An investigation into the role of compounds affecting friction, wear and lubricity

Marais, Gerhard

13 March 2013

The high frequency reciprocating rig (HFRR) is typically used to determine the lubricity of diesel fuels and has been accepted as the universal test apparatus in most countries of the world. A study was undertaken to analyse results obtained with the HFRR instrument by identifying crucial factors contributing to friction and wear mechanisms during a lubricity test under given conditions that may lead to a better understanding of test results obtained. The transient temperature distribution on a semiinfinite disk due to a circular continuous oscillatory heat source was also modelled. The model was used to calculate the contact temperature of a contact similar to what can be expected in the HFRR apparatus. For lubricated tests a mixture of n-hexadecane (cetane) as base fluid and palmitic acid as lubricity additive was used. Experimental results, including results obtained by running unlubricated (dry) tests and results obtained from literature were all considered to formulate the hypothesis that a fully functional additive film will not survive the full duration of the lubricity test, which is 75 minutes (ISO 12156-1, 2003). Friction values obtained in the experiments conducted were much higher than what is expected for boundary films formed by long chain carboxylic acids. Comparable friction values were obtained in the first few seconds of the tests, but the friction values increased indicating the destruction of the boundary film. Metal oxide lubrication dominates for the remainder of the test. Information of the exact mechanism prevailing in the crucial first few seconds of the test should be obtained by increasing the data acquisition rate of the apparatus. It is believed that junction growth through adhesion is the dominant factor in the initial stages of the test. GCxGC/TOF-MS showed the formation of hexane and heptane, which is a strong indication of the catalytic decomposition of the C16-hydrocarbons in the sample. / Dissertation (MEng)--University of Pretoria, 2010. / Chemical Engineering / unrestricted

Contact temperature

High frequency reciprocating rig (hfrr)

Diesel lubricity

Palmitic acid

Boundary lubrication

Adsorption

UCTD

GSK-3β Promotes PA-Induced Apoptosis Through Changing β-arrestin 2 Nucleus Location in H9c2 Cardiomyocytes

Chang, Fen, Liu, Jing, Fu, Hui, Wang, Jinlan, Li, Fang, Yue, Hongwei, Li, Wenjing, Zhao, Jing, Yin, Deling

01 September 2016

Palmitic acid (PA), a type of saturated fatty acids, induces cardiovascular diseases by causing cardiomyocyte apoptosis with unclear mechanisms. Akt participates in PA-induced cardiomyocyte apoptosis. GSK-3β is a substrate of Akt, we investigated its role in PA-induced apoptosis. We reveal that PA inhibits GSK-3β phosphorylation accompanied by inactivation of Akt in H9c2 cardiomyocytes. We also reveal that inhibition the activity of GSK-3β by its inhibitor LiCl or knockdown by siRNA significantly attenuates PA-induced cardiomyocyte apoptosis, this suggesting that GSK-3β plays a pro-apoptotic role. To detect its downstream factors, we analyzed the roles of JNK, p38 MAPK and β-arrestin 2 (β-Arr2). Here, we report that GSK-3β regulate PA-induced cardiomyocyte apoptosis by affecting the distribution of β-Arr2. PA diminishes the protein level of β-Arr2 and changes its distribution from nucleus to cytoplasm. Either inhibition of β-Arr2 by its siRNA or overexpression of its protein level by transfection of β-Arr2 full-length plasmid promotes PA-induced cardiomyocyte apoptosis, which remind us to focus on the changes of its location. β-Arr2 siRNA decreased the background level of β-Arr2 in nucleus in normal H9c2 cells. Overexpression of β-Arr2 increased cytoplasm level of β-Arr2 as PA did. While LiCl, the inhibitor of GSK-3β decreased PA-induced apoptosis, accompany with increased nucleus level of β-Arr2. Then we concluded that GSK-3β is closely associated with cardiomyocyte apoptosis induced by PA, it performs its pro-apoptotic function by affecting the location of β-Arr2. LiCl inhibits PA-induced cardiomyocyte apoptosis, which might provide novel therapeutic for cardiovascular diseases induced by metabolic syndrome.

apoptosis

cardiomyocyte

GSK-3β

LiCl

palmitic acid

β-arrestin2

Internal Medicine

Estudo do declínio do fluxo transmembrana via microfiltração tangencial de misturas bifásicas de óleos vegetais e água / Study of the transmembrane flux decline in processing via microfiltration of biphasic mixtures of water and vegetable oils

Caminoto, Karime Bárbara Santo

11 January 2013

O fluido multifásico complexo (suco de açaí) tem uma forte interação com membranas poliméricas ou cerâmicas de microfiltração e a formação de incrustação depende da composição e das condições de dinâmica de fluidos. Neste estudo experimental foi investigada a influência dos dois principais ácidos graxos presentes no açaí, ácido oleico e ácido palmítico, em misturas com água e no processo de microfiltração tangencial com membranas cerâmicas de alumina com um tamanho de poro nominal de 0,2 \'mü\'m. Mediu-se o fluxo de permeado em função do tempo, nas pressões transmembranas de 300 kPa, 400 kPa e 500 kPa. Para o fluxo da corrente de alimentação foram encontrados valores de Reynolds numa faixa de 9500 a 31000. Cada amostra de misturas de água/ácido oleico, água/ácido palmítico e água/ácidos oleico e palmítico, foi estudada em três séries de ensaios realizados durante 180 minutos e 72 minutos para a mistura água/ácido palmítico, a temperatura em 25 ºC. Analisou-se as incrustações resultantes e as fortes interações fluido/membrana utilizando o modelo de resistência em série e imagens tomadas por microscopia eletrônica de varredura (MEV). Os melhores resultados de permeado encontrados para a mistura de água/ácido oleico foram para Re = 33000, no entanto, resultados satisfatórios foram encontrados para Re = 20000. Agora para a água/ácido palmítico foram encontrados para Re = 20000. Os melhores resultados de permeado para a mistura água/ácidos oleico e palmítico foram para Re = 31000. De acordo com os resultados das resistências, a mistura água/ácido causa um bloqueio dos poros da membrana, resultando em uma maior diminuição do fluxo transmembrana. A limpeza foi eficiente para reduzir a resistência associada com a polarização. / The complex fluid multiphase (açaí juice) has a strong interaction with polymeric or ceramic membranes for microfiltration fouling and its formation depends on the fluid composition and fluid dynamics conditions. In this experimental study was investigated the influence of two major fatty acids present in açaí, oleic acid and palmitic acid in mixtures with water and in the process of crossflow microfiltration with ceramic membranes. In the separation process is used alumina ceramic membrane with a nominal pore size of 0.2 micrometers. The permeate flux was measured in function of time using the 300 kPa, 400 kPa and 500 kPa for the transmembrane pressure. The flow of feed stream and its respective value of Reynolds were in range of: 8900-3300. For each sample of mixtures oleic acid/water and palmitic acid/water and palmitic acid, oleic acid/ water, three series of experiments were conducted for 180 minutes and 72 minutes for mixture palmitic acid/water at temperature in 25 Celcius. For analyze of fouling resulting from strong interactions fluid/membrane was used the model of resistance in series and images taken via scanning electron microscopy (SEM). The best results for mixing oleic acid/water were to Re = 33000, however, satisfactory results were found for Re = 20000. Now for the palmitic acid/water were found to Re = 20000. For mixture palmitic acid, oleic acid/ water were found to Re = 31000. According to the results of the resistances, the mixture oleic acid/water cause a blockage of the pores of the membrane resulting in a greater decrease of the transmembrane flow. The cleaning is efficient for reducing the resistance associated with the polarization.

Ácido oleico

Ácido palmítico

Ceramic membrane

Fluxo transmembrana

Membrana cerâmica

Microfiltração

Microfiltration

Oleic acid

Palmitic acid

Transmembrane flux

Estudo do declínio do fluxo transmembrana via microfiltração tangencial de misturas bifásicas de óleos vegetais e água / Study of the transmembrane flux decline in processing via microfiltration of biphasic mixtures of water and vegetable oils

Karime Bárbara Santo Caminoto

11 January 2013

O fluido multifásico complexo (suco de açaí) tem uma forte interação com membranas poliméricas ou cerâmicas de microfiltração e a formação de incrustação depende da composição e das condições de dinâmica de fluidos. Neste estudo experimental foi investigada a influência dos dois principais ácidos graxos presentes no açaí, ácido oleico e ácido palmítico, em misturas com água e no processo de microfiltração tangencial com membranas cerâmicas de alumina com um tamanho de poro nominal de 0,2 \'mü\'m. Mediu-se o fluxo de permeado em função do tempo, nas pressões transmembranas de 300 kPa, 400 kPa e 500 kPa. Para o fluxo da corrente de alimentação foram encontrados valores de Reynolds numa faixa de 9500 a 31000. Cada amostra de misturas de água/ácido oleico, água/ácido palmítico e água/ácidos oleico e palmítico, foi estudada em três séries de ensaios realizados durante 180 minutos e 72 minutos para a mistura água/ácido palmítico, a temperatura em 25 ºC. Analisou-se as incrustações resultantes e as fortes interações fluido/membrana utilizando o modelo de resistência em série e imagens tomadas por microscopia eletrônica de varredura (MEV). Os melhores resultados de permeado encontrados para a mistura de água/ácido oleico foram para Re = 33000, no entanto, resultados satisfatórios foram encontrados para Re = 20000. Agora para a água/ácido palmítico foram encontrados para Re = 20000. Os melhores resultados de permeado para a mistura água/ácidos oleico e palmítico foram para Re = 31000. De acordo com os resultados das resistências, a mistura água/ácido causa um bloqueio dos poros da membrana, resultando em uma maior diminuição do fluxo transmembrana. A limpeza foi eficiente para reduzir a resistência associada com a polarização. / The complex fluid multiphase (açaí juice) has a strong interaction with polymeric or ceramic membranes for microfiltration fouling and its formation depends on the fluid composition and fluid dynamics conditions. In this experimental study was investigated the influence of two major fatty acids present in açaí, oleic acid and palmitic acid in mixtures with water and in the process of crossflow microfiltration with ceramic membranes. In the separation process is used alumina ceramic membrane with a nominal pore size of 0.2 micrometers. The permeate flux was measured in function of time using the 300 kPa, 400 kPa and 500 kPa for the transmembrane pressure. The flow of feed stream and its respective value of Reynolds were in range of: 8900-3300. For each sample of mixtures oleic acid/water and palmitic acid/water and palmitic acid, oleic acid/ water, three series of experiments were conducted for 180 minutes and 72 minutes for mixture palmitic acid/water at temperature in 25 Celcius. For analyze of fouling resulting from strong interactions fluid/membrane was used the model of resistance in series and images taken via scanning electron microscopy (SEM). The best results for mixing oleic acid/water were to Re = 33000, however, satisfactory results were found for Re = 20000. Now for the palmitic acid/water were found to Re = 20000. For mixture palmitic acid, oleic acid/ water were found to Re = 31000. According to the results of the resistances, the mixture oleic acid/water cause a blockage of the pores of the membrane resulting in a greater decrease of the transmembrane flow. The cleaning is efficient for reducing the resistance associated with the polarization.

Ácido oleico

Ácido palmítico

Fluxo transmembrana

Membrana cerâmica

Microfiltração

Ceramic membrane

Microfiltration

Oleic acid

Palmitic acid

Transmembrane flux

FASN mutations in epileptic encephalopathies

Tene Tadoum, Samuel Boris

05 1900

L’acide gras synthase, codé par le gène FASN, est une protéine multi-enzyme homodimérique responsable de la lipogenèse de novo à partir de l’acétyl-CoA et du malonyl- CoA. La finalité de cette lipogenèse est la production de l’acide palmitique, un acide gras simple, précurseur des acides gras à très longues chaînes. L’acide palmitique est impliqué dans plusieurs processus biologiques, dont la palmitoylation qui permet d’ancrer diverses protéines à la membrane cellulaire sous-tendant, entre autres, la transmission synaptique. Le rôle de l’acide gras synthase dans le développement embryonnaire est bien établi. En effet, il est exprimé de manière ubiquitaire dans l’embryon, principalement dans les tissus en pleine croissance et soumis à un remodelage, participant ainsi activement au développement cérébral. Par conséquent, des mutations du gène FASN ont été associées à plusieurs maladies, incluant divers types de cancers, les maladies cardiovasculaires, mais également, plus récemment, à certaines maladies du neurodéveloppement, incluant les troubles du spectre de l’autisme. Des données récentes des laboratoires Rossignol et Campeau, au CHU Ste-Justine, suggèrent un lien entre des mutations récessives ou de novo du gène FASN et des formes précoces d’épilepsie avec atteinte cognitive (encéphalopathies épileptogènes). Nous postulons que les mutations du gène FASN modifient la synthèse de l’acide palmitique et perturbent le développement des réseaux neuronaux, en altérant la migration, le développement morphologique, l’excitabilité et/ou la fonction synaptique de populations neuronales spécifiques, résultant en une hyperexcitabilité neuronale et à l’épilepsie. Pour explorer cette hypothèse, nous avons recueilli les informations cliniques de dix patients porteurs de mutations du gène FASN dans le cadre d’études génomiques en cours au CHU Ste- Justine et à travers le monde. Nous avons également généré un nouveau modèle murin de la maladie, exprimant une mutation retrouvée chez un membre de notre cohorte clinique, que nous avons caractérisé sur les plans histochimique et électrophysiologique. Nos données suggèrent que les mutations du gène FASN induisent chez l’humain un phénotype clinique de retard global du développement évoluant vers une déficience intellectuelle, s’accompagnant d’un éventail de signes neurologiques (déficit moteur, spasticité, réflexes ostéotendineux vifs, hypotonie et ataxie) et d’un risque accru d’épilepsie. De plus, notre modèle de souris knock-in Fasn.S154N révèle la fonction critique de ce gène dans le développement embryonnaire puisqu’une mutation homozygote entraîne une mortalité in utero. Par ailleurs, les souris porteuses de mutations hétérozygotes survivent et présentent un phénotype clinique rappelant celui observé chez les patients, incluant un comportement anxieux, une activité épileptique interictale à l’électroencéphalogramme ainsi qu’un abaissement du seuil convulsif lors d’une exposition au pentylenetetrazole (PTZ). Nous discutons certains mécanismes sous-jacents contribuant potentiellement au développement de l’épilepsie dans cette maladie, incluant une altération de l’activité de l’acide gras synthase au niveau du cortex préfrontal et de l’amygdale, une palmitoylation aberrante des protéines synaptiques, une plus grande vulnérabilité des cellules granulaires du gyrus denté, un dysfonctionnement des cellules souches neurales, une neurogénèse insuffisante, ainsi qu’une altération de la myélinisation et de la croissance axonale impactant la migration des interneurones. Ces mécanismes sont prédits pour altérer l’excitabilité neuronale et la transmission synaptique, perturbant la fonction des circuits. Des études subséquentes permettront d’élucider lesquels de ces divers mécanismes contribuent au phénotype clinique dans notre nouveau modèle murin de la maladie. / Fatty Acid Synthase is a large protein complex encoded by the FASN gene, which is responsible for de novo lipogenesis from acetyl-CoA and malonyl-CoA in the presence of NADPH. The endpoint of this process is the production of palmitic acid. The roles of fatty acid synthase in embryonic development are well established: it is ubiquitously expressed in early embryos, particularly in tissues undergoing active proliferation, outgrowth, and remodelling, and it is thus essential for normal brain development and neuronal function. Consequently, FASN gene mutations have been associated with several neurodevelopmental conditions, including autism spectrum disorders (ASD). Recently, the laboratories of Drs. E. Rossignol and P. Campeau at the CHU Ste-Justine (Université de Montréal), with their international collaborators, have identified 10 patients with neurodevelopmental disorders (i.e., developmental delay, intellectual disability and/or epilepsy) carrying recessive or de novo mutations in the FASN gene, supporting a critical role of FASN in regulating neuronal circuit development and function. However, the mechanisms by which mutations in the FASN gene result in epilepsy are unknown. We postulate that FASN mutations alter palmitic acid synthesis and disrupt neuronal network development, resulting in network hyperexcitability and epilepsy. In this study, we expand the phenotypic description of patients carrying FASN mutations, while generating a novel mouse model carrying a patient-derived FASN mutation to explore the underlying cellular and network mechanisms. Our data reveal that FASN mutations, in humans, generate neurodevelopmental disorders characterized by epilepsy, global developmental delay (GDD), intellectual disability (ID), and a broad range of neurological signs (motor deficit, spasticity, hyperreflexia, hypotony, and ataxia). In our knock-in FasnS154N mouse model, homozygous mutations resulted in prenatal lethality. In contrast, heterozygous mutations caused a clinical phenotype reminiscent of the patient phenotype, with anxiety-like behaviors, spontaneous interictal spikes on electroencephalograms (EEG), and a tendency to a reduced PTZ-induced seizure threshold. We discuss the potential underlying mechanisms, including an altered FAS activity within the prefrontal cortex and the amygdala, aberrant palmitoylation of postsynaptic density proteins, the vulnerability of dentate gyrus granules cell, altered neural stem cells activity and neurogenesis, improper axonal growth and myelination, resulting in altered neuronal excitability and synaptic function, aberrant network activities and epilepsy. These mechanisms will be explored in subsequent studies using our novel animal model.

gène FASN

acide palmitique

autisme

épilepsie

FASN gene

palmitic acid

epileptic encephalopathy

epilepsy

autism

Tratamento com EPA e DHA protege células beta pancreáticas contra a disfunção induzida por ácido palmítico. / EPA and DHA treatment protects pancreatic beta cells against palmitic acid-induced dysfunction.

Monaco, Camila Ferraz Lucena

29 June 2017

Os ácidos graxos (AG) podem influenciar o processo secretório de insulina induzido pela glicose. Os AG ω3 interferem em diversos processos fisiológicos, sendo que nas ilhotas pancreáticas, os AG ω3 colaboram para a diminuição da lipotoxicidade induzida pelo ácido palmítico. Ao ácido palmítico são atribuídos efeitos deletérios em diversos tecidos, assim como nas células β, onde ele promove a alteração da composição dos fosfolípides de membrana, do potencial elétrico da mesma e consequentemente do processo de extrusão dos grânulos de insulina. A exposição crônica das células β ao excesso de ácido palmítico é tóxica, provocando diminuição da resposta secretória de insulina, redução da oxidação e captação de glicose e aumento de espécies reativas de oxigênio (EROs) que, em quantidades suprafisiológicas, irão contribuir para a falência e morte da célula β. As EROs podem ser de origem mitocondrial, através do metabolismo dos nutrientes ou ainda proveniente da ativação do complexo enzimático NADPH oxidase, o qual é modulado pela glicose e pelos AG, incluindo o ácido palmítico. Em contrapartida, os AG ω3 exercem efeitos anti-inflamatórios e antioxidantes em diversos sistemas, contribuindo para melhora de perfil lipídico e resistência periférica à insulina. O objetivo deste trabalho foi verificar o possível efeito protetor dos AG ω3 contra os efeitos deletérios do ácido palmítico em células β pancreáticas. Nas células β, a partir dos resultados obtidos, a presença de AG ω3 mostrou-se eficaz para prevenir o dano secretório e o aumento de EROs, além de contribuir para manutenção da viabilidade celular e da captação de glicose nas ilhotas tratadas com ácido palmítico, desempenhando um importante papel protetor na célula β. / Fatty acids (FA) may influence the process of glucose-induced insulin. The ω3 FA interferes in several physiological processes, and in the pancreatic islets collaborate to decrease the lipotoxicity induced by palmitic acid. Palmitic acid induces deleterious effects in several tissues, as well as in β cells, where it promotes the alteration of the membrane phospholipid composition, the plasma membrane electric potential, and consequently, the process of the insulin granules extrusion. Chronic exposure of β cells to high concentration of palmitic acid is toxic, leading to decreased insulin secretory response, reduced oxidation and uptake of glucose, and an increase in reactive oxygen species (ROS) which, in supraphysiological amounts, will contribute to β-cell failure and death. ROS may be of mitochondrial origin, through the metabolism of nutrients or even from the activation of the enzymatic complex NADPH oxidase, which is modulated by glucose and FA, including palmitic acid. In contrast, ω3 FA exerts anti-inflammatory and antioxidant effects in several systems, contributing to the improvement of lipid profile and peripheral resistance to insulin. The aim of this study was verify the protective possible effect of AG ω3 against the deleterious effects of palmitic acid on pancreatic β cells. Our results shown that the presence of ω3 FA was effective in preventing secretory damage and increase of EROs, also contributing to the maintenance of cell viability and glucose uptake in the islets treated with palmitic acid, playing an important β-cell protective role.

Ácido graxo omega-3

Ácido palmítico

Apoptose

Apoptosis

EROs

Ilhota pancreática

Insulin secretion

NADPH oxidase

NADPH oxidase

Omega-3 fatty acid

Palmitic acid

Pancreatic islet

ROS

Secreção de insulina

Μοριακή προσομοίωση διπλοστοιβάδων λιπαρών οξέων : η περίπτωση του παλμιτικού οξέος / Molecular simulations of bilipid layers : the case of palmitic acid

Γεωργιλάς, Βασίλης, Λιόντα, Ευανθία

10 June 2013

Στην παρούσα διπλωματική εργασία παρουσιάζονται Ατομιστικά Μοντέλα Διακριτών και Ενοποιημένων Ατόμων, τα οποία μπορούν να αποτελέσουν το πρώτο σημαντικό βήμα για τη μελέτη της βιολογικής μεμβράνης ή και ακόμα τη μελέτη συστημάτων μεμβρανών με πρωτεΐνες, σάκχαρα κ.α. Τέτοιες προσομοιώσεις θα μας δώσουν στοιχεία για μακροσκοπικές ιδιότητες της μεμβράνης (π.χ. διαχυτότητα) παρουσία συγκεκριμένων άλλων μακρομορίων. Αρχικά μελετάται σε ατομιστικό επίπεδο, με τα μοντέλα Διακριτών και Ενοποιημένων Ατόμων, τήγμα παλμιτικού οξέος (383Κ). Η καταλληλόλητα του νέου μοντέλου που εισήχθη για την περίπτωση των Ενοποιημένων Ατόμων εξετάζεται με βάση τις ιδιότητες διαμόρφωσης (λ.χ. κατανομές γωνιών) που εξάγονται από το μοντέλο Διακριτών Ατόμων. Στο μοντέλο Διακριτών Ατόμων χρησιμοποιήθηκε το αναλυτικότερο δυνατό δυναμικό (COMPASS). Τα αποτελέσματα ήταν άκρως ικανοποιητικά. Έχοντας ένα αξιόπιστο μοντέλο Ενοποιημένων Ατόμων προχωρήσαμε στο επόμενο βήμα. Επόμενο βήμα ήταν η μελέτη συστήματος παλμιτικού οξέος ανάμεσα από στρώμα νερού. Σημαντικό μειονέκτημα του μοντέλου Διακριτών Ατόμων για ένα τόσο μεγάλο σύστημα αποτελεί η περιορισμένη χρονική κλίμακα. Φαινόμενα σχηματισμού διπλοστοιβάδας παλμιτικού οξέος παρουσία νερού, είναι πολύ δύσκολο να μελετηθούν με χρήση μοντέλου Διακριτών Ατόμων λόγω των πολύ μικρών χρόνων που καλύπτουν. Επομένως, κρίνεται αναγκαία η χρήση μοντέλου Ενοποιημένων Ατόμων για το σύστημα PLM – νερό. Χρησιμοποιήσαμε το μοντέλο Ενοποιημένων Ατόμων που οι ίδιοι αναπτύξαμε, όπως και για την περίπτωση του τήγματος, για την περιγραφή του παλμιτικού οξέος, και το μοντέλο SPCE για το νερό, το οποίο είναι ευρέως αποδεκτό από την επιστημονική κοινότητα. Πέραν της σύγκρισης των μοντέλων Ενοποιημένων και Διακριτών Ατόμων που έγινε για το τήγμα του παλμιτικού οξέος, πραγματοποιήθηκαν και διάφοροι υπολογισμοί που αφορούν τη σταθεροποίηση του συστήματος (Autocorrelation faction of end-to-end distance vector), δομικές ιδιότητες (Radial Distribution Function), ιδιότητες διαμόρφωσης (angle distribution, radius of gyration, end-to-end distance vector) και θερμοδυναμικές ιδιότητες (density). Υπολογίστηκαν επίσης ο συντελεστής αυτοδιάχυσης (self diffusion coefficient) καθώς και το πλήθος δεσμών υδρογόνου. / This diploma thesis presents Atomistic Models of Discrete and Integrated atoms, which can be an important first step to study the biological membrane or even studying membrane systems with proteins, sugars, etc. Such simulations will give us data on macroscopic membrane properties (eg diffusivity) in the presence of certain other macromolecules. Initially we study melt palmitic acid (383K)in atomistic level. The suitability of the new model, introduced for the case of the Consolidated Atoms is examined by checking the configuration properties (eg angles distributions) derived from the model of Discrete Atoms. In the model of discrete atoms the disaggregated possible dynamic (COMPASS)was used. The results were highly satisfactory. Having a reliable model for Unified atoms we move to the next step. Next step was to study the system of palmitic acid between waterbed. Major drawback of the model of Discrete atoms for such a large system is the limited time scale. Phenomena of bilayer formation of palmitic acid in the presence of water is very difficult to be studied using discrete atoms model because of very short times covered. Therefore, it is necessary to use a model of integrated atoms for the system PLM - water. We used the model of Unified atoms we ourselves have developed, as in the case of the melt, for the description of palmitic acid, and the SPCE model for water, which is widely accepted by the scientific community. Beyond the comparison of models of integrated and discrete atoms made for the melt of palmitic acid, various calculations for the stabilisation the system (Autocorrelation faction of end-to-end distance vector), structural properties (Radial Distribution Function), properties configuration (angle distribution, radius of gyration, end-to-end distance vector) and thermodynamic properties (density)were made. The self-diffusion coefficient (self diffusion coefficient) and the number of hydrogen bonds were also calculated.

Μοριακή δυναμική

Παλμιτικό οξύ

Βιολογικές μεμβράνες

Αρχική απεικόνιση

Στατιστικά σύνολα

Δεσμοί υδρογόνου

571.64

Palmitic acid

Thermodynamic properties

Décarboxilation catalytique de l'acide palmique en n-pentadécane / Catalytic decarboxylation of palmitic acid to n-pentadecane

Mapembé Kimené, Anouchka

04 December 2017

La réaction de décarboxylation de l’acide palmitique en n-pentadécane a été étudiée en réacteur discontinu en présence de catalyseurs bimétalliques de type Ni-Me (où Me=Fe, Cu ou Ag) supportés sur charbon actif. Ces catalyseurs ont été préparés à l’aide d’un robot haut débit disponible sur la plateforme REALCAT de l’UCCS par déposition-précipitation en utilisant l’hydrazine comme agent réducteur afin de mieux maitriser la taille des nanoparticules métalliques, leur distribution et leur degré de réduction. Ces derniers ont été caractérisés par ICP, adsorption d’azote, XPS, XRD et TEM afin d’obtenir des informations relatives à leurs compositions, leurs propriétés texturales, surfaciques et morphologiques. Dans cette étude, l’optimisation du procédé catalytique a également été étudiée pour divers paramètres de réaction pour les catalyseurs les plus prometteurs. D’une part, l’impact de l’ajout d’un second métal sur les performances des catalyseurs à base de nickel a été étudié, et, d’autre part, l’effet de la température, de la durée de réaction, des concentrations initiales en réactifs, de l’atmosphère réactionnelle et de la masse de catalyseur utilisée ont été investiguées. Dans ce contexte, le catalyseur bimétallique 10%Ni10%Cu/C convertit complètement l’acide palmitique avec une sélectivité de 95 % en n-pentadecane à 320 °C sous une atmosphère contenant 10% de H2 dans N2 et pour une pression initiale de 20 bar. La réaction s’est déroulée pendant 6 h. Ce catalyseur a présenté une excellente stabilité après trois tests de recyclage consécutifs / The catalytic decarboxylation of palmitic acid to n-pentadecane was studied in a batch reactor in the presence of bimetallic Ni-Me catalysts (where Me = Fe, Cu or Ag) supported on activated carbon. These catalysts were prepared using a high-throughput robot of the REALCAT platform of UCCS by deposition-precipitation using hydrazine as reducing agent. These catalysts were characterized by ICP, N2 adsorption, XPS, XRD and TEM in order to obtain information relative to their compositions, textural properties, surfaces and morphologies. In this study, the optimization of the catalytic process was also investigated for various reaction parameters for the most promising samples. The main studied parameters were, on the one hand, the impact of the addition of a second metal on the performance of the nickel-based catalysts and, on the other hand, the effect of temperature, reaction time, initial reactant concentrations, atmosphere and mass of catalyst used. The conclusion of this study is that the 10%Ni10%Cu/C completely converts palmitic acid with a selectivity of 95 % to n-pentadecane in 6 h, at 320 °C under 10% H2 in N2 at an initial pressure of 20 bar. This catalyst exhibited excellent recyclability after three consecutive tests

Décarboxylation

Acide palmique

N-pentadécane

Valorisation de la biomasse

Nickel

Cuivre

Acide gras

Decarboxylation

Palmitic acid

N-pentadecane

Bimetallic heterogeneous catalysts

Biomass valorisation

Nickel

Copper

Fatty acids

Busca conformacional e análise das moléculas de ácido palmítico, ácido esteárico, ácido oleico e triacilglicerol por métodos semi-empíricos e ab initio

Brito, Charles Dias de

24 February 2015

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-01-19T10:10:26Z No. of bitstreams: 1 charlesdiasdebrito.pdf: 2413607 bytes, checksum: f1809f4cce1cb76f35fa95ba6b716e99 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-01-25T17:43:32Z (GMT) No. of bitstreams: 1 charlesdiasdebrito.pdf: 2413607 bytes, checksum: f1809f4cce1cb76f35fa95ba6b716e99 (MD5) / Made available in DSpace on 2016-01-25T17:43:32Z (GMT). No. of bitstreams: 1 charlesdiasdebrito.pdf: 2413607 bytes, checksum: f1809f4cce1cb76f35fa95ba6b716e99 (MD5) Previous issue date: 2015-02-24 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Neste presente trabalho foi realizado uma busca conformacional dos ácidos graxos esteárico, oleico, palmítico, do álcool glicerol e do triacilglicerol (TAG) que é formado pela junção dos três ácidos citados anteriormente com o glicerol. Tais compostos estão todos situados na gordura do leite bovino [1]. Este foi o maior motivo para os tê-los estudados. Para isso, utilizamos a mecânica molecular (MM), dinâmica molecular (DM) e mecânica quântica (MQ). Foram feitas as otimizações destas moléculas no vácuo e na água. Então, após tais otimizações obtemos seus espectros infravermelho (IR) e RAMAN. Com os resultados obtidos fomos capazes de compará-los aos já existentes na literatura. Podendo estes resultados também, contribuir com informações de propriedades ópticas da gordura do leite bovino a grupos experimentais. Visto que conseguimos um resultado bastante detalhado e satisfatório. / In this present study was performed a conformational search of stearic fatty acids, oleic, palmitic, alcohol glycerol and the triacylglycerol (TAG) that is formed by the junction of the three acids above with glycerol. Such compounds are all situated in bovine milk fat. And this was the biggest reason to have them studied. For this, we use molecular mechanics ( MM ) , molecular dynamics (MD ) and quantum mechanics (QM ). Were made optimizations of these molecules in vacuum and water and then after such optimizations we obtain its infrared (IR) spectra and RAMAN. With the results we were able to compare them with existing in the literature.These results may also, contribute with information of optical properties of bovine milk fat the experimental groups. Since we can a very detailed and satisfactory result.

Ácido Palmítico

Ácido Oleico

Ácido Esteárico

Triacilglicerol

Palmitic acid

Oleic acid

Stearic acid

Triacylglycerol

Fatty Acid Synthase, a Novel Target for the Treatment of Drug Resistant Breast Cancers

Liu, Hailan

18 March 2009

Indiana University-Purdue University Indianapolis (IUPUI) / Many cancers, including breast cancer, often develop resistance to chemotherapeutic drugs over a course of treatment. Many factors, including ABC transporter-mediated drug efflux, have been shown to play a role in acquired drug resistance. Fatty acid synthase (FASN), the key enzyme of lipid synthesis pathway, was found to be over-produced in an Adiamycin resistant breast cancer cell line MCF7/AdrVp3000, compared to its parental drug sensitive MCF7 cell line. Inhibition of FASN expression increased the drug sensitivity in breast cancer cells (MCF7/AdrVp3000 and MDA-MB-468), but not in the normal breast epithelia cell line MCF10A1. Enforced overexpression of FASN in MCF7 breast cancer cells decreased its drug sensitivity. These results indicated that FASN overexpression can induce drug resistance in breast cancers. Ectopic overexpression of FASN in MCF7 cells did not affect cell membrane permeability, transporter activity, nor did it affect cell proliferation rate. However, FASN overexpression protects cancer cells from drug-induced apoptosis by decreasing caspase-8 activation. In FASN over-expressing MCF7 cells, I discovered the positive feedback relationship between FASN and activation of Akt as previously reported. However, activation of Akt did not mediate FASN-induced drug resistance. Together with the findings that FASN expression associates with poor prognosis in several types of cancers, my investigations suggest that FASN overexpression is a novel mechanism of drug resistance in breast cancer chemotherapy. Inhibitors of FASN can be used as sensitizing agents in breast cancer chemotherapy.

Fatty acid synthase

Multidrug resistance

Chemosensitization

Breast cancers

Palmitate

Apoptosis

Lipids -- Synthesis

Fatty acids

Multidrug resistance

Palmitic acid

Breast -- Cancer

Apoptosis