Anthocyanins and their metabolites promote white adipose tissue beiging by regulating mitochondria thermogenesis and dynamics.

High-fat diet (HFD) consumption and excess nutrient availability can cause alterations in mitochondrial function and dynamics. We previously showed that anthocyanins (AC) decreased HFD-induced body weight gain and fat deposition. This study investigated: i) the capacity of AC to mitigate HFD-induced alterations in mitochondrial dynamics, biogenesis, and thermogenesis in mouse subcutaneous white adipose tissue (sWAT), and ii) the underlying mechanisms of action of cyanidin-3-O-glucoside (C3G), delphinidin-3-O-glucoside (D3G), and their gut metabolites on mitochondria function/dynamics in 3T3-L1 adipocytes treated with palmitate. Mice were fed control or HFD diets, added or not with 40 mg AC/kg body weight (BW). Compared to control and AC-supplemented mice, HFD-fed mice had fewer sWAT mitochondria that presented alterations of their architecture. AC supplementation prevented HFD-induced decrease of proteins involved in mitochondria biogenesis (PPARγ, PRDM16 and PGC-1α), and thermogenesis (UCP-1), and decreased AMPK phosphorylation. AC supplementation also restored the alterations in sWAT mitochondrial dynamics (Drp-1, OPA1, MNF-2, and Fis-1) and mitophagy (BNIP3L/NIX) caused by HFD consumption. In mature 3T3-L1, C3G, D3G, and their metabolites protocatechuic acid (PCA), 4-hydroxybenzaldehyde (HB), and gallic acid (GA) differentially affected palmitate-mediated decreased cAMP, PKA, AMPK, and SIRT-1 signaling pathways. C3G, D3G, and metabolites also prevented palmitate-mediated decreased expression of PPARγ, PRDM16, PGC-1α, and UCP1. Results suggest that consumption of select AC, i.e. cyanidin and delphinidin, could promote sWAT mitochondriogenesis and improve mitochondria dynamics in the context of HFD/obesity-induced dysmetabolism in part by regulating PKA, AMPK, and SIRT-1 signaling pathways.

Cyanidin and delphinidin restore colon physiology in high fat diet-fed mice: Involvement of TLR-4 and redox-regulated signaling.

Consumption of high fat diets (HFD) mimics a modern or "Western style" diet pattern and can impair intestinal barrier integrity, leading to endotoxemia and associated unhealthy conditions. This study investigated if supplementation with an anthocyanin (cyanidin and delphinidin glucosides)-rich extract (CDRE) could revert or mitigate HFD-induced alterations of colonic physiology in part through the regulation of Toll-Like Receptor 4 (TLR-4)- and redox-regulated signaling. C57BL/6J male mice were fed for 4 weeks with a control or an HFD. Then, mice were divided in four groups fed either control or HFD, or these diets supplemented with CDRE for the subsequent 4 weeks. After 8 weeks on the HFD we observed in the colon: i) disruption of tight junction structure and function; ii) increased TLR-4 expression; iii) increased NADPH oxidase NOX1 expression, and iv) activation of redox-sensitive and TLR-4-triggered pathways, i.e. NF-κB, ERK1/2, JNK1/2, PI3K/Akt. All these events were prevented or reverted by CDRE supplementation. Supporting the relevance of CDRE-mediated downregulation of TLR-4 on its colon beneficial effect; in vitro (Caco-2 cell monolayers), cyanidin, delphinidin and their metabolites protocatechuic and gallic acid, mitigated lipopolysaccharide (LPS)-induced monolayer permeabilization by restoring tight junction structure and dynamics and preventing lipid/protein oxidation. The CDRE also mitigated HFD-mediated alterations in parameters of goblet cell differentiation and function, including the downregulation of markers of goblet cell differentiation (Klf4), and intestinal mucosa healing (Tff3). Results show that a short-term supplementation with cyanidin and delphinidin, protect from HFD-induced alterations in colon physiology in part through the modulation of TLR-4- and redox-regulated signaling.

A randomized placebo-controlled cross-over study on the effects of anthocyanins on inflammatory and metabolic responses to a high-fat meal in healthy subjects.

This study investigated the effects of supplementation with a cyanidin- and delphinidin-rich extract (CDRE) on the postprandial dysmetabolism, inflammation, and redox and insulin signaling, triggered by the consumption of a high fat meal (HFM) in healthy individuals. Participants (n = 25) consumed a 1026-kcal HFM simultaneously with either the CDRE providing 320.4 mg of anthocyanins (90% cyanidin and delphinidin) or placebo. Diets were randomly assigned in a double blind, placebo-controlled crossover design. Blood was collected prior to (fasted, time 0), and for 5 h after meal consumption; plasma, serum, and peripheral blood mononuclear cells (PBMC) were isolated. AC metabolites were detected in serum as early as 30 min after CDRE consumption. The CDRE mitigated HFM-induced endotoxemia, reducing increases in plasma LPS and LPS-binding protein. The CDRE also reduced other events associated with HFM-triggered postprandial dysmetabolism including: i) plasma glucose and triglyceride increases; ii) TNFα and NOX4 upregulation in PBMC; and iii) JNK1/2 activation in PBMC. The CDRE did not significantly affect HFM-mediated increases in plasma insulin, GLP-1, GLP-2, GIP, and LDL- and HDL-cholesterol, and IKK phosphorylation in PBMC. In summary, dietary AC, i.e. cyanidin and delphinidin, exerted beneficial actions against unhealthy diets by modulating the associated postprandial dysmetabolism, endotoxemia, alterations of glycemia and lipidemia, and redox and insulin signaling.

Curcumin Mitigates TNFα-Induced Caco-2 Cell Monolayer Permeabilization Through Modulation of NF-κB, ERK1/2, and JNK Pathways.

SCOPE: This work studies the capacity of curcumin to inhibit tumor necrosis alpha (TNFα)-induced inflammation, oxidative stress, and loss of intestinal barrier integrity, characterizing the underlying mechanisms. METHODS AND RESULTS: Caco-2 cell monolayers are incubated with TNFα (10 ng mL-1 ), in the absence or presence of curcumin. TNFα causes an increase in interleukin (IL)-6 and IL-8 release, which is inhibited by curcumin in a dose-dependent manner (half-maximal inhibitory concentration (IC50 ) = 3.4 µM for IL-6). Moreover, TNFα leads to: i) increased intercellular adhesion molecule 1 (ICAM-1) and NLRP3 inflammasome expression; ii) increased cell monolayer permeability and decreased levels of tight junction proteins; iii) increased cellular and mitochondrial oxidant production; iv) decreased mitochondrial membrane potential and complex I-III activity; v) activation of redox-sensitive pathways, i.e., nuclear factor-kappa B (NF-κB), extracellular signal-regulated kinase 1/2 (ERK1/2), and c-Jun N-terminal kinases (JNK); and vi) increased myosin light-chain kinase (MLCK) expression and phosphorylation levels of myosin light-chain protein MLC. Curcumin (2-8 µM) inhibits all these TNFα-triggered undesirable outcomes, mostly showing dose-dependent effects. CONCLUSION: The inhibition of NF-κB, ERK1/2, and JNK activation could be in part involved in the capacity of curcumin to mitigate intestinal inflammation, oxidant production, activation of redox-sensitive pathways, and prevention of monolayer permeabilization. These results support an action of dietary curcumin in sustaining gastrointestinal tract physiology.

Supplementation with cyanidin and delphinidin mitigates high fat diet-induced endotoxemia and associated liver inflammation in mice.

Consumption of high fat diets (HFD) and the associated metabolic endotoxemia can initiate liver inflammation and lipid deposition that with time can progress to non-alcoholic fatty liver disease (NAFLD). We previously observed that 14 weeks supplementation with the anthocyanidins cyanidin and delphinidin mitigated HFD-induced metabolic endotoxemia and liver insulin resistance, steatosis, inflammation and oxidative stress. This work investigated if a 4-week supplementation of mice with a cyanidin- and delphinidin-rich extract (CDRE) could mitigate or reverse HFD (60% calories from lard fat)-induced liver steatosis and inflammation. After a first 4-weeks period on the HFD, mice showed increased endotoxemia and activation of liver proinflammatory signaling cascades. Supplementation with CDRE between weeks 4 and 8 did not mitigate liver steatosis or the altered lipid and glucose plasma levels. However, CDRE supplementation reverted HFD-induced metabolic endotoxemia, in parallel with the mitigation of the overexpression of hepatic TLR2 and TLR4, and of the activation of: (i) NF-κB, (ii) AP-1 and upstream mitogen-activated kinases p38 and ERK1/2, and (iii) HIF-1. Thus, even a short-term consumption of cyanidin and delphinidin could help mitigate the adverse consequences, i.e. metabolic endotoxemia and associated liver inflammation, triggered by the regular consumption of diets rich in fat.

(-)-Epicatechin and the comorbidities of obesity.

Obesity has major adverse consequences on human health contributing to the development of, among others, insulin resistance and type 2 diabetes, cardiovascular disease, non-alcoholic fatty liver disease, altered behavior and cognition, and cancer. Changes in dietary habits and lifestyle could contribute to mitigate the development and/or progression of these pathologies. This review will discuss current evidence on the beneficial actions of the flavan-3-ol (-)-epicatechin (EC) on obesity-associated comorbidities. These benefits can be in part explained through EC's capacity to mitigate several common events underlying the development of these pathologies, including: i) high circulating levels of glucose, lipids and endotoxins; ii) chronic systemic inflammation; iii) tissue endoplasmic reticulum and oxidative stress; iv) insulin resistance; v) mitochondria dysfunction and vi) dysbiosis. The currently known underlying mechanisms and cellular targets of EC's beneficial effects are discussed. While, there is limited evidence from human studies supplementing with pure EC, other studies involving cocoa supplementation in humans, pure EC in rodents and in vitro studies, support a potential beneficial action of EC on obesity-associated comorbidities. This evidence also stresses the need of further research in the field, which would contribute to the development of human dietary strategies to mitigate the adverse consequences of obesity.

Ellagic acid protects Caco-2 cell monolayers against inflammation-induced permeabilization.

Chronic intestinal inflammation involves a cycle of oxidative stress, activation of redox sensitive transcription factors, and barrier permeabilization. The latter can lead to systemic inflammation and its associated co-morbidities. Diet can play a major role in the modulation of intestinal inflammation. Among plant bioactives, ellagic acid (EA) was reported to inhibit inflammatory bowel disease in animal models. This work investigated the mechanisms by which EA inhibits tumor necrosis factor alpha (TNFα)-induced inflammation, oxidative stress, and loss of barrier integrity. Caco-2 cells differentiated into an intestinal epithelial cell monolayer were incubated with TNFα (10 ng/ml), in the presence of different EA concentrations. TNFα triggered interleukin (IL) 6 and 8 release into the medium, which was inhibited by EA in a dose-dependent manner (IC50 = 17.3 µM for IL-6). TNFα also led to: i) increased ICAM-1 and NLRP3 expression; ii) loss of epithelial barrier function; iii) increased oxidant production from NOX and mitochondrial origin; iv) NF-κB and ERK1/2 activation; and v) increased MLCK gene expression and MLC phosphorylation. EA (10-40 µM) inhibited all these adverse effects of TNFα. EA mainly acted through NF-κB and ERK1/2 inhibition, breaking the cycle of inflammation, oxidative stress, redox-sensitive pathway (e.g. NF-κB, ERK1/2) activation and intestinal permeabilization. This suggests that consumption of EA, via foods or supplements, may afford a strategy to mitigate intestinal inflammation and its associated co-morbidities.

Compromiso con el deporte y su relación con el consumo de alcohol en adolescentes y adultos jóvenes / Engagement to sports and its relationship with alcohol consumption in adolescents and young adults / Compromisso com o esporte e sua relação com o consumo de álcool em adolescentes e adultos jovens

El consumo de alcohol representa uno de los problemas más graves de salud pública a nivel global. Si bien se señala al deporte como estrategia mundial efectiva para amortiguar el impacto de esta problemática, los estudios han concluido que no es el deporteper sesino aspectos motivacionales asociados al mismo los que podrían tener efectos protectores. El compromiso con el deporte no ha sido investigado como posible factor protector del consumo de alcohol. OBJETIVO: Indagar la relación entre el compromiso con el deporte y el consumo de alcohol. MÉTODO: Participantes: 362 jóvenes (15 a 29 años) deportistas de Argentina. Instrumentos: Cuestionario socio-demográfico, Cuestionario de Compromiso con el Deporte (AEQ), Cuestionario de Identificación de los Trastornos Debidos al Consumo de Alcohol (AUDIT-C). Procesamiento: Se realizó análisis de varianza y regresión logística con el paquete SPSS V.21. RESULTADOS: los deportistas consumen tanto como los no deportistas, pero quienes presentan mayor energía invertida ensu deporte, presentan una menor frecuencia de consumo actual y de consumo excesivo. Se discuten las implicancias prácticas de estos resultados

Alcohol consumption represents one of the most serious public health problems worldwide. Although sport is indicated as an effective global strategy to cushion the impact of this problem, studies have concluded that it is not sport per se, but motivationalaspects associated with it, that could have protective effects. The engagement with sport has not been investigated as a possible protective factor for alcohol consumption. AIM: To investigate the relationship between engagement with sports and alcohol consumption. METHOD: Participants: 362 young people (15 to 29 years old) athletes from Argentina. Instruments: Socio-demographic questionnaire, Sports Engagement Questionnaire (AEQ), Alcohol Use Disorders Identification Test (AUDIT-C). Processing: Analysis of variance and logistic regression were performed with the SPSS package V.21. RESULTS: athletes consume as much as non-athletes but those who have more energy invested in their sport, have current and excessive consumption less frequently.The practical implications of these results are discussed

O consumo de álcool representa um dos mais sérios problemas de saúde pública no mundo. Embora o esporte seja apontado como uma estratégia global eficaz para amortecer o impacto desse problema, estudos concluíram que não é o esporte per se, mas os aspectos motivacionais associados a ele, que poderiam ter efeitos protetores. O compromisso com o esporte não tem sido investigado como um possível fator de proteção contra o consumo de álcool. OBJETIVO: Investigar a relação entre compromisso com esporte e consumo de álcool. MÉTODO: Participnates: 362 jovens (15 a 29 anos) atletas da Argentina. Instrumentos: Questionário sociodemográfico, Questionário de Compromisso com o Esporte (AEQ), Questionário para Identificação de Distúrbios Devido ao Consumo de Álcool (AUDIT-C). Processamento: A análise de variância e a regressão logística foram realizadas com o pacote SPSS V.21. RESULTADOS: os atletas consomem tanto quanto os não atletas, mas aqueles que têm mais energia investida em seu esporte, apresentam menor frequência de consumo atual e consumo excessivo. As implicações práticas desses resultados são discutidas

(+)-Catechin inhibits heart mitochondrial complex I and nitric oxide synthase: functional consequences on membrane potential and hydrogen peroxide production.

In order to study the in vitro effect of flavan-3-ol (+)-catechin on the enzymatic activities of mitochondrial complex I and nitric oxide synthase (mtNOS), as well as the consequences on the membrane potential and H2O2 production rate, isolated mitochondria from rat heart were exposed to 3 nM to 100 µM (+)-catechin. NADH-Q1 reductase (complex I) and mtNOS activities were inhibited 25% and 50%, respectively, by the addition of 10 nM (+)-catechin to the reaction medium. Moreover, in the nM range, (+)-catechin decreased state 4 mitochondrial membrane potential by about 10 mV, but failed to change the membrane potential measured in the presence of ADP. (+)-Catechin (10 nM) inhibited not only complex I activity, but also the H2O2 production rate (35%) sustained by malate-glutamate, in accordance with the decrease observed in mitochondrial membrane potential. Considering (+)-catechin concentrations lower than 10 nM, linear and positive correlations were obtained between mitochondrial complex I activity and either NO (r2 = 0.973) or H2O2 production rates (r2 = 0.958), suggesting a functional association among these parameters. Altogether, the results indicate that (+)-catechin, at nM concentrations, inhibits mitochondrial complex I activity, leading to membrane potential decline and consequently to reduction in H2O2 and NO production rates. The decrease in mtNOS activity could also be a consequence of the direct action of (+)-catechin on the NOS structure, this effect being in accordance with the functional interaction between complex I and mtNOS, as previously reported.

Aspiraciones vitales y su relación con la pasión en deportistas argentinos seleccionados para los Juegos Olímpicos de la Juventud / Life aspirations and their relationship with passion in Argentine athletes selected for the Youth Olympic Games / Aspirações vitais e sua relação com a paixão, em atletas argentinos selecionados para os Jogos Olímpicos da Juventude

El objetivo de este trabajo fue estudiar las aspiraciones vitales de deportistas adolescentes de alto rendimiento y su relación con la pasión que tienen con respecto a su deporte. Participaron 234 deportistas argentinos (47,9 % varones; 52,1 % mujeres) de entre 12 y 16 años de edad (M = 14,48; DT = 1,09) pertenecientes al Plan de Desarrollo de los Juegos Olímpicos de la Juventud (Buenos Aires, 2018), quienes respondieron un cuestionario sociodemográfico, el Inventario de Aspiraciones vitales y la Escala de Pasión. Los varones obtuvieron puntajes significativamente más altos que las mujeres en las aspiraciones de riqueza y fama, así como también en pasión obsesiva. Para los varones, el crecimiento personal predijo la pasión armoniosa, mientras que para las mujeres, la pasión armoniosa fue predicha por la salud y la contribución a la comunidad. La fama fue la única variable predictora de la pasión obsesiva en el grupo de varones. No hubo un modelo significativo en las mujeres. Por último, los análisis realizados no mostraron diferencias significativas en las variables del estudio en función del tipo de deporte (individual vs. colectivo). Estos resultados confirman los resultados de estudios previos y aportan evidencia acerca del papel de las aspiraciones intrínsecas y extrínsecas para facilitar el compromiso y el desarrollo positivo en el deporte de alto rendimiento adolescente

The aim of this work was to analyze life aspirations of adolescent elite athletes and their relationship with the passion they have with respect to their sport. Participants were 234 Argentine athletes (47.90 % male; 52.10 % female) aged between 12 and 16 years (M = 14.48, SD = 1.09) from National Sport Development Plan (Buenos Aires, 2018) selected to train for the next Youth Olympic Games. All adolescents answered a sociodemographic questionnaire, Aspirations Index and Passion Scale. Results showed that boys had significantly higher scores than girls on wealth and fame aspirations, as well as on obsessive passion, while there were no significant differences depending on the type of sport (individual vs. team). For males, personal growth predicted harmonious passion, while for females, health and community contribution predicted harmonious passion. Fame was the only predictor for obsessive passion in male group. There were no significant predictors for girls' obsessive passion. Finally, analyzes did not show significant differences in the study variables depending on the type of sport (individual vs. team).These results support previous studies about the role of intrinsic and extrinsic aspirations in enabling of engagement and positive development in adolescent elite sports

O objetivo deste trabalho foi estudar as aspirações vitais dos atletas adolescentes em seu desenvolvimento para o alto rendimento e sua relação com a paixão que eles têm em relação ao esporte. Participaram 234 atletas argentinos (47.90 % homens; 52.10 % mulheres) entre 12 e 16 anos (M = 14.48; DT = 1.09) pertencentes ao Plano de Desenvolvimento dos Jogos Olímpicos da Juventude (Buenos Aires, 2018). Eles responderam a um questionário sociodemográfico, ao Inventário de Aspirações vitais e à Escala de Paixão. Os homens tiveram pontuações significativamente mais altas nas aspirações por riqueza e fama, bem como paixão obsessiva, enquanto não houve diferenças de acordo com o tipo de esporte (individual vs. coletivo). Para os homens, o crescimento pessoal previa uma paixão harmoniosa, enquanto para as mulheres, a saúde e a contribuição para a comunidade. A fama foi a única variável preditiva da paixão obsessiva no grupo de homens. Não existe modelo significativo em mulheres. Por último, as análises realizadas não mostraram diferenças significativas nas variáveis do estudo, dependendo do tipo de esporte (individual vs. coletivo).Estes resultados suportam estudos anteriores sobre o papel das aspirações intrínsecas e extrínsecas e fornecem evidências para facilitar o comprometimento e o desenvolvimento positivo em esportes adolescentes de alto desempenho

Biochemical and Morphological Alterations in Hearts of Copper-Deficient Bovines.

Copper deficiency is an important disease of cattle that produces several clinical signs and lesions, due to alterations in copper-dependent enzymes. One of the organs affected by this deficiency is the heart (falling disease), but nevertheless, these cardiac lesions have not been extensively studied in bovines. The aim of this work was to propose a possible pathogenic mechanism for cardiac lesions in cattle affected by copper deficiency. Because of the possible existence of oxidative distress caused by low levels of copper-zinc-superoxide dismutase and cytochrome oxidase, ultrastructural and histological lesions have been evaluated in the heart of bovines in which a Cu deficiency had been induced using high molybdenum and sulfur levels in the diet. Our results indicated that copper deficiency produces significant damage in myocardium with high levels of lipid oxidation and a significant reduction in copper-zinc-superoxide dismutase activity leading to an oxidative distress situation. However, cytochrome oxidase activity was not significantly reduced. Histological observation revealed a significant increase in the amount of connective tissue, enlarged basement membranes of myocytes, and numerous Anichkov cells, in the hearts of deficient animals. Ultrastructural observation showed a significant enhancement in the mitochondrial volume density, with presence of lesions such as swelling and cristae disruption. We conclude that copper deficiency in bovines causes morphological lesions in the heart due to an oxidative damage produced by copper-dependent enzyme alterations.

Hydrogen peroxide, nitric oxide and ATP are molecules involved in cardiac mitochondrial biogenesis in Diabetes.

This study, in an experimental model of type I Diabetes Mellitus in rats, deals with the mitochondrial production rates and steady-state concentrations of H2O2 and NO, and ATP levels as part of a network of signaling molecules involved in heart mitochondrial biogenesis. Sustained hyperglycemia leads to a cardiac compromise against a work overload, in the absence of changes in resting cardiac performance and of heart hypertrophy. Diabetes was induced in male Wistar rats by a single dose of Streptozotocin (STZ, 60mg × kg-1, ip.). After 28 days of STZ-injection, rats were sacrificed and hearts were isolated. The mitochondrial mass (mg mitochondrial protein × g heart-1), determined through cytochrome oxidase activity ratio, was 47% higher in heart from diabetic than from control animals. Stereological analysis of cardiac tissue microphotographs showed an increase in the cytosolic volume occupied by mitochondria (30%) and in the number of mitochondria per unit area (52%), and a decrease in the mean area of each mitochondrion (23%) in diabetic respect to control rats. Additionally, an enhancement (76%) in PGC-1α expression was observed in cardiac tissue of diabetic animals. Moreover, heart mitochondrial H2O2 (127%) and NO (23%) productions and mtNOS expression (132%) were higher, while mitochondrial ATP production rate was lower (~ 40%), concomitantly with a partial-mitochondrial depolarization, in diabetic than in control rats. Changes in mitochondrial H2O2 and NO steady-state concentrations and an imbalance between cellular energy demand and mitochondrial energy transduction could be involved in the signaling pathways that lead to the novo synthesis of mitochondria. However, this compensatory mechanism triggered to restore the mitochondrial and tissue normal activities, did not lead to competent mitochondria capable of supplying the energetic demands in diabetic pathological conditions.

Diabetes impairs heart mitochondrial function without changes in resting cardiac performance.

Diabetes is a chronic disease associated to a cardiac contractile dysfunction that is not attributable to underlying coronary artery disease or hypertension, and could be consequence of a progressive deterioration of mitochondrial function. We hypothesized that impaired mitochondrial function precedes Diabetic Cardiomyopathy. Thus, the aim of this work was to study the cardiac performance and heart mitochondrial function of diabetic rats, using an experimental model of type I Diabetes. Rats were sacrificed after 28days of Streptozotocin injection (STZ, 60mgkg-1, ip.). Heart O2 consumption was declined, mainly due to the impairment of mitochondrial O2 uptake. The mitochondrial dysfunction observed in diabetic animals included the reduction of state 3 respiration (22%), the decline of ADP/O ratio (∼15%) and the decrease of the respiratory complexes activities (22-26%). An enhancement in mitochondrial H2O2 (127%) and NO (23%) production rates and in tyrosine nitration (58%) were observed in heart of diabetic rats, with a decrease in Mn-SOD activity (∼50%). Moreover, a decrease in contractile response (38%), inotropic (37%) and lusitropic (58%) reserves were observed in diabetic rats only after a ß-adrenergic stimulus. Therefore, in conditions of sustained hyperglycemia, heart mitochondrial O2 consumption and oxidative phosphorylation efficiency are decreased, and H2O2 and NO productions are increased, leading to a cardiac compromise against a work overload. This mitochondrial impairment was detected in the absence of heart hypertrophy and of resting cardiac performance changes, suggesting that mitochondrial dysfunction could precede the onset of diabetic cardiac failure, being H2O2, NO and ATP the molecules probably involved in mitochondrion-cytosol signalling.

Mitochondrial nitric oxide production supported by reverse electron transfer.

Heart phosphorylating electron transfer particles (ETPH) produced NO at 1.2 ± 0.1 nmol NO. min(-1) mg protein(-1) by the mtNOS catalyzed reaction. These particles showed a NAD(+) reductase activity of 64 ± 3 nmol min(-1) mg protein(-1) sustained by reverse electron transfer (RET) at expenses of ATP and succinate. The same particles, without NADPH and in conditions of RET produced 0.97 ± 0.07 nmol NO. min(-1) mg protein(-1). Rotenone inhibited NO production supported by RET measured in ETPH and in coupled mitochondria, but did not reduce the activity of recombinant nNOS, indicating that the inhibitory effect of rotenone on NO production is due to an electron flow inhibition and not to a direct action on mtNOS structure. NO production sustained by RET corresponds to 20% of the total amount of NO released from heart coupled mitochondria. A mitochondrial fraction enriched in complex I produced 1.7 ± 0.2 nmol NO. min(-1) mg protein(-1) and reacted with anti-75 kDa complex I subunit and anti-nNOS antibodies, suggesting that complex I and mtNOS are located contiguously. These data show that mitochondrial NO production can be supported by RET, and suggest that mtNOS is next to complex I, reaffirming the idea of a functional association between these proteins.

Nitric oxide interacts with mitochondrial complex III producing antimycin-like effects.

The effect of NO between cytochromes b and c of the mitochondrial respiratory chain were studied using submitochondrial particles (SMP) from bovine heart and GSNO and SPER-NO as NO sources. Succinate-cytochrome c reductase (complex II-III) activity (222 ± 4 nmol/min. mg protein) was inhibited by 51% in the presence of 500 µM GSNO and by 48% in the presence of 30 µM SPER-NO, in both cases at ~1.25 µM NO. Neither GSNO nor SPER-NO were able to inhibit succinate-Q reductase activity (complex II; 220 ± 9 nmol/min. mg protein), showing that NO affects complex III. Complex II-III activity was decreased (36%) when SMP were incubated with l-arginine and mtNOS cofactors, indicating that this effect is also produced by endogenous NO. GSNO (500 µM) reduced cytochrome b562 by 71%, in an [O2] independent manner. Hyperbolic increases in O2(•-) (up to 1.3 ± 0.1 nmol/min. mg protein) and H2O2 (up to 0.64 ± 0.05 nmol/min. mg protein) productions were observed with a maximal effect at 500 µM GSNO. The O2(•-)/H2O2 ratio was 1.98 in accordance with the stoichiometry of the O2(•-) disproportionation. Moreover, H2O2 production was increased by 72-74% when heart coupled mitochondria were exposed to 500 µM GSNO or 30 µM SPER-NO. SMP incubated in the presence of succinate showed an EPR signal (g=1.99) compatible with a stable semiquinone. This EPR signal was increased not only by antimycin but also by GSNO and SPER-NO. These signals were not modified under N2 atmosphere, indicating that they are not a consequence to the effect of NOx species on complex III area. These results show that NO interacts with ubiquinone-cytochrome b area producing antimycin-like effects. This behaviour comprises the inhibition of electron transfer, the interruption of the oxidation of cytochromes b, and the enhancement of [UQH(•)]ss which, in turn, leads to an increase in O2(•-) and H2O2 mitochondrial production rates.

Component-resolved diagnostics in vernal conjunctivitis.

BACKGROUND: Conventional diagnostic tests in allergy are insufficient to clarify the origin of vernal conjunctivitis (VC). OBJECTIVES: To evaluate IgE-mediated hypersensitivity by component-resolved diagnosis (CRD) in tears and serum from patients with VC and to evaluate how to treat patients with identified triggering allergens by specific immunotherapy. METHODS: Patients were divided into 3 groups: (1) patients with VC (25 patients), (2) patients allergic to grass pollen with seasonal allergic conjunctivitis (AC) (50 patients), and (3) healthy blood donors (50 patients). If triggering allergens were detected, specific conventional immunotherapy was administered for 1 year. RESULTS: Twenty-five patients with VC were evaluated. The identified triggering allergens were n Lol p 1 (11 patients), n Cyn d 1 (8 patients), group 4 and 6 grasses (6 patients), and group 5 grasses (5 patients). Prick test and pollen IgE test results were positive in one patient. Clinical improvement was observed in 13 of the 25 patients with VC after 1 year of specific immunotherapy. CONCLUSION: CRD seems to be a more sensitive diagnostic tool compared with prick test and IgE detection. Specific CRD-led immunotherapy may achieve clinical improvements in patients with VC.

Complex I syndrome in myocardial stunning and the effect of adenosine.

Isolated rabbit hearts were exposed to ischemia (I; 15 min) and reperfusion (R; 5-30 min) in a model of stunned myocardium. I/R decreased left-ventricle O(2) consumption (46%) and malate-glutamate-supported mitochondrial state 3 respiration (32%). Activity of complex I was 28% lower after I/R. The pattern observed for the decline in complex I activity was also observed for the reduction in mitochondrial nitric oxide synthase (mtNOS) biochemical (28%) and functional (50%) activities, in accordance with the reported physical and functional interactions between complex I and mtNOS. Malate-glutamate-supported state 4 H(2)O(2) production was increased by 78% after I/R. Rabbit heart Mn-SOD concentration in the mitochondrial matrix (7.4±0.7 µM) was not modified by I/R. Mitochondrial phospholipid oxidation products were increased by 42%, whereas protein oxidation was only slightly increased. I/R produced a marked (70%) enhancement in tyrosine nitration of the mitochondrial proteins. Adenosine attenuated postischemic ventricular dysfunction and protected the heart from the declines in O(2) consumption and in complex I and mtNOS activities and from the enhancement of mitochondrial phospholipid oxidation. Rabbit myocardial stunning is associated with a condition of dysfunctional mitochondria named "complex I syndrome." The beneficial effect of adenosine could be attributed to a better regulation of intracellular cardiomyocyte Ca(2+) concentration.

Mitochondrial nitric oxide metabolism during rat heart adaptation to high altitude: effect of sildenafil, L-NAME, and L-arginine treatments.

Rats submitted to high altitude (Cerro de Pasco, Perú, 4,340 m, Po(2) = 12.2 kPa) for up to 84 days showed a physiological adaptive response with decreased body weight gain (15%), increased right ventricle weight (100%), and increased hematocrit (40%) compared with sea level animals. These classical parameters of adaptation to high altitude were accompanied by an increase in heart mitochondrial enzymes: complexes I-III activity by 34% and mitochondrial nitric oxide synthase (mtNOS) activity and expression by >75%. The hyperbolic increase for mtNOS activity during adaptation to high altitude was similar to the observed pattern for hematocrit. Hematocrit and mtNOS activity mean values correlated linearly (r(2) = 0.75, P