Construction of an enzyme-free electrochemical sensor based on Ag-Fe2O3/POM/RGO novel nanocomposite for hydrogen peroxide detection

Nqakala, Noniko Civilized

January 2018

>Magister Scientiae - MSc / The motivation to determine H2O2 lies in the fact that this chemical species plays a crucial role in diverse fields of practise such as cosmetic, food, diagnostic, pharmaceutical, clinical and environmental protection industries. Several methods such as chromatography, colorimetry, titrimetry and spectrophotometry have been developed for its detection. However, these methods are known to manifest underlying disadvantages such as high cost, time consuming, instability and complicated immobilization procedures. In this present study an enzyme-less electrochemical sensor based on Ag-Fe2O3/POM/RGO nanocomposite (POM stands for polyoxometalate and RGO stands for reduced graphene oxide) was successfully synthesised via a hydrothermal method and a photochemical reduction method for the detection of hydrogen peroxide (H2O2).

Polyoxometalate (POM)

Hydrogen peroxide (H2O2)

Amperometry (AMP)

Limit of detection (LOD)

Cyclic voltammetry (CV)

TARGETING THE METAL CHELATOR D-PENICILLAMINE TO EXPLOIT THE ELEVATED COPPER AND OXIDATIVE STRESS ASSOCIATED WITH CANCER

Gupte, Anshul

01 January 2008

The significantly increased copper and oxidative stress levels are characteristic hallmarks of cancer cells. These differences provide a unique opportunity for selective targeting of cancer cells. D-penicillamine (D-pen) has been proposed to generate reactive oxygen species (ROS) in presence of copper. Therefore, these studies were aimed at investigating the potential application of a currently marketed copper chelator, D-pen, as a novel cytotoxic anti-cancer agent. D-pen was shown to produce ROS, specifically hydrogen peroxide (H2O2), in the presence of cupric sulfate through a copper catalyzed oxidation reaction. During this process D-pen was converted to D-pen disulfide. The experimental proof of the H2O2 generation was conclusively shown with the aid of a novel High Performance Liquid Chromatography (HPLC) assay. The in-vitro cytotoxicity of D-pen co-incubated with cupric sulfate was examined in human beast cancer (MCF-7 and BT474) and leukemia cells (HL-60, HL-60/VCR, and HL-60/ADR). D-pen was shown to cause concentration dependent cytotoxicity in both leukemia and breast cancer cells. A direct correlation between the detection of intracellular ROS and cytotoxicity was established. The treatment of D-pen plus cupric sulfate resulted in a significant reduction in the intracellular thiol content. D-pen is highly hydrophilic and is rapidly eliminated from the body; therefore to improve the intracellular uptake and to protect the thiol group of D-pen, we carried out the synthesis and the in-vitro characterization of a novel gelatin-D-pen conjugate. It was shown that D-pen alone does not enter cells. Confocal microscopy was employed to exhibit the uptake of the novel gelatin-D-pen conjugate by cancer cells. As the cancer cells in-vitro do not accumulate the same levels of copper as reported for cancer cells in-vivo, cancer cells were pre-treated with cupric sulfate to simulate the elevated copper levels. The cupric sulfate pretreatment resulted in reduced thiol level and significantly increased cellular copper content compared to untreated cells. Whereas both free D-pen and gelatin-D-pen conjugate lacked cytotoxicity in un-treated cells, both agents caused concentration dependent cytotoxicity in cupric sulfate pre-treated leukemia cells. Therefore, it was shown that the administration of D-pen as polymer conjugate would potentially provide cytotoxicity and specificity in the treatment of cancer.

24,25(OH)2D3 and Regulation of Catalase Activity in LNCaP Prostate Cancer

Stahel, Anette

January 2007

The vitamin D metabolite 1,25(OH)2D3 has long been known to inhibit growth of prostate cancer cells and this has been attributed to a VDR-mediated pathway controlling target gene expression, resulting in cell cycle arrest, apoptosis and differentiation. New research has shown that another vitamin D metabolite, 24,25(OH)2D3, inhibits proliferation of prostate cancer cells as well, more specifically, cells of the line LNCaP. It is not clear exactly how 24,25(OH)2D3 exerts this cancer growth inhibition but it has been shown that it is to some extent regulated via G protein coupled signalling pathways. Catalase is a haem-containing redox enzyme found in the majority of animal cells, plant cells and aerobic microorganisms. This enzyme is very important because it prevents excessive accumulation of the strongly oxidizing agent H2O2 which otherwise can do damage to the cells. Because of this preventive effect of catalase, important cellular processes which generate H2O2 as by-product can proceed safely. Biochemical analysis of catalase has shown that it binds endogenously to 24,25(OH)2D3. The fact that 24,25(OH)2D3 has anti-proliferative effects on prostate cancer cells combined with the fact that it binds to catalase generates the hypothesis that this binding interferes with the essential task of catalase to keep the cell free from accumulation of destructive H2O2, and by means of this interference induces apoptosis. Finding out about the cancer growth inhibiting mechanism behind each vitamin D metabolite is important and may be a lead in the search for a new, better treatment of prostate cancer. The specific aim of this project was to study if and in what way 24,25(OH)2D3 affects the enzymatic activity of catalase in LNCaP cells and to do this with dose and time responses in focus. In this experiment LNCaP cells were incubated for 48 hours together with 24,25(OH)2D3 in five different concentrations, then a catalase assay was performed on the cells including fluorescence-mediated measuring of catalase activity in both treated and untreated cells. The analysis of the result values showed that regardless of dose or time, 24,25(OH)2D3 has no statistically significant effect on catalase activity in cells of the line LNCaP.

Biochemistry

Biokemi

24,25(OH)2D3 and Regulation of Catalase Activity in LNCaP Prostate Cancer Cells : A Study of Long-term Effects

Stahel, Anette

January 2008

The vitamin D metabolite 1,25(OH)2D3 has long been known to inhibit growth of prostate cancer cells and this has been attributed to a VDR-mediated pathway controlling target gene expression, resulting in cell cycle arrest, apoptosis and differentiation. New research has shown that another vitamin D metabolite, 24,25(OH)2D3, inhibits proliferation of prostate cancer cells as well, more specifically, cells of the line LNCaP. It is not clear exactly how 24,25(OH)2D3 exerts this cancer growth inhibition but it has been shown that it is to some extent regulated via G protein coupled signalling pathways. Catalase is a haem-containing redox enzyme found in the majority of animal cells, plant cells and aerobic microorganisms. This enzyme is very important because it prevents excessive accumulation of the strongly oxidizing agent H2O2 which otherwise can do damage to the cells. Because of this preventive effect of catalase, important cellular processes which generate H2O2 as by-product can proceed safely. Biochemical analysis of catalase has shown that it binds endogenously to 24,25(OH)2D3. The fact that 24,25(OH)2D3 has anti-proliferative effects on prostate cancer cells combined with the fact that it binds to catalase generates the hypothesis that this binding interferes with the essential task of catalase to keep the cell free from accumulation of destructive H2O2, and by means of this interference induces apoptosis. Finding out about the cancer growth inhibiting mechanism behind each vitamin D metabolite is important and may be a lead in the search for a new, better treatment of prostate cancer. This is a follow-up to an earlier study, and the specific aim of this project was to find out if and in what way 24,25(OH)2D3 affects the enzymatic activity of catalase in LNCaP cells during long-term treatment (up to 48 hours). In this experiment LNCaP cells were incubated for 48 hours together with 24,25(OH)2D3 of the concentration 10-8 M, then a catalase assay was performed on the cells including fluorescence-mediated measuring of catalase activity in both treated and untreated cells. The analysis of the result values showed that despite of the rather high dose used, 24,25(OH)2D3 has no statistically significant effect on catalase activity in cells of the line LNCaP, regardless of time.

Medicine

Medicin

24,25(OH)2D3 and Regulation of Catalase Activity in LNCaP Prostate Cancer

Stahel, Anette

January 2007

<p>The vitamin D metabolite 1,25(OH)2D3 has long been known to inhibit growth of prostate cancer cells and this has been attributed to a VDR-mediated pathway controlling target gene expression, resulting in cell cycle arrest, apoptosis and differentiation. New research has shown that another vitamin D metabolite, 24,25(OH)2D3, inhibits proliferation of prostate cancer cells as well, more specifically, cells of the line LNCaP. It is not clear exactly how 24,25(OH)2D3 exerts this cancer growth inhibition but it has been shown that it is to some extent regulated via G protein coupled signalling pathways. Catalase is a haem-containing redox enzyme found in the majority of animal cells, plant cells and aerobic microorganisms. This enzyme is very important because it prevents excessive accumulation of the strongly oxidizing agent H2O2 which otherwise can do damage to the cells. Because of this preventive effect of catalase, important cellular processes which generate H2O2 as by-product can proceed safely. Biochemical analysis of catalase has shown that it binds endogenously to 24,25(OH)2D3. The fact that 24,25(OH)2D3 has anti-proliferative effects on prostate cancer cells combined with the fact that it binds to catalase generates the hypothesis that this binding interferes with the essential task of catalase to keep the cell free from accumulation of destructive H2O2, and by means of this interference induces apoptosis. Finding out about the cancer growth inhibiting mechanism behind each vitamin D metabolite is important and may be a lead in the search for a new, better treatment of prostate cancer. The specific aim of this project was to study if and in what way 24,25(OH)2D3 affects the enzymatic activity of catalase in LNCaP cells and to do this with dose and time responses in focus. In this experiment LNCaP cells were incubated for 48 hours together with 24,25(OH)2D3 in five different concentrations, then a catalase assay was performed on the cells including fluorescence-mediated measuring of catalase activity in both treated and untreated cells. The analysis of the result values showed that regardless of dose or time, 24,25(OH)2D3 has no statistically significant effect on catalase activity in cells of the line LNCaP.</p>

Biochemistry

Biokemi

24,25(OH)2D3 and Regulation of Catalase Activity in LNCaP Prostate Cancer Cells : A Study of Long-term Effects

Stahel, Anette

January 2008

<p>The vitamin D metabolite 1,25(OH)2D3 has long been known to inhibit growth of prostate cancer cells and this has been attributed to a VDR-mediated pathway controlling target gene expression, resulting in cell cycle arrest, apoptosis and differentiation. New research has shown that another vitamin D metabolite, 24,25(OH)2D3, inhibits proliferation of prostate cancer cells as well, more specifically, cells of the line LNCaP. It is not clear exactly how 24,25(OH)2D3 exerts this cancer growth inhibition but it has been shown that it is to some extent regulated via G protein coupled signalling pathways. Catalase is a haem-containing redox enzyme found in the majority of animal cells, plant cells and aerobic microorganisms. This enzyme is very important because it prevents excessive accumulation of the strongly oxidizing agent H2O2 which otherwise can do damage to the cells. Because of this preventive effect of catalase, important cellular processes which generate H2O2 as by-product can proceed safely. Biochemical analysis of catalase has shown that it binds endogenously to 24,25(OH)2D3. The fact that 24,25(OH)2D3 has anti-proliferative effects on prostate cancer cells combined with the fact that it binds to catalase generates the hypothesis that this binding interferes with the essential task of catalase to keep the cell free from accumulation of destructive H2O2, and by means of this interference induces apoptosis. Finding out about the cancer growth inhibiting mechanism behind each vitamin D metabolite is important and may be a lead in the search for a new, better treatment of prostate cancer. This is a follow-up to an earlier study, and the specific aim of this project was to find out if and in what way 24,25(OH)2D3 affects the enzymatic activity of catalase in LNCaP cells during long-term treatment (up to 48 hours). In this experiment LNCaP cells were incubated for 48 hours together with 24,25(OH)2D3 of the concentration 10-8 M, then a catalase assay was performed on the cells including fluorescence-mediated measuring of catalase activity in both treated and untreated cells. The analysis of the result values showed that despite of the rather high dose used, 24,25(OH)2D3 has no statistically significant effect on catalase activity in cells of the line LNCaP, regardless of time.</p>

Medicine

Medicin

Blunted epidermal l-tryptophan metabolism in vitiligo affects immune response and ROS scavenging by Fenton chemistry, part 2: epidermal H2O2/ONOO−-mediated stress in vitiligo hampers indoleamine 2,3-dioxygenase and aryl hydrocarbon receptor-mediated immune response signaling.

Schallreuter, Karin U., Salem, Mohamed M.A., Gibbons, Nick C., Maitland, Derek J., Marsch, E., Elwary, Souna M.A., Healey, Andrew R.

06 1900

no / Vitiligo is characterized by a mostly progressive loss of the inherited skin color. The cause of the disease is still unknown, despite accumulating in vivo and in vitro evidence of massive oxidative stress via hydrogen peroxide (H2O2) and peroxynitrite (ONOO−) in the skin of affected individuals. The most favored hypothesis is based on autoimmune mechanisms. Since depletion of the essential amino acid l-tryptophan (Trp) severely affects various immune responses, we here looked at Trp metabolism and signaling in these patients. Our in vivo and in vitro data revealed total absence of epidermal Trp hydroxylase activities and the presence of H2O2/ONOO− deactivated indoleamine 2,3-dioxygenase. Aryl hydrocarbon receptor signaling is severely impaired despite the ligand (Trp dimer) being formed, as shown by mass spectrometry. Loss of this signal is supported by the absence of downstream signals (COX-2 and CYP1A1) as well as regulatory T-lymphocytes and by computer modeling. In vivo Fourier transform Raman spectroscopy confirmed the presence of Trp metabolites together with H2O2 supporting deprivation of the epidermal Trp pool by Fenton chemistry. Taken together, our data support a long-expressed role for in loco redox balance and a distinct immune response. These insights could open novel treatment strategies for this disease.—Schallreuter, K. U., Salem, M. A. E. L., Gibbons, N. C. J., Maitland, D. J., Marsch, E., Elwary, S., Healey, A. R. Blunted epidermal l-tryptophan metabolism in vitiligo affects immune response and ROS scavenging by Fenton chemistry, part 2: epidermal H2O2/ONOO−-mediated stress in vitiligo hampers indoleamine 2,3-dioxygenase and aryl hydrocarbon receptor-mediated immune response signaling.

Estudo da atividade eletrocatalítica de óxidos nanoestruturados de Ru, Ir, Hf e La visando o estudo da reação de redução de oxigênio (RRO) / Study of electrocatalytic activity of nanostructured oxides of Ru, Ir, Hf and La for the study of the oxygen reduction reaction (ORR)

Reis, Jonas Batista

04 September 2015

Neste trabalho foi estudada a atividade eletrocatalítica dos eletrocatalisadores nanoestruturados de Ru, Ir, Hf ou La suportados em carbono Printex 6L frente à Reação de Redução de Oxigênio (RRO) em meio ácido. Inicialmente analisou-se a influência do Método de Impregnação e dos Precursores Poliméricos (MPP), também conhecido como Pechini para os eletrocatalisadores RuO2/C e IrO2/C. Ficou evidente neste estudo, que os materiais obtidos pelo MPP apresentaram uma maior eficiência de corrente para a eletrogeração de H2O2 quando comparado ao método da Impregnação. Na etapa seguinte, os eletrocatalisadores HfO2/C e LaONO3/C foram preparados apenas pelo MPP. As propriedades estruturais, morfológicas e de superfície foram investigadas por meio das técnicas de caracterização DRX, FRX, MET, XPS e TG. De acordo com os dados de DRX e MET, verificou-se que o método de incorporação do metal no carbono Printex 6L favoreceu a formação dos óxidos nanoestruturados. Ademais, foi verificado que os eletrocatalisadores obtidos pelo método de Pechini apresentam menores tamanho de cristalitos (1 a 5 nm), melhor distribuição dos óxidos sobre a matriz de carbono (menos aglomerados) e menores tamanhos de partículas. O comportamento eletroquímico dos eletrocatalisadores foi avaliado através das voltametrias lineares (curvas de polarização) obtidas pelo eletrodo de disco anel rotatório (RRDE). Os resultados obtidos pelas voltametrias lineares, cálculos de eficiência de corrente de H2O2 (H2O2 %), número total de elétrons trocados (nt) e de Koutecký-Levich mostraram que a incorporação dos eletrocatalisadores (Ru e Ir) no carbono Printex 6L obtidos por ambos os métodos de síntese influenciaram negativamente na eletrogeração de H2O2. Neste caso, os eletrocatalisadores de Ru e Ir apresentaram uma tendência ao mecanismo via 4 elétrons, ou seja, geração de H2O como produto final da RRO. Os resultados mostraram ainda que os eletrocatalisadores contendo maiores teores de Hf, apresentaram maiores eficiência de corrente para H2O2 quando comparado ao carbono Printex 6L, uma vez que o catalisador contendo 15 % de Hf apresentou valores de eficiência de corrente de H2O2 próximos a 80 % e número de elétrons de 2,4. Além disso, foi observado também um deslocamento no potencial de aproximadamente 200 mV para valores mais positivos, o que significa um menor consumo energético em termos de eletrogeração de H2O2. Para os eletrocatalisadores à base de La, a amostra contendo 7% apresentou uma melhor eficiência de corrente de H2O2, com valores próximos a 87% e número de elétrons de 2,3, além de um deslocamento do potencial de aproximadamente 250 mV para valores mais positivos. Pode-se inferir então, que os eletrocatalisadores de Hf e La obtidos pelo método de Pechini são promissores para utilização em Eletrodos de Difusão Gasosa (EDG) visando a eletrogeração in situ de H2O2, visto que apresentam uma tendência a mecanismo via 2 elétrons. / In the present work, the electrocatalytic activity of nanostructured electrocatalysts based on Ru, Ir, Hf or La supported in Printex L6 front of Oxygen Reduction Reaction (ORR) in an acid medium were studied. Initially, the influence of impregnation methods and polymeric precursors (MPP), also known as Pechini for the electrocatalysts RuO2/C and IrO2/C, was analyzed. It was evidenced in this study, that the materials obtained by MPP presented bigger efficiency for H2O2 electrogeneration when compared to the impregnation method. In the following stage, the electrocatalysts HfO2/C and LaONO3/C were prepared only by MPP. The structural properties and surface morphology were investigated by means of the characterization techniques DRX, FRX, TEM, XPS and TG. According to the XRD and TEM data, it was found that the method of metal incorporation in Printex 6L carbon promoted the formation of nanostructured oxides. Moreover, it was verified that the electrocatalysts obtained by Pechini\'s method presented smaller crystallite size (1 to 5 nm), better distribution of the oxides on the carbon matrix (fewer clusters) and smaller particle sizes. The electrochemical behavior of the electrocatalysts were evaluated by linear voltammetry (polarization curves) obtained by rotating ring-disk electrode (RRDE). The results obtained by linear voltammetry, calculations of current efficiency of H2O2 (H2O2 %), total number of exchanged electrons (nt) and of Koutecký-Levich showed that the incorporation of the electrocatalysts (Ru and Ir) in Printex 6L carbon obtained by both methods of synthesis influenced negatively on the electrogeneration of H2O2. In that case, the Ru and Ir electrocatalysts showed a tendency to a 4 electrons mechanism, that is, generation of H2O as final product of the ORR. The results also showed that the electrocatalysts containing higher Hf content, presented higher current efficiency for H2O2 when compared to carbon Printex L6, since that the catalyst containing 15% of Hf presented values of current efficiency for H2O2 around 80% and number of electrons of 2.4. Furthermore, a potential displacement for positive values of approximately 200 mV was also observed which means lower energy consumption in terms of H2O2 electrogeneration. For the La based electrocatalysts, the sample containing 7% showed better current efficiency for H2O2, with values near 87% and number of electrons of 2.3, besides a potential displacement of approximately 250 mV for more values positive. It can be inferred that the Hf and La electrocatalysts obtained by Pechini\'s method are promising for use in Gas Diffusion Electrodes (GDE) aiming in situ electrogeneration of H2O2, since they exhibit a tendency to a mechanism via 2 electrons.

electrocatalysts

eletrocatalisadores

háfnio e lantânio

irídio

Iridium

lanthanum and hafnium

óxidos de rutênio

Oxygen Reduction Reaction (ORR)

Reação de redução de oxigênio (RRO)

ruthenium oxides

Estudo da atividade eletrocatalítica de óxidos nanoestruturados de Ru, Ir, Hf e La visando o estudo da reação de redução de oxigênio (RRO) / Study of electrocatalytic activity of nanostructured oxides of Ru, Ir, Hf and La for the study of the oxygen reduction reaction (ORR)

Jonas Batista Reis

04 September 2015

Neste trabalho foi estudada a atividade eletrocatalítica dos eletrocatalisadores nanoestruturados de Ru, Ir, Hf ou La suportados em carbono Printex 6L frente à Reação de Redução de Oxigênio (RRO) em meio ácido. Inicialmente analisou-se a influência do Método de Impregnação e dos Precursores Poliméricos (MPP), também conhecido como Pechini para os eletrocatalisadores RuO2/C e IrO2/C. Ficou evidente neste estudo, que os materiais obtidos pelo MPP apresentaram uma maior eficiência de corrente para a eletrogeração de H2O2 quando comparado ao método da Impregnação. Na etapa seguinte, os eletrocatalisadores HfO2/C e LaONO3/C foram preparados apenas pelo MPP. As propriedades estruturais, morfológicas e de superfície foram investigadas por meio das técnicas de caracterização DRX, FRX, MET, XPS e TG. De acordo com os dados de DRX e MET, verificou-se que o método de incorporação do metal no carbono Printex 6L favoreceu a formação dos óxidos nanoestruturados. Ademais, foi verificado que os eletrocatalisadores obtidos pelo método de Pechini apresentam menores tamanho de cristalitos (1 a 5 nm), melhor distribuição dos óxidos sobre a matriz de carbono (menos aglomerados) e menores tamanhos de partículas. O comportamento eletroquímico dos eletrocatalisadores foi avaliado através das voltametrias lineares (curvas de polarização) obtidas pelo eletrodo de disco anel rotatório (RRDE). Os resultados obtidos pelas voltametrias lineares, cálculos de eficiência de corrente de H2O2 (H2O2 %), número total de elétrons trocados (nt) e de Koutecký-Levich mostraram que a incorporação dos eletrocatalisadores (Ru e Ir) no carbono Printex 6L obtidos por ambos os métodos de síntese influenciaram negativamente na eletrogeração de H2O2. Neste caso, os eletrocatalisadores de Ru e Ir apresentaram uma tendência ao mecanismo via 4 elétrons, ou seja, geração de H2O como produto final da RRO. Os resultados mostraram ainda que os eletrocatalisadores contendo maiores teores de Hf, apresentaram maiores eficiência de corrente para H2O2 quando comparado ao carbono Printex 6L, uma vez que o catalisador contendo 15 % de Hf apresentou valores de eficiência de corrente de H2O2 próximos a 80 % e número de elétrons de 2,4. Além disso, foi observado também um deslocamento no potencial de aproximadamente 200 mV para valores mais positivos, o que significa um menor consumo energético em termos de eletrogeração de H2O2. Para os eletrocatalisadores à base de La, a amostra contendo 7% apresentou uma melhor eficiência de corrente de H2O2, com valores próximos a 87% e número de elétrons de 2,3, além de um deslocamento do potencial de aproximadamente 250 mV para valores mais positivos. Pode-se inferir então, que os eletrocatalisadores de Hf e La obtidos pelo método de Pechini são promissores para utilização em Eletrodos de Difusão Gasosa (EDG) visando a eletrogeração in situ de H2O2, visto que apresentam uma tendência a mecanismo via 2 elétrons. / In the present work, the electrocatalytic activity of nanostructured electrocatalysts based on Ru, Ir, Hf or La supported in Printex L6 front of Oxygen Reduction Reaction (ORR) in an acid medium were studied. Initially, the influence of impregnation methods and polymeric precursors (MPP), also known as Pechini for the electrocatalysts RuO2/C and IrO2/C, was analyzed. It was evidenced in this study, that the materials obtained by MPP presented bigger efficiency for H2O2 electrogeneration when compared to the impregnation method. In the following stage, the electrocatalysts HfO2/C and LaONO3/C were prepared only by MPP. The structural properties and surface morphology were investigated by means of the characterization techniques DRX, FRX, TEM, XPS and TG. According to the XRD and TEM data, it was found that the method of metal incorporation in Printex 6L carbon promoted the formation of nanostructured oxides. Moreover, it was verified that the electrocatalysts obtained by Pechini\'s method presented smaller crystallite size (1 to 5 nm), better distribution of the oxides on the carbon matrix (fewer clusters) and smaller particle sizes. The electrochemical behavior of the electrocatalysts were evaluated by linear voltammetry (polarization curves) obtained by rotating ring-disk electrode (RRDE). The results obtained by linear voltammetry, calculations of current efficiency of H2O2 (H2O2 %), total number of exchanged electrons (nt) and of Koutecký-Levich showed that the incorporation of the electrocatalysts (Ru and Ir) in Printex 6L carbon obtained by both methods of synthesis influenced negatively on the electrogeneration of H2O2. In that case, the Ru and Ir electrocatalysts showed a tendency to a 4 electrons mechanism, that is, generation of H2O as final product of the ORR. The results also showed that the electrocatalysts containing higher Hf content, presented higher current efficiency for H2O2 when compared to carbon Printex L6, since that the catalyst containing 15% of Hf presented values of current efficiency for H2O2 around 80% and number of electrons of 2.4. Furthermore, a potential displacement for positive values of approximately 200 mV was also observed which means lower energy consumption in terms of H2O2 electrogeneration. For the La based electrocatalysts, the sample containing 7% showed better current efficiency for H2O2, with values near 87% and number of electrons of 2.3, besides a potential displacement of approximately 250 mV for more values positive. It can be inferred that the Hf and La electrocatalysts obtained by Pechini\'s method are promising for use in Gas Diffusion Electrodes (GDE) aiming in situ electrogeneration of H2O2, since they exhibit a tendency to a mechanism via 2 electrons.

eletrocatalisadores

háfnio e lantânio

irídio

óxidos de rutênio

Reação de redução de oxigênio (RRO)

electrocatalysts

Iridium

lanthanum and hafnium

Oxygen Reduction Reaction (ORR)

ruthenium oxides

Blunted epidermal l-tryptophan metabolism in vitiligo affects immune response and ROS scavenging by Fenton chemistry, part 1: epidermal H2O2/ONOO−-mediated stress abrogates tryptophan hydroxylase and dopa decarboxylase activities, leading to low serotonin and melatonin levels.

Schallreuter, Karin U., Salem, Mohamed M.A., Gibbons, Nick C., Martinez, A., Slominski, Radomir, Lüdemann, J., Rokos, Hartmut

06 1900

no / Vitiligo is characterized by a progressive loss of inherited skin color. The cause of the disease is still unknown. To date, there is accumulating in vivo and in vitro evidence for massive oxidative stress via hydrogen peroxide (H2O2) and peroxynitrite (ONOO−) in the skin of affected individuals. Autoimmune etiology is the favored theory. Since depletion of the essential amino acid l-tryptophan (Trp) affects immune response mechanisms, we here looked at epidermal Trp metabolism via tryptophan hydroxylase (TPH) with its downstream cascade, including serotonin and melatonin. Our in situ immunofluorescence and Western blot data reveal significantly lower TPH1 expression in patients with vitiligo. Expression is also low in melanocytes and keratinocytes under in vitro conditions. Although in vivo Fourier transform-Raman spectroscopy proves the presence of 5-hydroxytryptophan, epidermal TPH activity is completely absent. Regulation of TPH via microphthalmia-associated transcription factor and l-type calcium channels is severely affected. Moreover, dopa decarboxylase (DDC) expression is significantly lower, in association with decreased serotonin and melatonin levels. Computer simulation supports H2O2/ONOO−-mediated oxidation/nitration of TPH1 and DDC, affecting, in turn, enzyme functionality. Taken together, our data point to depletion of epidermal Trp by Fenton chemistry and exclude melatonin as a relevant contributor to epidermal redox balance and immune response in vitiligo.