo como agente antimicrobiano de la inmunidad innata del huésped.

Expresión y rol del slpi (secretory leukocyte protease inhibitor) en la inmunidad innata del ojo asociado a procesos inflamatorios e infecciosos oculares.

En la terapia antimicrobiana, se pretende comprender y desarrollar sinergia con los mecanismos de defensa innatos del huésped, en el área oftalmológica, los relacionados a procesos oculares infecciosos tanto específicos como no específicos. Conservando y estimulando la presencia de los péptidos antimicrobianos, se obtendría una prevención e inhibición de los microorganismos responsables de los principales procesos infecciosos e inflamatorios oculares, que permitirá un tratamiento rápido y eficaz en el control del proceso patológico.De esta forma se podrá evitar secuelas devastadoras de dichas complicaciones que en un gran porcentaje llevan a la ceguera del paciente asociadas al diagnóstico tardío, inespecífico o asociado a resistencia a los antibióticos actuales.Los péptidos antimicrobianos y anti-inflamatorios prometen ser un método terapéutico eficaz, natural, libre de efectos secundarios y adversos en la terapia antimicrobiana e inmuno moduladora futura.Basados en estudios publicados realizados en animales, estos péptidos con capacidad antibacteriana se expresarían en tejidos oculares normales actuando como agentes antimicrobianos de la inmunidad innata del ojo y así también como regulador de la actividad inflamatoria. Estos péptidos antimicrobianos – anti inflamatorios podrían utilizarse para la prevención y tratamiento de procesos infecciosos oculares, en formulaciones simples o combinadas a otras sustancias antibióticas antimicrobianas en forma sinérgica.Secretory leukocyte protease inhibitor (SLPI), terminología anglosajona que se utilizo para definir a una proteína de 12 kDa de peso molecular cuya única función conocida hasta hace unos años era la de ser secretada por leucocitos para inhibir proteasas de la matriz extracelular. El objetivo es estudiar la presencia del péptido antimicrobiano SLPI en relación con el remodelado cicatrizal de la matriz extracelular de la cornea y otras estructuras intra oculares, como así también su expresión en relación a procesos inflamatorios e infecciosos del ojo como agente antimicrobiano de la inmunidad innata del huésped

Estudio de los mecanismos moleculares involucrados en la inmunosupresión observada durante la infección con Trypanosoma cruzi: Rol de la vía PD-1/PD1-L y E3 ubiquitina ligasas. Molecular mechanismns involved in the immunosupression during Tryapanosoma cruzi infection. Role of PD1-PD1-L pathway and E3 ubiquitin ligases.

Trypanosoma cruzi es el agente causal de la enfermedad de Chagas, un problema de salud importante en América Latina, así como también en América Central, ya que causa infección crónica afectando a millones de personas [1]. Durante esta enfermedad se han descripto varias alteraciones de la respuesta inmune, entre ellas una severa inmunosupresión durante la etapa aguda de la infección, tanto en humanos como en ratones. Células T provenientes de ratones infectados activadas in vitro, muestran reducción en la respuesta proliferativa a mitógenos, característica de un estado de inmunosupresión [2-4]. La falla del sistema inmune durante estadios tempranos de la infección probablemente colabore con la diseminación y el establecimiento del parásito. Un gran número de estudios se han focalizado en la identificación de mecanismos moleculares responsables del fenómeno de inmunosupresión, entre los mecanismos citados se ha demostrado presencia de células supresoras [5-9], factores inmunosupresores presentes en el parásito [2, 3, 10-13], producción excesiva de óxido nítrico [14], disminuida producción de IL-2 y reducida expresión del receptor de IL2 en células de bazo de animales infectados [9, 15-17]. Muchos de estos mecanismos han sido exhaustivamente investigados, sin embargo no está del todo claro si existen mecanismos adicionales involucrados en la inmunosupresión de la célula T. Adicionalmente, en los últimos años nuevas moléculas que median la regulación negativa de la célula T, entre las cuales están PD-1/PD1-L [18], arginasa [19] y E3 ubiquitina ligasas [20-22], han sido reportadas durante inmunosupresión en diversas infecciones. Trypanosoma cruzi, the etiological agent of Chagas’ disease, is parasite causing chronic infections in human and other mammalian species. There is an important immunosupresion during the acute phase of the infection that contribute to the dissemination and installation of the parasite. Several studies have been focused on identifying the mechanisms involved in the immunosupresion; however it is not clear if there are additional mechanisms implicated. In addition, during the last years new molecules involved in the negative T cell regulation such as PD-1/PD1-L pathway and E3 ubiquitin ligases (E3-Ub-Lig) have been reported. It has been demonstrated, that E3-Ub-Lig control the amount and localization of intracellular signal mediators, limiting T cell activation. Moreover, these mechanisms mediate the immunosupresion observed during several infections leading to the persistence of the pathogen in the host. In this project the role of E3-Ub-Lig on the T cell immunosupresion and hipo-response mechanisms observed during T. cruzi infection will be studied. On the other hand, it has been reported that some pathogens release proteins with E3-Ub-Lig activity modifying the ubiquitination process to promote their survival and replication in the host. Recently, a protein with E3-Ub-Lig activity was identified in T. cruzi, however its target molecule has not been discovered yet. Therefore, one of the aims of this project consists on studying different potential target molecules for this novel E3-Ub-Lig. In addition, during the last years, important progress has been done about the biological rol of PD-1/PD1-L pathway on the regulation of the immune response in several infections. However, it is not well known how PD-1/PD1-L pathway transduces signals at intracelular level to block T cell response. Because of this, it is interesting to study if there is any relation between the PD-1/PD1-L pathway and E3-Ub-Lig on the mechanism of T cell immunosupression during T. cruzi infection.

Spéciation of chromium in a chromium enriched yeast.

The sample under investigation in this project is an experimental chromium enriched yeast used as a possible additive in animal foodstuff, which was produced by growing yeast in the presence of chromium (III) chloride. Chromium on its own in not biologically active but chromium in the form of chromium enriched yeast is biologically active. The objective of this project was to show the complete absence of chromium(VI) from the sample. A literature survey describing previous work carried out on the speciation of Cr(VI) has been carried out. The principal methods of detection of Cr(VI) used in this project are Polarography, G.F.A.A. Spectroscopy, U.V. Spectroscopy and H.P.L.C. For each of the above methods a calibration curve was obtained and each method was applied to the yeast extract. The H.P.L.C. and U.V. spectroscopic method are specific for Cr(VI) but polarography and G.F.A.A. spectroscopy measure total chromium. Tris-NaOH buffer has been investigated for the extraction of chromium(VT). Problems associated with air oxidation of Cr(III) in alkaline solution have identified and procedures described for the suppression of air oxidation. Procedures are described for the application of the extraction procedure to the yeast extract and for the determination of Cr(VI) in the extract. Procedures are also described for the preconcentration of Cr(VI) on a HPLC column and for the application to the yeast extract. The rate of reduction of Cr(VI) by ascorbic acid is investigated and found to be first order with respect to ascorbic acid concentration. The reduction capacity of the yeast is also investigated and it was found that in acid solution the yeast will reduce Cr(VI) but in neutral or basic solution the reduction capacity is diminished. Conclusions regarding the objectives of the project are drawn and suggestions for further work are given.

Obesity Preserves Myocardial Function During Blockade of the Glycolytic Pathway

Background: Obesity is defined by excessive accumulation of body fat relative to lean tissue. Studies during the last few years indicate that cardiac function in obese animals may be preserved, increased or diminished. Objective: Study the energy balance of the myocardium with the hypothesis that the increase in fatty acid oxidation and reduced glucose leads to cardiac dysfunction in obesity. Methods: 30-day-old male Wistar rats were fed standard and hypercaloric diet for 30 weeks. Cardiac function and morphology were assessed. In this paper was viewed the general characteristics and comorbities associated to obesity. The structure cardiac was determined by weights of the heart and left ventricle (LV). Myocardial function was evaluated by studying isolated papillary muscles from the LV, under the baseline condition and after inotropic and lusitropic maneuvers: myocardial stiffness; postrest contraction; increase in extracellular Ca2+ concentration; change in heart rate and inhibitor of glycolytic pathway. Results: Compared with control group, the obese rats had increased body fat and co-morbities associated with obesity. Functional assessment after blocking iodoacetate shows no difference in the linear regression of DT, however, the RT showed a statistically significant difference in behavior between the control and the obese group, most notable being the slope in group C. Conclusion: The energy imbalance on obesity did not cause cardiac dysfunction. On the contrary, the prioritization of fatty acids utilization provides protection to cardiac muscle during the inhibition of glycolysis, suggesting that this pathway is fewer used by obese cardiac muscle.