Oxidative and inflammatory status in Type 2 diabetes patients with periodontitis

Aim: To determine the impact of periodontitis on oxidative/inflammatory status and diabetes control in Type 2 diabetes. Materials and Methods: A comparative study of 20 Type 2 diabetes patients with periodontitis [body mass index (BMI) 31+5], 20-age/gender-matched, non-periodontitis Type 2 diabetes controls (BMI 29+6) and 20 non-diabetes periodontitis controls (BMI 25+4) had periodontal examinations and fasting blood samples collected. Oxidative stress was determined by plasma small molecule antioxidant capacity (pSMAC) and protein carbonyl levels; inflammatory status by total/differential leucocytes, fibrinogen and high sensitivity C-reactive protein (hsCRP); diabetes status by fasting glucose, HbA1c, lipid profile, insulin resistance and secretion. Statistical analysis was performed using SPSS. Results: pSMAC was lower (p=0.03) and protein carbonyls higher (p=0.007) in Type 2 diabetes patients with periodontitis compared with those without periodontitis. Periodontitis was associated with significantly higher HbA1c (p=0.002) and fasting glucose levels (p=0.04) and with lower ß-cell function (HOMA-ß; p=0.01) in diabetes patients. Periodontitis had little effect on inflammatory markers or lipid profiles, but Type 2 diabetes patients with periodontitis had higher levels of hsCRP than those without diabetes (p=0.004) and the lowest levels of HDL-cholesterol of all groups. Conclusion: Periodontitis is associated with increased oxidative stress and compromised glycaemic control in Type 2 diabetes patients.

Coral Thermal Tolerance: Tuning Gene Expression to Resist Thermal Stress

The acclimatization capacity of corals is a critical consideration in the persistence of coral reefs under stresses imposed by global climate change. The stress history of corals plays a role in subsequent response to heat stress, but the transcriptomic changes associated with these plastic changes have not been previously explored. In order to identify host transcriptomic changes associated with acquired thermal tolerance in the scleractinian coralAcropora millepora, corals preconditioned to a sub-lethal temperature of 3°C below bleaching threshold temperature were compared to both non-preconditioned corals and untreated controls using a cDNA microarray platform. After eight days of hyperthermal challenge, conditions under which non-preconditioned corals bleached and preconditioned corals (thermal-tolerant) maintained Symbiodinium density, a clear differentiation in the transcriptional profiles was revealed among the condition examined. Among these changes, nine differentially expressed genes separated preconditioned corals from non-preconditioned corals, with 42 genes differentially expressed between control and preconditioned treatments, and 70 genes between non-preconditioned corals and controls. Differentially expressed genes included components of an apoptotic signaling cascade, which suggest the inhibition of apoptosis in preconditioned corals. Additionally, lectins and genes involved in response to oxidative stress were also detected. One dominant pattern was the apparent tuning of gene expression observed between preconditioned and non-preconditioned treatments; that is, differences in expression magnitude were more apparent than differences in the identity of genes differentially expressed. Our work revealed a transcriptomic signature underlying the tolerance associated with coral thermal history, and suggests that understanding the molecular mechanisms behind physiological acclimatization would be critical for the modeling of reefs in impending climate change scenarios.

Acclimatization of the tropical reef coral Acropora millepora to hyperthermal stress

The demise of reef-building corals potentially lies on the horizon, given ongoing climate change amid other anthropogenic environmental stressors. If corals cannot acclimatize or adapt to changing conditions, dramatic declines in the extent and health of the living reefs are expected within the next half century. The primary and proximal global threat to corals is climate change. Reef-building corals are dependent upon a nutritional symbiosis with photosynthetic dinoflagellates belonging to the group Symbiodinium. . The symbiosis between the cnidarian host and algal partner is a stress-sensitive relationship; temperatures just 1°C above normal thermal maxima can result in the breakdown of the symbiosis, resulting in coral bleaching (the loss of Symbiodinium and/or associated photopigments) and ultimately, colony death. As ocean temperatures continue to rise, corals will either acclimatize or adapt to changing conditions, or will perish. By experimentally preconditioning the coral Acropora millepora via sublethal heat treatment, the coral acquired thermal tolerance, resisting bleaching during subsequent hyperthermal stress. The complex nature of the coral holobiont translates to multiple possible explanations for acclimatization: acquired thermal tolerance could potentially originate from the host itself, the Symbiodinium, or from the bacterial community associated with the coral. By examining the type of in hospite Symbiodinium and the bacterial community prior acclimation and after thermal challenge, it is shown that short-term acclimatization is not due to a distinct change in the dinoflagellate or prokaryote community. Though the microbial partnerships remain without considerable flux in preconditioned corals, the host transcriptome is dynamic. One dominant pattern was the apparent tuning of gene expression observed between preconditioned and non-preconditioned treatments, showing a modulated transcriptomic response to stress. Additionally several genes were upregulated in association with thermal tolerance, including antiapoptotic genes, lectins, and oxidative stress response genes. Upstream of two of these thermal tolerance genes, inhibitor of NFκB and mannose-binding lectin, DNA polymorphisms were identified which vary significantly between the northern and southern Great Barrier Reef. The impact of these mutations in putative promoter regions remains to be seen, but variation across thermally-disparate geography serves to generate hypotheses regarding the role of regulatory element evolution in a coral adaptation context.

Sex- and melanism-specific variations in the oxidative status of adult tawny owls in response to manipulated reproductive effort

Funding: This work was supported by the Swiss National Science Foundation [grants PPOA-102913 and 3100AO_120517 to AR and 31003A_124988 to PB). © 2015. Published by The Company of Biologists Ltd.

Survival or death: a dual role of autophagy in stress-induced pericyte loss in diabetic retinopathy

Aims/hypothesis
Intra-retinal extravasation and modification of LDL have been implicated in diabetic retinopathy: autophagy may mediate these effects.
Methods
Immunohistochemistry was used to detect autophagy marker LC3B in human and murine diabetic and non-diabetic retinas. Cultured human retinal capillary pericytes (HRCPs) were treated with in vitro-modified heavily-oxidised glycated LDL (HOG-LDL) vs native LDL (N-LDL) with or without autophagy modulators: green fluorescent protein–LC3 transfection; small interfering RNAs against Beclin-1, c-Jun NH(2)-terminal kinase (JNK) and C/EBP-homologous protein (CHOP); autophagy inhibitor 3-MA (5 mmol/l) and/or caspase inhibitor Z-VAD-fmk (100 μmol/l). Autophagy, cell viability, oxidative stress, endoplasmic reticulum stress, JNK activation, apoptosis and CHOP expression were assessed by western blots, CCK-8 assay and TUNEL assay. Finally, HOG-LDL vs N-LDL were injected intravitreally to STZ-induced diabetic vs control rats (yielding 50 and 200 mg protein/l intravitreal concentration) and, after 7 days, retinas were analysed for ER stress, autophagy and apoptosis.
Results
Intra-retinal autophagy (LC3B staining) was increased in diabetic vs non-diabetic humans and mice. In HRCPs, 50 mg/l HOG-LDL elicited autophagy without altering cell viability, and inhibition of autophagy decreased survival. At 100–200 mg/l, HOG-LDL caused significant cell death, and inhibition of either autophagy or apoptosis improved survival. Further, 25–200 mg/l HOG-LDL dose-dependently induced oxidative and ER stress. JNK activation was implicated in autophagy but not in apoptosis. In diabetic rat retina, 50 mg/l intravitreal HOG-LDL elicited autophagy and ER stress but not apoptosis; 200 mg/l elicited greater ER stress and apoptosis.
Conclusions
Autophagy has a dual role in diabetic retinopathy: under mild stress (50 mg/l HOG-LDL) it is protective; under more severe stress (200 mg/l HOG-LDL) it promotes cell death.

Étude de la nucléophosmine NPM dans la réponse de l’endothélium à un stress oxydant majeur

Le compartiment microvasculaire est une cible importante du stress oxydant qui est un facteur majeur de la dysfonction endothéliale, notamment au cours d’exposition aux rayonnements ionisants. L’altération de l’endothélium induite par le stress oxydant est impliquée dans la toxicité radio-induite des tissus sains. Limiter les dysfonctions endothéliales est donc un enjeu important des traitements radiothérapeutiques actuels. Cet objectif nécessite une meilleure caractérisation de la signalisation du stress oxydant dans les cellules endothéliales. La voie p38 MAPK est incontournable dans la réponse au stress oxydant mais reste encore insuffisamment caractérisée. Par une approche protéomique, nous avons identifié la nucléophosmine (NPM) comme nouveau partenaire de p38 dans le cytoplasme des cellules endothéliales. La phosphatase PP2a est aussi associée à ce complexe NPM/p38. Nos travaux montrent que le stress oxydant (H2O2, 500μM) régule la déphosphorylation de NPM via PP2a, entraine sa dissociation rapide du complexe et favorise sa translocation vers le noyau. De plus, nous montrons que la présence de NPM déphosphorylée au noyau altère la réponse des cellules aux dommages à l’ADN induits par le stress oxydant. Le céramide sphingolipide membranaire est également un facteur important des voies de stress, particulièrement dans les cellules endothéliales. Notre étude aborde donc l’implication de ce sphingolipide dans la régulation de la voie NPM/p38. Une meilleure caractérisation de la voie p38 et de ses acteurs permettra d’identifier de potentielles cibles afin de limiter les dysfonctions endothéliales et leurs conséquences délétères sur les tissus environnants.

Effets du stress oxydatif induit par les rayons UVA et endogène sur la cornée humaine : étude des délétions de l’ADN mitochondrial, des modifications dans la matrice extracellulaire cornéenne et de la dystrophie cornéenne endothéliale de Fuchs

Le stress oxydatif peut provenir de sources exogènes comme les UVA ou de sources endogènes comme la chaîne respiratoire (OXPHOS). L’oxydation des composants cellulaires a été associée avec la dégénération, des phénotypes de vieillissement et des pertes de fonctionnalités des tissus. Les UVA sont les plus efficaces des rayons UV à induire de l’oxydation, tel que démontré par la formation de dommages oxydatifs à l’ADN et par l’apparition de délétions mitochondriales qui en résultent. La délétion mitochondriale de 4977 pb (ADNmtCD4977), la plus commune, et celle de 3895 pb (ADNmt3895) sont deux délétions reliées au photovieillissement cutané et à l’exposition au stress oxydant. Le phénomène de vieillissement dans la peau est bien documenté et se traduit par une dégradation de la matrice extracellulaire, une perte d’élasticité et la formation de rides. Toutefois, peu d’études portent sur la cornée humaine alors qu’elle est un tissu exposé directement aux rayonnements UV au même titre que la peau. Nous avons donc tenté mieux comprendre l’effet de l’oxydation exogène et endogène sur cette structure. L’analyse de la localisation des délétions ADNmtCD4977 et ADNmtCD4977 dans l’oeil humain a permis de révéler qu’elles se concentrent principalement dans le stroma cornéen et s’accumule avec l’âge. Le stroma cornéen est la couche cellulaire qui confère la transparence et la rigidité à la cornée humaine. Ces résultats nous ont suggéré une implication des UVA dans le photovieillissement de la cornée. Nous avons donc entrepris de vérifier les changements liés à l’exposition aux UVA dans le stroma cornéen puisque les UVA sont connus pour causer des altérations à la matrice extracellulaire (ECM) au niveau cutané. Nous avons donc créé un modèle de photovieillisement par une exposition chronique aux UVA sur des kératocytes avec lesquels nous avons fait sécréter une ECM. Nos résultats nous ont démontré qu’une exposition chronique aux UVA cause des altérations à l’ECM cornéen semblable à des phénotypes de photvieillissement. En effet, nous avons dénoté des changements transcriptomiques et protéomiques pour certains collagènes et protéoglycans. Une atteinte aux collagènes par le vieillissement cornéen se traduit entre autres par une rigidification, une opacification et un changement dans son pouvoir réfractif qui mène à une perte de la vision. Par ailleurs, notre avons également investigué l’implication du stress oxydatif dans la dystrophie cornéenne endothéliale de Fuchs (FECD), une maladie dégénérative de l’endothélium cornéen, qui mène à une perte de vision et est une cause principale de greffe cornéenne. L’étiologie de la maladie est encore inconnue, mais le stress oxydatif est soupçonné de jouer un rôle important dans la pathogenèse. Nos résultats ont amené de nouvelles évidences de l’implication de l’oxydation dans la maladie par l’augmentation de la quantité d’ADN mitochondrial et un raccourcissement des télomères dans des explants de cornées pathologiques. Nos résultats nous ont également démontré que la mise en culture de cellules FECD permettait la sélection de cellules fonctionnelles et comparables à des cellules saines en termes de quantité d’ADN mitochondrial et de son intégrité, de sensibilité à l’oxydation et de longueur télomérique. Les résultats obtenus soutiennent ainsi la possibilité d’employer les cellules FECD fonctionnelles sélectionnées pour utilisation en génie tissulaire afin de créer des cornées autologues pour pallier aux manques de greffes cornéennes. Enfin, nos résultats apportent de nouvelles évidences quant à l’implication du stress oxydatif dans le photovieillissement cornéen et dans l’étiologie de la FECD.

Rearing effect of biofloc on antioxidant and antimicrobial transcriptional response in Litopenaeus stylirostris shrimp facing an experimental sub-lethal hydrogen peroxide stress

This study compares the antioxidant and antimicrobial transcriptional expression of blue shrimps reared according to two different systems, BioFloc Technology (BFT) and Clear sea Water (CW) and their differential responses when facing an experimental sublethal hydrogen peroxide stress. After 30 days of rearing, juvenile shrimps were exposed to H2O2 stress at a concentration of 30 ppm during 6 hours. The oxidative stress caused by H2O2 was examined in the digestive glands of the shrimp, in which antioxidant enzyme (AOE) and antimicrobial peptide (AMP) gene expression were analysed by quantitative real-time PCR. Results showed that rearing conditions did not affect the expression of genes encoding AOEs or AMPs. However, H2O2 stress induced a differential response in expression between shrimps from the two rearing treatments (BFT and CW). Comparative analysis of the expression profiles indicates that catalase transcripts were significantly upregulated by H2O2 stress for BFT shrimps while no change was observed for CW shrimps. In contrast, H2O2 caused down-regulation of superoxide dismutase and glutathione transferase transcripts and of the three AMP transcripts studied (penaeidin 2 and 3, and crustin) for CW shrimps, while no effect was observed on BFT shrimp transcript levels. These results suggested that BFT shrimps maintained antioxidant and AMP responses after stress and therefore can effectively protect their cells against oxidative stress, while CW shrimp immune competence seems to decrease after stress.

Parental exposure to the herbicide diuron results in oxidative DNA damage to germinal cells of the Pacific oyster Crassostrea gigas

Chemical pollution by pesticides has been identified as a possible contributing factor to the massive mortality outbreaks observed in Crassostrea gigas for several years. A previous study demonstrated the vertical transmission of DNA damage by subjecting oyster genitors to the herbicide diuron at environmental concentrations during gametogenesis. This trans-generational effect occurs through damage to genitor-exposed gametes, as measured by the comet-assay. The presence of DNA damage in gametes could be linked to the formation of DNA damage in other germ cells. In order to explore this question, the levels and cell distribution of the oxidized base lesion 8-oxodGuo were studied in the gonads of exposed genitors. High-performance liquid chromatography coupled with UV and electrochemical detection analysis showed an increase in 8-oxodGuo levels in both male and female gonads after exposure to diuron. Immunohistochemistry analysis showed the presence of 8-oxodGuo at all stages of male germ cells, from early to mature stages. Conversely, the oxidized base was only present in early germ cell stages in female gonads. These results indicate that male and female genitors underwent oxidative stress following exposure to diuron, resulting in DNA oxidation in both early germ cells and gametes, such as spermatozoa, which could explain the transmission of diuron-induced DNA damage to offspring. Furthermore, immunostaining of early germ cells seems indicates that damages caused by exposure to diuron on germ line not only affect the current sexual cycle but also could affect future gametogenesis.

DNA Damage and Oxidative DNA Damage in Inflammatory Bowel Disease

Background and aims: Inflammation has long been regarded as a major contributor to cellular oxidative damage and to be involved in the promotion of carcinogenesis. Methods: We aimed to investigate the oxidative damage in inflammatory bowel disease [IBD] patients through a case–control and prospective study involving 344 IBD patients and 294 healthy controls. DNA damage and oxidative DNA damage were measured by comet assay techniques, and oxidative stress by plasmatic lipid peroxidation, protein carbonyls, and total antioxidant capacity. Results: Higher DNA damage [p < 0.001] was found both in Crohn’s disease [CD] (9.7 arbitrary units [AU]; interquartile range [IQR]: 6.2–14.0) and ulcerative colitis [UC] [7.1 AU; IQR: 4.4–11.7], when compared with controls [5.4 AU; IQR: 3.8–6.8], and this was also the case with oxidative DNA damage [p < 0.001] [CD: 3.6 AU; IQR: 1.8–6.8; UC: 4.6 AU; IQR: 2.4–8.1], when compared with controls: 2.3 AU; IQR: 1.2–4.2]. Stratifying patients into groups according to therapy (5-aminosalicylic acid [5-ASA], azathioprine, anti-TNF, and combined therapy [azathioprine and anti-TNF]) revealed significant between-group differences in the level of DNA damage, both in CD and UC, with the combined therapy exhibiting the highest DNA damage levels [11.6 AU; IQR: 9.5–14.3, and 12.4 AU; IQR: 10.6–15.0, respectively]. Among CD patients, disease behaviour [B1 and B2], and age at diagnosis over 40 years [A3] stand as risk factors for DNA damage. For UC patients, the risk factors found for DNA damage were disease activity, treatment, age at diagnosis under 40 years [A1 + A2] and disease locations [E2 and E3]. Conclusions: In IBD there is an increase in DNA damage, and treatment, age at diagnosis and inflammatory burden seem to be risk factors.

An Evaluation of Oxidative Status in Serum and Breast Milk of Mothers Giving Birth Prematurely and at Full-Term

Background: Burning fat and carbohydrates to provide energy in biological systems causes the formation of free oxygen species. Objectives: This study aimed to evaluate the oxidative status of serum and breast milk of mothers giving birth prematurely and at full-term. Materials and Methods: The study comprised 50 mothers who gave birth at full-term at more than 38 weeks and 43 mothers who gave birth pre-term at below 32 weeks. On the postnatal 5th day, samples of the mother’s milk and serum were taken and stored at -80°C until the study day. On the study day, the total oxidant and total antioxidant levels were measured using the Erel method and the oxidative stress index (OSI) was calculated. Results: While the total oxidant level and total antioxidant level values of the milk of the premature birth mothers were found to be significantly high compared to those of the full-term birth mothers (P = 0.001), no statistically significant difference was found in the oxidative stress index values (P > 0.05). No statistically significant difference was found in the total oxidant level and oxidative stress index values of the serum of the premature birth mothers compared to those of the full-term birth mothers, while the total antioxidant level was found to be significantly low (P = 0.04). Conclusions: The oxidants and antioxidants in the milk of mothers giving birth prematurely were found to be significantly higher than those of full-term birth mothers. This can be evaluated as the milk of the premature birth mothers providing increased antioxidant defense to protect the infant.

Oxidative Status in Epileptic Children Using Carbamazepine

Background: There is an increasing attention towards the relationship between oxidative stress and epilepsy. The effect of antiepileptic drugs on oxidant status is of major interest. Antiepileptic drugs can increase levels of free radicals, which consequently might lead to seizures. Carbamazepine (CBZ) is an antiepileptic drug commonly used in childhood and adolescence. Objectives: Therefore we aimed to investigate the effects of CBZ on total antioxidant status, total oxidant stress, and oxidative stress index. Patients and Methods: The study included 40 epileptic patients and 31 healthy children between 4 and 12 years of age. Serum CBZ level, total antioxidant capacity and total oxidant status were measured. Oxidative stress index was also calculated both in controls and patients. Results: In the epileptic group, decreased levels of total antioxidant capacity, increased total oxidative stress and oxidative stress index levels were found. Positive correlation between plasma CBZ levels and total oxidant status was observed. Conclusions: Antioxidant action could not be playing any role in antiepileptic effect of CBZ. Furthermore, increased oxidative stress induced by CBZ could be the cause of CBZ-induced seizures. Therefore combining CBZ with antioxidants could be beneficial.

Natural plant polyphenols for alleviating oxidative damage in man: Current status and future perspectives

The balance between oxidation and reduction is important for maintaining a healthy biological system. Oxidative stress results from an imbalance between excessive formation of reactive oxygen species (ROS) and/or reactive nitrogen species (RNS) and limited endogenous defense systems, and this imbalance can adversely alter lipids, proteins and DNA, causing a number of human diseases. Thus, exogenous antioxidants that can neutralize the effect of free radicals are needed to diminish the cumulative effects of oxidative damage over human life span. Current research reveals that phenolic compounds in plants possess high antioxidant activity and free radical scavenging capacity and can prevent the body from oxidative damage over human life span. This review focuses on the present understanding of free radicals and antioxidants and their importance in human health and disease. Information about the chemical features of free radicals as well as their deleterious effects on cell structures is reviewed. The chemical structure and anti-oxidative mechanisms of essential polyphenols and their potential health benefits are presented. In addition, the limitation of natural antioxidants and a perspective on likely future trends in this field are also discussed.

La concentración de calcio iónico se asocia a la presencia de fibrilación auricular post operatoria en pacientes llevados a revascularización miocardica

Objetivo. Determinar en un grupo de pacientes llevados a revascularización miocárdica si existió asociación entre la presencia de niveles de calcio iónico inferiores a 1,1 en las 24 horas del post operatorio y la ocurrencia de fibrilación auricular post operatoria. Metodología. Estudio observacional, analítico de casos y controles, en donde de manera consecutiva se incluyeron 110 sujetos (57 en el grupo de casos con presencia de fibrilación auricular post operatoria y 54 en el grupo de controles sin evidencia de fibrilación auricular) estos sujetos fueron llevados a revascularización miocárdica en la Fundación Cardioinfantil en los años 2010 a 2015. Resultados. Hubo 13 casos de fibrilación auricular post operatoria en pacientes con niveles de calcio iónico inferiores a 1,1 mmol/l en las primeras 24 horas del post operatorio OR: 0,5, IC (0,2-1,2) p: 0,1. Sin determinarse asociación por limitaciones del estudio, sin embargo un 29% de los pacientes con fibrilación auricular tuvieron niveles de calcio inferiores a 1,1 mmol/l en las primeras 24 horas del post operatorio, este valor aumenta a 31% cuando se analizan por separado los valores de calcio obtenidos a las 12 horas. Conclusiones. Aunque no se logró determinar asociación entre la fibrilación auricular post operatoria y las concentraciones de calcio iónico, de manera exploratoria se pudo establecer que un 29% de los pacientes con fibrilación auricular tuvieron concentraciones de calcio iónico inferiores a 1,1 mmol/l, este valor aumenta a 31% cuando se analizan los niveles de calcio iónico por separado.