Ralf M. W. Moison

Impaired plasma antioxidative defense and increased nontransferrin-bound iron during high-dose chemotherapy and radiochemotherapy preceding bone marrow transplantation

To analyze the effects of radiochemotherapy on the pro-oxidative/antioxidative balance in plasma, we measured the total radical antioxidant parameter of plasma (TRAP) and single plasma antioxidants (uric acid, sulfhydryl groups, alpha-tocopherol, ubiquinone-10/total coenzyme-Q10 ratio, ascorbate, and bilirubin) every 12 h during high-dose chemotherapy and radiochemotherapy preceding bone marrow transplantation (BMT). Nontransferrin-bound iron (NTBI) was monitored as a potential pro-oxidant. Plasma levels of polyunsaturated fatty acids (PUFA) were measured as substrates, and thiobarbituric acid-reactive substances (TBARS) were measured as products of lipid peroxidation. Allantoin was analyzed as the product of uric acid oxidation. Patients receiving busulfan, VP-16, and cyclophosphamide (BU/VP/CY) (n = 8) were compared with those receiving total body irradiation in addition to VP-16 and cyclophosphamide (TBI/VP/CY) (n = 8). TRAP values were within the normal range before therapy and decreased after BU/VP/CY by 37% (p <. 02) and after TBI/VP/CY by 39% (p <.02). During TBI and after VP-16, a temporary increase in TRAP values occurred, which was not related to changes in individual antioxidants. In vitro experiments confirmed that VP-16 had an antioxidative effect. The concentration of uric acid declined in both groups and correlated with TRAP (BU/VP/CY: r =.80, p <.001; TBI/VP/CY: r =.84, p <.001). Levels of NTBI, which is normally not found in plasma, increased rapidly during conditioning therapy (p <.02 in both groups) and correlated inversely with TRAP (weighted intraindividual Spearman rank correlation coefficient for both groups: NTBI and TRAP: r = -.59, p <.001) and PUFA (in the radiochemotherapy group: r = -.67, p <.001). Whereas PUFA declined (p <.02 in both groups), TBARS increased (p <. 05 in both groups). Furthermore, an increase of allantoin and ubiquinone-10/total coenzyme-Q10 ratio in the BU/VP/CY group was found (allantoin: p <.02; ubiquinone-10/total coenzyme-Q10 ratio: p <.05). Antioxidants only partially recovered to baseline values until day 14 after BMT. Our findings indicate oxidative stress after high-dose radiochemotherapy and suggest a contribution of NTBI therein.

Uric acid and ascorbic acid redox ratios in plasma and tracheal aspirate of preterm babies with acute and chronic lung disease.

This study compared plasma redox ratios of uric acid and ascorbic acid in well preterm babies with those with respiratory distress syndrome (RDS) and chronic lung disease (CLD), and investigated the relationship between these ratios and their respective measurements in tracheal aspirate. On day 1 after birth, plasma allantoin and allantoin/uric acid ratio were elevated in CLD (p < .05), and both markers of oxidative stress enabled early prediction of development of CLD (sensitivity and specificity: 54 and 83%, respectively). The relation between allantoin production and oxidative stress is supported by the correlation between the allantoin level and oxygen therapy in both RDS and CLD (p < .05). Reduced and oxidize ascorbic acid in plasma decreased postnatally in all groups and their redox ratio remained stable. Uric acid and ascorbic acid redox ratios were significantly elevated in tracheal aspirates compared to plasma samples (p < .05), and there was a strong positive correlation between both ratios (p < .005). These markers may be useful in monitoring babies with respiratory distress.

Lipid peroxidation in human milk and infant formula: effect of storage, tube feeding and exposure to phototherapy

Preformed lipid peroxidation products present in the feed may contribute to the total reactive oxygen radical load infants have to deal with and may play a role in the pathogenesis of necrotizing enterocolitis and bronchopulmonary dysplasia. In this study, the occurrence of lipid peroxidation in human milk and feeding formulas for preterm babies was evaluated in vitro. Free linoleic acid (18:2) and its hydroperoxide (18:2OOH) were measured by gas chromatography‐mass spectrometry and the concentration of 18:2OOH and the 18:2OOH/18:2 ratio were used as indices of peroxidation. In all feeds peroxidation products were present, but the proportion of peroxidized 18:2 was greater in infant formula. Storage of human milk (+4°C for four days) increased lipid peroxidation. Exposure to light during tube feeding incrcased pcroxidation in infant formula but not in human milk. Different procedures for preparation, storage and feeding may decrease the concentration of these potentially toxic peroxidized lipids in human milk and infant formula.

Recycling of Glutathione during Oxidative Stress in Erythrocytes of the Newborn

ABSTRACT: The ability of erythrocytes from newborn babies and adults to maintain reduced glutathione levels during oxidative stress was studied. In vitro incubation of erythrocytes with H2O2 with or without inactivation of catalase, caused a rapid depletion of reduced glutathione (GSH) and concomitant accumulation of oxidized glutathione followed by recovery of GSH and fall of oxidized glutathione to initial values in all subjects. Inactivation of catalase resulted in a 50% loss of intracellular glutathione (p < 0.005), a larger maximum GSH depletion (p < 0.05), and a longer GSH recovery time (p < 0.005). Erythrocytes from newborn babies showed a smaller maximum GSH depletion (p < 0.05) and a shorter GSH recovery time (p < 0.005) compared with those from adults. These differences between the newborn and adult groups persisted after inactivation of catalase. An increase in maximum GSH depletion and GSH recovery time (p < 0.005) was observed when a lower hematocrit was used for these GSH recovery studies. Effective glutathione recycling in erythrocytes may protect immature tissues of the newborn baby from peroxidative damage.

Photoprotection by Antioxidants against UVB-Radiation-Induced Damage in Pig Skin Organ Culture

Abstract Rijnkels, J. M., Moison, R. M. W., Podda, E. and Beijersbergen van Henegouwen, G. M. J. Photoprotection by Antioxidants against UVB-Radiation-Induced Damage in Pig Skin Organ Culture. Radiat. Res. 159, 210–217 (2003). Topically applied antioxidants constitute an important group of protective agents against skin damage induced by ultraviolet radiation. The current study was performed to investigate whether a recently developed ex vivo pig skin model was suitable for short-term studies of the mechanism(s) of UVB-radiation-induced skin damage; the protective effect of topical application of α-tocopherol, l-ascorbic acid, α-lipoic acid, glutathione ethylester and N-acetylcysteine was tested. Increasing doses of the antioxidants were applied topically on ex vivo pig skin explants and allowed to penetrate for 60 min. Epidermal antioxidant bioavailability was measured before and 60 min after exposure to an ultraviolet B (UVB) radiation of 7.5 kJ/m2. Cell viability (trypan blue dye exclusion) and apoptosis were measured 48 h later in isolated keratinocytes. UVB-radiation-induced epidermal lipid peroxidation was determined immediately after exposure of the skin to a UVB dose of 28 kJ/m2. All antioxidants tested became bioavailable in pig skin epidermis, and none of them were depleted after UVB-radiation exposure. Increasing doses of the antioxidants tested decreased UVB-radiation-induced cell death and apoptosis. The highest doses of antioxidants prevented UVB-radiation-induced lipid peroxidation; α-lipoic acid only tended to decrease lipid peroxidation. In conclusion, a single topical dose of the above antioxidants on ex vivo pig skin can reduce UVB-radiation-induced oxidative stress and lipid peroxidation and thereby reduce apoptotic stimuli and cell death. Furthermore, the ex vivo pig skin model was a useful tool for testing compounds for their antioxidant activity.

Dietary Eicosapentaenoic Acid Prevents Systemic Immunosuppression in Mice Induced by UVB Radiation

Abstract Moison, R. M. W. and Beijersbergen van Henegouwen, G. M. J. Dietary Eicosapentaenoic Acid Prevents Systemic Immunosuppression in Mice Induced by UVB Radiation. Radiat. Res. 156, 36–44 (2001). Reactive oxygen species (ROS) contribute to the immunosuppression induced by UVB radiation. Omega-3 fatty acids in fish oil, e.g. eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), can modulate immunoresponsiveness, but because of their susceptibility to ROS-induced damage, they can also challenge the epidermal antioxidant defense system. The influence of dietary supplementation with different ω-3 fatty acids on systemic immunosuppression induced in mice by UVB radiation was studied using the contact hypersensitivity response to trinitrochlorobenzene. In an attempt to study the mechanisms involved, UVB-radiation-induced changes in epidermal antioxidant status were also studied. Mice received high-fat (25% w/w) diets enriched with either oleic acid (control diet), EPA, DHA, or EPA + DHA (MaxEPA). Immunosuppression induced by UVB radiation was 53% in mice fed the oleic acid diet and 69% in mice fed the DHA diet. In contrast, immunosuppression was only 4% and 24% in mice fed the EPA and MaxEPA diets, respectively. Increased lipid peroxidation and decreased vitamin E levels (P < 0.05) were found in unirradiated mice fed the MaxEPA and DHA diets. For all diets, exposure to UVB radiation increased lipid peroxidation (P < 0.05), but levels of glutathione (P < 0.05) and vitamin C (P > 0.05) decreased only in the mice given fish oil. UVB irradiation did not influence vitamin E levels. In conclusion, dietary EPA, but not DHA, protects against UVB-radiation-induced immunosuppression in mice. The degree of protection appears to be related to the amount of EPA incorporated and the ability of the epidermis to maintain an adequate antioxidant level after irradiation.

PLASMA PROTEINS IN ACUTE AND CHRONIC LUNG DISEASE OF THE NEWBORN

This study compared plasma levels of albumin, transferrin, and ceruloplasmin in well preterm babies (n = 21) with those with respiratory distress syndrome (RDS, n = 13) and chronic lung disease (CLD, n = 13) over the first 28 postnatal days. Plasma lipid peroxidation, total radical trapping capacity (TRAP assay), and iron binding antioxidant capacity were also measured. In RDS and CLD albumin levels were decreased on days 1, 4 and 10; on day 10 albumin was lower in CLD compared to RDS (p < .05). After day 10 the levels were similar in all groups. The transferrin levels showed a similar trend. Ceruloplasmin levels did not differ, except for a higher day 28 level in CLD (p < .05). Albumin levels significantly decreased with increasing FiO2 and duration of oxygen therapy (within patient r = -0.30, p < .05 and r = -0.51, p < .005, respectively). On day 10, increasing oxygen therapy increased plasma lipid peroxidation (r = +0.49, p < .01), which was also significantly related to lower plasma protein levels (r = -0.42, p < .01). Lower plasma albumin and transferrin lowered the TRAP and iron binding antioxidant capacity, respectively (r = +0.36, p < .05, and r = +0.41, p < .005). Prediction of CLD using day 10 albumin levels had a specificity of 94%, but a sensitivity of only 50%. The interaction between oxygen toxicity and high ventilation pressures in immature babies appears to lower plasma proteins by increasing pulmonary permeability. The lower plasma albumin level was not useful in predicting the development of CLD; however, the fall in plasma transferrin and albumin will further decrease the preventive and chain-breaking antioxidant capacity of plasma of these ill babies.

Topical Antioxidant Vitamins C and E Prevent UVB-Radiation-Induced Peroxidation of Eicosapentaenoic Acid in Pig Skin

Abstract Moison, R. M. W. and Beijersbergen van Henegouwen, G. M. J. Topical Antioxidant Vitamins C and E Prevent UVB-Radiation-Induced Peroxidation of Eicosapentaenoic Acid in Pig Skin. Radiat. Res. 157, 402–409 (2002). Eicosapentaenoic acid protects against UV-radiation-induced immunosuppression and photocarcinogenesis, but it is also prone to oxidative degradation, which may reduce or abolish its beneficial effects. The protective effect of topically applied vitamin E, vitamin C, or both against UVB-radiation-induced lipid peroxidation in the presence of eicosapentaenoic acid was investigated using an ex vivo pig skin model. Changes in the bioavailability of both antioxidants induced by UV radiation were studied in different skin compartments. The UVB-radiation dose used (25 kJ/m2) was similar to that required to induce immunosuppression in BALB/c mice. Exposure of pig skin with an epidermal eicosapentaenoic acid content of 1.0 ± 0.3 mol% to UVB radiation resulted in an 85% increase of epidermal lipid peroxidation (P < 0.005). Topical application of vitamin E or vitamin C 60 min prior to UVB irradiation resulted in a major increase in both antioxidants in the stratum corneum and viable epidermis (P < 0.05). Vitamin E and vitamin C completely protected against UVB-radiation-induced lipid peroxidation (P < 0.005), but compared to vitamin E, a 500-fold higher vitamin C dose was needed. UVB irradiation induced a vitamin E consumption of up to 100% in the stratum corneum and viable epidermis, and a vitamin C consumption of only 21% in the stratum corneum. Simultaneously applied vitamin E and vitamin C also completely protected against UVB-radiation-induced lipid peroxidation (P < 0.05), and lower antioxidant doses were needed compared to vitamin E or vitamin C alone. In the presence of vitamin C, epidermal vitamin E was more stable upon UVB irradiation (P < 0.05), suggesting interaction between vitamin E and vitamin C. In conclusion, topically applied vitamin E and/or vitamin C efficiently protect against UVB-radiation-induced lipid peroxidation in the presence of eicosapentaenoic acid. The beneficial biological effects of eicosapentaenoic acid may therefore be improved if vitamin E and/or vitamin C are present in sufficient amounts. The ex vivo pig skin model provides a useful tool for assessing short-term biochemical effects related to UVB radiation, without the use of living experimental animals.

Topically applied eicosapentaenoic acid protects against local immunosuppression induced by UVB irradiation, cis-urocanic acid and thymidine dinucleotides.

Abstract UVB-induced immunosuppression, a promoter of photocarcinogenesis, involves the formation of pyrimidine dimers and cis-urocanic acid (cis-UCA), but reactive oxygen species (ROS) also plays an important role. Eicosapentaenoic acid (EPA) can inhibit photocarcinogenesis, but due to its polyunsaturated nature it is susceptible to oxidative damage by ROS. The antioxidant defense system may therefore be challenged upon ultraviolet-B (UVB) irradiation in the presence of EPA. We investigated whether topically applied EPA in mice could protect against local immunosuppression (contact hypersensitivity response to dinitrofluorobenzene) induced by UVB radiation (1.5 J/cm2), or topically applied cis-UCA (150 nmol/cm2) or thymidine dinucleotides (pTpT) (5 nmol/cm2). The influence of EPA on epidermal lipid peroxidation and antioxidant status was also measured. UVB irradiation, cis-UCA and pTpT all caused 70% immunosuppression. Topical pretreatment of mice with EPA partially protected against immunosuppression; the EPA dose needed to accomplish this was 10 nmol/cm2 for UVB irradiation, 100 nmol/cm2 for cis-UCA and 1000 nmol/cm2 for pTpT. Higher EPA doses caused higher UVB-induced lipid peroxidation and lower vitamin C levels. Glutathione only decreased with the highest EPA dose whereas vitamin E was not decreased after UVB irradiation. In conclusion, topically applied EPA protects against UVB-, cis-UCA- and pTpT-induced immunosuppression and maintenance of an adequate antioxidant defense seems to be an important prerequisite for the protective action by EPA.

Increased antioxidant potential of combined topical vitamin E and C against lipid peroxidation of eicosapentaenoic acid in pig skin induced by simulated solar radiation

Purpose : To study the protective effect of topically applied vitamin E (TOC), vitamin C (ASC), or a combination of both, against the lipid peroxidation of eicosapentaenoic acid (EPA) induced by simulated solar radiation (SSR). Material and methods : EPA (25 nmol cm -2) was topically applied to pig skin explants, followed by increasing doses of TOC and ASC, either alone or combined. Epidermal lipid peroxidation was assessed after 15 min of exposure to SSR (resulting in a UVA and UVB dose of 18 and 3 kJ m -2, respectively). SSR-induced changes in the levels of TOC and ASC were determined in the stratum cornaeum and the viable epidermis. Results : SSR exposure of EPA-treated pig skin resulted in a twofold increase in epidermal lipid peroxidation (p < 0.005) which was reduced by topically applied TOC or ASC 60 min before SSR exposure (p < 0.05). Compared with TOC (5 nmol cm -2) , a 400-fold higher ASC dose was needed and only TOC provided complete protection against the lipid peroxidation of EPA. The levels of both TOC and ASC clearly increased in both skin compartments by increasing the applied dose of these two compounds (p < 0.05). In contrast to ASC, TOC was consumed by up to 55-70% during SSR exposure (p < 0.05). Compared with separate application, combined TOC and ASC efficiently protected against lipid peroxidation of EPA at doses that were five and 200 times lower, respectively. In the presence of low ASC doses, 70-100% of epidermal TOC was regenerated during SSR exposure (p < 0.05). Conclusions : Topically applied TOC and ASC protect against SSR-induced lipid peroxidation of EPA. The synergism between TOC and ASC resulted in a more efficient protection at substantially lower doses of both antioxidants. Co-supplementation of EPA with TOC and/or ASC might improve the beneficial biological effects of EPA.