Ecotoxicological Consequences of Urbanization: A Multi-Biomarker Approach to Assessing Sewage Treatment Plant Effects on Free-Living Birds.

Birds are good bioindicators of disturbance in the environment. They are present in different habitats and trophic levels. In addition, rapid urbanization has led birds to use cities as shelter and for seeking food resources. Sewage treatment plants (STPs) are suitable locations for free-living birds within cities. However, few studies address the impacts of emerging pollutants from sewage treatment plants on wild birds. In this sense, the aim of this study was to analyze the genotoxic, mutagenic, and immunological impacts from metal and pollutant exposure on free-living birds collected at a STP. For comparison, birds were collected in a preserved environment, the Silvania National Forest (FLONA). To achieve this, we used non-destructive biomarkers sensitive to environmental changes. Birds were collected in both environments using mist nets. After collection, birds were weighed, measured, species-identified, and released. Blood was collected for comet assay, micronucleus test, and leukocyte profile, while feathers were collected for metal concentration analysis. Water physicochemical parameters were measured at both sites, and water samples were collected for metal analysis. Our results demonstrated that birds collected at the STP exhibit a higher frequency of genotoxic damage and erythrocyte abnormalities, and increased immune response compared to FLONA birds. Traces of potentially toxic metals, such as Hg and As, were found in the birds feathers from both environments, raising concerns about metal contamination in both environments. Trophic guilds appear to respond similarly to exposure. The parameters and metals found in the water reflect environmental characteristics and may be influencing pollutant availability. Finally, despite the advancement of our findings, studies linking these damages to detrimental effects on behavior and reproduction are encouraged.

Tuning Biocompatibility and Bactericidal Efficacy as a Function of Doping of Gold in ZnO Nanocrystals.

Doping nanoparticles represents a strategy for modulating the energy levels and surface states of nanocrystals (NCs), thereby enhancing their efficiency and mitigating toxicity. Thus, we herein focus on the successful synthesis of pure and gold (Au)-doped zinc oxide (ZnO) nanocrystals (NCs), investigating their physical-chemical properties and evaluating their applicability and toxicity through in vitro and in vivo assessments. The optical, structural, and photocatalytic characteristics of these NCs were scrutinized by using optical absorption (OA), X-ray diffraction (XRD), and methylene blue degradation, respectively. The formation and doping of the NCs were corroborated by the XRD and OA results. While the introduction of Au as a dopant did induce changes in the phase and size of ZnO, a high concentration of Au ions in ZnO led to a reduction in their photocatalytic activity. This demonstrated a restricted antibacterial efficacy against Escherichia coli, Pseudomonas aeruginosa, and Staphylococcus aureus. Remarkably, Au-doped counterparts exhibited enhanced biocompatibility in comparison to ZnO, as evidenced in both in vitro (murine macrophage cells) and in vivo (Drosophila melanogaster) studies. Furthermore, confocal microscopy images showed a high luminescence of Au-doped ZnO NCs in vivo. Thus, this study underscores the potential of Au doping of ZnO NCs as a promising technique to enhance material properties and increase biocompatibility.

Iron and aluminum ore mining pollution induce oxidative and tissue damage on fruit-eating bats from the Atlantic Forest.

Mining, a vital industry for economic growth, poses significant environmental pollution challenges. Failures in tailings dam containment have caused environmental contamination and raised concerns about preserving the globally significant biodiversity in the Atlantic Forest, which is under severe threat. Fruit-eating bats are key for forest regeneration as essential seed dispersers and pollinators. This study focuses on two keystone species, Artibeus lituratus and Sturnira lilium, exploring the effects of iron ore mining area (FEOA) and aluminum ore mining area (ALOA) on these bats, respectively, and comparing to individuals from a preserved Atlantic Forest fragment (FFA). Bats from FEOA showed higher Aluminum (Al), Calcium (Ca), Iron (Fe) and Barium (Ba) liver accumulation, as well as Ca and Fe muscle accumulation. These animals also showed higher liver and kidney oxidative damage associated with liver fibrosis and kidney inflammation. Brain and muscle also showed oxidative stress. Bats from ALOA showed higher Ca and Ba liver accumulation and Ca, Zinc (Zn), and Ba muscle accumulation, along with higher brain oxidative stress, liver fibrosis, and kidney inflammation. Our findings indicate that iron and aluminum ore mining activities cause adverse effects on bat tissues, posing a potential threat to biodiversity maintenance in the Atlantic Forest.

NMR-based metabolomics applied to ecotoxicology with zebrafish (Danio rerio) as a prominent model for metabolic profiling and biomarker discovery: Overviewing the most recent approaches.

Metabolomics is an innovative approach used in the medical, toxicological, and biological sciences. As an interdisciplinary topic, metabolomics and its relation with the environment and toxicological research are extensive. The use of substances, such as drugs and pesticides, contributes to the continuous releasing of xenobiotics into the environment, harming organisms and their habitats. In this context, fish are important bioindicators of the environmental condition and have often been used as model species. Among them, zebrafish (Danio rerio) presents itself as a versatile and straightforward option due to its unique attributes for research. Zebrafish proves to be a valuable model for toxicity assays and also for metabolomics profiling by analytical tools. Thus, NMR-based metabolomics associated with statistical analysis can reasonably assist researchers in critical factors related to discovering and validating biomarkers through accurate diagnosis. Therefore, this review aimed to report the studies that applied zebrafish as a model for (eco)toxicological assays and essentially utilized NMR-based metabolomics analysis to assess the biochemical profile and thus suggest the potential biological marker.

Short-term intake of deltamethrin-contaminated fruit, even at low concentrations, induces testicular damage in fruit-eating bats (Artibeus lituratus).

Deltamethrin (DTM) is a pyrethroid insecticide widely used for agricultural purposes. Exposure to DTM has proven to be harmful to humans, but whether low, environmental concentrations of this pesticide also poses a threat to wild mammals is still unknown. In Neotropical areas, bats play important roles in contributing to forest regeneration. We investigated the effects of DTM exposure on the reproductive function of male Neotropical fruit-eating bats (Artibeus lituratus), known for contributing to reforestation through seed dispersal in Neotropical Forests. Bats were assigned to 3 groups: control (fed with papaya); DTM2 (fed with papaya treated with DTM at 0.02 mg/kg) and DTM4 (fed with papaya treated with DTM at 0.04 mg/kg) for seven days. Bats from DTM2 and DTM4 groups showed increased testicular levels of nitric oxide and superoxide dismutase and catalase activities. The germinal epithelium from DTM4 bats showed non-viable cells and cell desquamation, indicating microscopic lesions and Leydig cells atrophy. Our results demonstrate the onset of cell degeneration that may affect the reproductive function in DTM exposed bats.

Fertility in male rats: Disentangling adverse effects of arsenic compounds.

Arsenic impairs male reproductive functions. However, it is not clear whether different arsenic compounds similarly affect fertility. In this study, we compared the impact of sodium arsenite and arsenate on sperm quality and fertility. After 56 d exposure, male Wistar rats were mated and pregnant females were evaluated by fertility indexes. Clearly, exposure to 10 mg/L arsenite reduced daily sperm production via H2O2 overproduction and germ cells loss. Animals from this group also showed a decrease in epididymal sperm counts and percentage of sperm with intact membranes. Moreover, they presented low fertility potential and high preimplantation loss. In contrast, 10 mg/L arsenate caused oxidative stress in testis, mineral imbalance in epididymis, and sperm membranes damage, with no effects on fertility. Both arsenic compounds at 0.01 mg/L altered reproductive parameters. We concluded that arsenite is more harmful than arsenate to sperm quality and male fertility, with negative influences in early pregnancy.

Euterpe edulis effects on cardiac and renal tissues of Wistar rats fed with cafeteria diet.

INTRODUCTION: This study's objective was to evaluate the antioxidant and toxic effects of E. edulison cardiac and renal tissues of Wistar rats fed with cafeteria diet. METHODS: Catalase (CAT), glutathione-S-transferase (GST), superoxide dismutase (SOD) and malondialdehyde (MDA) were measured in cardiac muscle and renal tissue of 60 animals, which were randomly assigned for 10 equal groups. Half of the rats were fed with cafeteria diet and the other half with commercial chow, combined or not to E. edulislyophilized extract, E. edulis deffated lyophilized extract or E. edulisoil. Data were evaluated using ANOVA, followed by the Student-Newman-Keuls test. RESULTS: Data showed a significant increase of CAT activity in cardiac tissue of animals from the groups fed with cafeteria diet associated to E. edulis lyophilized extract at 5%, E. edulis lyophilized extract at 10% and E. edulis deffated lyophilized extract at 10%. In addition, the same result was found in animals from the groups fed with commercial chow and commercial chow combined with E. edulislyophilized extract at 10% in comparison to the group fed exclusively with cafeteria diet. GST and SOD enzyme activity showed significant increase in the heart tissue of animals nourished with commercial chow when compared to the groups fed with cafeteria diet. On the other hand, there were no significant differences enzymatic levels in renal tissues. CONCLUSION: The oil and the extract of E. edulishad an important role promoting an increase of antioxidant enzymes levels in cardiac muscle, which prevent the oxidative damage resulting from the cafeteria diet in Wistar rats. There were no evidenced signs of lipid peroxidation in renal or in cardiac tissue of the animals studied, indicating that the E. edulisuse did not promote any increase in malondialdehyde cytotoxic products formation. This show that both E. edulis oil and extracts evaluated in this study were well tolerated in the studied doses.

Euterpe edulis effects on cardiac and renal tissues of Wistar rats fed with cafeteria diet / Efectos de Euterpe edulis en los tejidos cardiacos y renales de ratas Wistar alimentadas con dieta de cafetería

Introduction: This study’s objective was to evaluate the antioxidant and toxic effects of E. edulis on cardiac and renal tissues of Wistar rats fed with cafeteria diet. Methods: Catalase (CAT), glutathione-S-transferase (GST), superoxide dismutase (SOD) and malondialdehyde (MDA) were measured in cardiac muscle and renal tissue of 60 animals, which were randomly assigned for 10 equal groups. Half of the rats were fed with cafeteria diet and the other half with commercial chow, combined or not to E. edulis lyophilized extract, E. edulis deffated lyophilized extract or E. edulis oil. Data were evaluated using ANOVA, followed by the Student-Newman-Keuls test. Results: Data showed a signifi cant increase of CAT activity in cardiac tissue of animals from the groups fed with cafeteria diet associated to E. edulis lyophilized extract at 5%, E. edulis lyophilized extract at 10% and E. edulis deffated lyophilized extract at 10%. In addition, the same result was found in animals from the groups fed with commercial chow and commercial chow combined with E. edulis lyophilized extract at 10% in comparison to the group fed exclusively with cafeteria diet. GST and SOD enzyme activity showed significant increase in the heart tissue of animals nourished with commercial chow when compared to the groups fed with cafeteria diet. On the other hand, there were no significant differences enzymatic levels in renal tissues. Conclusion: The oil and the extract of E. edulis had an important role promoting an increase of antioxidant enzymes levels in cardiac muscle, which prevent the oxidative damage resulting from the cafeteria diet in Wistar rats. There were no evidenced signs of lipid peroxidation in renal or in cardiac tissue of the animals studied, indicating that the E. edulis use did not promote any increase in malondialdehyde cytotoxic products formation. This show that both E. edulis oil and extracts evaluated in this study were well tolerated in the studied doses (AU)

Introducción: el objetivo de este estudio fue evaluar los efectos antioxidantes y tóxicos de E. edulis en los tejidos cardiacos y renales de ratas Wistar alimentadas con dieta de cafetería. Métodos: catalasa (CAT), glutatión-S-transferasa (GST), superóxido dismutasa (SOD) y malondialdehído (MDA) se midieron en el músculo cardiaco y el tejido renal de 60 animales, que fueron asignados aleatoriamente para 10 grupos iguales. La mitad de las ratas fueron alimentadas con dieta de cafetería y la otra mitad con ración comercial, combinados o no con E. edulis extracto liofilizado, E. edulis GMD obtenidas de extracto liofilizado o aceite de E. edulis. Los datos se evaluaron mediante ANOVA, seguido por el test de Student-Newman-Keuls. Resultados: los datos mostraron un aumento signifi cativo de la actividad de CAT en el tejido cardiaco de los animales de los grupos alimentados con dieta de cafetería asociada a E. edulis extracto liofilizado en un 5%, E. edulis extracto liofilizado en un 10% y E. edulis GMD obtenidas de extracto liofilizado de 10%. Además, el mismo resultado se encuentra en los animales de los grupos alimentados con chow chow comercial y comercial combinado con extracto liofilizado E. edulis en 10% en comparación con el grupo alimentado exclusivamente con dieta de cafetería. La actividad de GST y la enzima SOD mostró un aumento significativo en el tejido del corazón de los animales alimentados con pienso comercial en comparación con los grupos alimentados con dieta de cafetería. Por otro lado, se observaron diferencias significativas en los niveles enzimáticos en los tejidos renales. Conclusión: el aceite y el extracto de E. edulis tuvieron un papel importante al promover un aumento de los niveles de enzimas antioxidantes en el músculo cardiaco, que previenen el daño oxidativo resultante de la dieta de cafetería en ratas Wistar. Los signos de la peroxidación lipídica evidenciados en los riñones o en el tejido cardiaco de los animales estudiados indican que el uso de E. edulis no promovió ningún aumento en la formación de productos citotóxicos malondialdehído, un marcador reconocido de la acción de los radicales libres (AU)