Hypothesis-driven dragging of transcriptomic data to analyze proven targeted pathways in Rhinella arenarum larvae exposed to organophosphorus pesticides.

Transcriptional analysis of the network of transcription regulators and target pathways in exposed organisms may be a hard task when their genome remains unknown. The development of hundreds of qPCR assays, including primer design and normalization of the results with the appropriate housekeeping genes, seems an unreachable task. Alternatively, we took advantage of a whole transcriptome study on Rhinella arenarum larvae exposed to the organophosphorus pesticides azinphos-methyl and chlorpyrifos to evaluate the transcriptional effects on a priori selected groups of genes. This approach allowed us to evaluate the effects on hypothesis-selected pathways such as target esterases, detoxifying enzymes, polyamine metabolism and signaling, and regulatory pathways modulating them. We could then compare the responses at the transcriptional level with previously described effects at the enzymatic or metabolic levels to obtain global insight into toxicity-response mechanisms. The effects of both pesticides on the transcript levels of these pathways could be considered moderate, while chlorpyrifos-induced responses were more potent and earlier than those elicited by azinphos-methyl. Finally, we inferred a prevailing downregulation effect of pesticides on signaling pathways and transcription factor transcripts encoding products that modulate/control the polyamine and antioxidant response pathways. We also tested and selected potential housekeeping genes based on those reported for other species. These results allow us to conduct future confirmatory studies on pesticide modulation of gene expression in toad larvae.

Differential effects of azinphos-methyl and chlorpyrifos on polyamine oxidative metabolism during the embryonic development of Rhinella arenarum and its relation to oxidative stress.

The organophosphorus pesticides azinphos-methyl (AZM) and chlorpyrifos (CPF) exert their toxic action by inhibition of acetylcholinesterase, but non-target processes such as polyamine metabolism can also be affected. Our objective was to evaluate the effects of different concentrations of AZM (0.5-, 2- and 9 mg L-1) and CPF (0.5- and 1 mg L-1) on polyamine oxidative metabolism along Rhinella arenarum embryonic development and to explore its relationship to oxidative stress. Free and conjugated polyamines were measured by HPLC. The activity of spermine oxidase (SMOX), N1-acetylpolyamine oxidase (PAOX) and diamine oxidase (DAO) were measured through kinetic spectrofluorometry. Free putrescine and spermine were significantly increased in open mouth embryos exposed to AZM. Free polyamine levels were not affected by CPF exposure. In embryos exposed to AZM, DAO was increased in tail bud stage and SMOX was increased in open mouth stage, while embryos exposed to CPF showed an increase of PAOX activity in tail bud stage and a decrease of DAO and SMOX activity in open mouth stage. Polyamine levels and oxidative degradation enzymes respond differently if R. arenarum embryos are exposed to AZM or CPF, despite that both insecticides belong to the same chemical family. The early increase of DAO and PAOX would play a protective role to guarantee the normal progression of embryonic development. The increased production of reactive species might contribute to an oxidative stress situation generated by exposure to the insecticides and to the alteration of the antioxidant defense system. In tail bud stage embryos, PAOX and SMOX were positively correlated to acetylcholinesterase activity and reduced glutathione levels (GSH), and negatively correlated to the antioxidant enzymes catalase (CAT) and glutathione S-transferase (GST). In complete operculum embryos, a negative correlation between antioxidant parameters and polyamine levels and polyamine oxidative metabolism was observed, except for SMOX, which showed a low positive correlation with CAT and GSH and a negative correlation to PAOX and DAO. We suggest the use of DAO and PAOX as biomarkers of exposure to AZM and CPF, respectively, as they respond earlier than the classical biomarker acetylcholinesterase.

The Rhinella arenarum transcriptome: de novo assembly, annotation and gene prediction.

The common toad Rhinella arenarum is widely distributed in Argentina, where it is utilised as an autochthonous model in ecotoxicological research and environmental toxicology. However, the lack of a reference genome makes molecular assays and gene expression studies difficult to carry out on this non-model species. To address this issue, we performed a genome-wide transcriptome analysis on R. arenarum larvae through massive RNA sequencing, followed by de novo assembly, annotation, and gene prediction. We obtained 57,407 well-annotated transcripts representing 99.4% of transcriptome completeness (available at http://rhinella.uncoma.edu.ar). We also defined a set of 52,800 high-confidence lncRNA transcripts and demonstrated the reliability of the transcriptome data to perform phylogenetic analysis. Our comprehensive transcriptome analysis of R. arenarum represents a valuable resource to perform functional genomic studies and to identify potential molecular biomarkers in ecotoxicological research.

Sensitivity of Boana pulchella (Anura: Hylidae) Tadpoles to Environmentally Relevant Concentrations of Chlorpyrifos: Effects at the Individual and Biochemical Levels.

We report sublethal effects of environmentally relevant concentrations of chlorpyrifos at the individual (swimming alterations) and biochemical (esterase activities and antioxidant enzymes) levels in the Montevideo tree frog Boana pulchella larvae. The 50% lethal concentration at 96 h (LC50-96h) for chlorpyrifos in stage-29 B. pulchella tadpoles was 0.98 mg/L, which was close to the 65th percentile of published anuran species sensitivity. In B. pulchella, chlorpyrifos disrupted biochemical processes: tadpoles showed a significant inhibition of esterase activity and a significant induction of antioxidant enzymes, indicating a response to an environmental challenge causing oxidative stress. Using principal components analysis, we could associate chlorpyrifos reduction in esterase activity with swimming alterations at 0.5 mg/L of the toxicant. The biochemical biomarkers reported in the present study respond at levels 20 times lower than the LC50-96h and were associated with a biologically important response-swimming behavior. The link of responses across different levels of biological organization was demonstrated. The species is suitable as a model for ecotoxicological studies at different levels, including the individual and biochemical levels, and may be considered a good reference organism in environmental control programs. Environ Toxicol Chem 2020;39:834-841. © 2020 SETAC.

Arsenic absorption and excretion in chronically exposed developing toad Rhinella arenarum.

We assessed the toxicodynamics of As in developing Rhinella arenarum toad embryos and larvae exposed from fertilization to 0.01-10mgAsL-1. We determined As content in toad embryos and larvae by X-ray fluorescence spectrometry. Toad embryos and larvae actively bioaccumulated As, reaching tissue concentrations more than one-thousand higher than control levels after 23d-exposure to 10mgAsL-1. The bioconcentration factors also increased up to fifty times higher levels in toad larvae respect to media levels. Once recovered in As-free media, the larvae rapidly excreted the bioaccumulated As with a half-life of 1.6d. By calcein transport competition assays, we infer that As is excreted through ABCC-like transporters, probably conjugated with GSH. These results are relevant for comprehending the risks posed by As exposure in this autochthonous aquatic species that develops in water courses from Argentina, that may contain As levels ranging between 10-15,000µgL-1.

Molecular effectors in the chronic exposure to arsenic as early and sensitive biomarkers in developing Rhinella arenarum toads.

Arsenic, a natural element of ecological relevance, is one of the most toxic elements present in various regions of the world. It can be found in natural water sources throughout Argentina in concentrations between 0.01 and 15mgL-1. The Argentinean autochthonous toad Rhinella arenarum was selected to study the molecular mechanisms involved in the effects and response to the chronic As exposure along its embryonic and larval development. We evaluated the effects on MAPK signal transduction pathway and transcription factors c-FOS and c-JUN, and the regulation of the expression at protein levels of different antioxidant enzymes. Our results indicated that As is modulating the MAPK pathway, increasing MEK and ERK levels both in the nuclear and post-nuclear fraction along the embryonic development and mainly at the beginning of the larval stage. Through this pathway, As can upregulate transcription factors like c-FOS and c-JUN, impacting the antioxidant response of the exposed embryos and larvae through antioxidant enzymes and recycling of GSH. Arsenic triggered specifically the synthesis of antioxidant enzymes in exposed R. arenarum embryo and larvae. In particular, the expression levels of SOD, CAT and GST enzymes analyzed by Western blot showed a similar behavior to their enzymatic activities in our previous work. This fact suggests that not only the synthesis of these antioxidant enzymes but also their rapid degradation after inactivation would be regulated in response to ROS levels. Antioxidant enzymes may show dual responses of induction and inactivation followed by degradation depending on the levels of oxidative stress and impact on ROS targets when the exposure is sustained in time and intensity. We also performed a probability of exceedence analysis including our previous results to visualize a progression of the response in time and also established the best early-responding biomarkers at the lowest As concentrations. As a conclusion, the molecular biomarkers such as the MAPKs MEK and ERK and transcription factors c-FOS and c-JUN are early induced in the response of developing toad embryos exposed to very low As concentrations in water. The advantage of counting with molecular biomarkers early responding to low concentrations of As in a chronic exposure is that they may anticipate the irreversible damage at later developmental stages due to the constant oxidative challenge.

Chronic toxicity of arsenic during Rhinella arenarum embryonic and larval development: Potential biomarkers of oxidative stress and antioxidant response.

The Argentinean autochthonous toad Rhinella arenarum was selected to study the chronic toxicity of arsenic (As) and the biochemical responses elicited by exposure to As in water during embryonic and larval development. Significant decreases in the total reactive antioxidant potential and in catalase activity were observed in individuals exposed chronically to sublethal concentrations of As, which is indicative of an oxidative stress situation. However, an antioxidant response was elicited during chronic exposure to As, as evidenced by the increase in endogenous reduced glutathione content and glutathione-related enzymatic activities such as glutathione S-transferase (GST) and glutathione reductase. This protective response might prevent a deeper decline in the antioxidant system and further oxidative damage. Alternatively, it might be linked to As conjugation with reduced glutathione for its excretion. Considering the sustained increase in GST activity and the decrease in the total antioxidant reactive potential observed, the authors propose them as good candidates to be used as biomarkers during As exposure. Interestingly, glutathione reductase activity was inhibited at a very low concentration of As considered safe for aquatic life. Environ Toxicol Chem 2017;36:1614-1621. © 2016 SETAC.

Toxicity of the insecticide chlorpyrifos to the South American toad Rhinella arenarum at larval developmental stage.

Chlorpyrifos (CPF) is an insecticide widely used for pest control in the fruit-productive region of North Patagonia, Argentina, where it is found in superficial waters. The aim of this study was to establish the toxic effects of CPF in Rhinella arenarum toad larvae as a potentially exposed species. We determined the 96 h-LC50 (1.46 ± 0.27 mg/L), the LOEC (0.81 mg/L, LC10) and NOEC (0.43 mg/L, LC1) for CPF lethality as endpoint. We also analyzed biochemical biomarkers in larvae exposed to sublethal CPF concentrations. The IC50 for cholinesterase was 0.113 ± 0.026 mg/L, one order of magnitude lower than the LC50. Carboxylesterase activity was inhibited, buffering OP toxicity on cholinesterase. Reduced glutathione increased after 24h as an antioxidant response, and decreased at 96 h together with catalase activity, due to oxidative stress. These biochemical effects suggest that environmentally relevant CPF concentrations pose a threat to R. arenarum larvae progression.

Acute toxicity of arsenic and oxidative stress responses in the embryonic development of the common South American toad Rhinella arenarum.

Arsenic (As), a natural element of ecological relevance, is found in natural water sources throughout Argentina in concentrations between 0.01 mg/L and 15 mg/L. The autochthonous toad Rhinella arenarum was selected to study the acute toxicity of As and the biochemical responses elicited by the exposure to As in water during its embryonic development. The median lethal concentration (LC50) value averaged 24.3 mg/L As and remained constant along the embryonic development. However, As toxicity drastically decreased when embryos were exposed from heartbeat-stage on day 4 of development, suggesting the onset of detoxification mechanisms. Given the environmental concentrations of As in Argentina, there is a probability of exceeding lethal levels at 1% of sites. Arsenic at sublethal concentrations caused a significant decrease in the total antioxidant potential but generated an increase in endogenous glutathione (GSH) content and glutathione S-transferase (GST) activity. This protective response might prevent a deeper decline in the antioxidant system and further oxidative damage. Alternatively, it might be linked to As conjugation with GSH for its excretion. The authors conclude that toad embryos are more sensitive to As during early developmental stages and that relatively high concentrations of this toxic element are required to elicit mortality, but oxidative stress may be an adverse effect at sublethal concentrations.

Developmental and polyamine metabolism alterations in Rhinella arenarum embryos exposed to the organophosphate chlorpyrifos.

Organophosphorus pesticides (OPs) are widely applied in the Alto Valle of Río Negro and Neuquén, Argentina, due to intensive fruit growing. Amphibians are particularly sensitive to environmental pollution, and OPs may transiently accumulate in ponds and channels of the region during their reproductive season. Organophosphorus pesticide exposure may alter amphibian embryonic development and the reproductive success of autochthonous species. In the present study, embryos of the common toad Rhinella arenarum were employed to assess developmental alterations and to study polyamine metabolism, which is essential to normal growth, as a possible target underlying the effects of the OP chlorpyrifos. As the duration of chlorpyrifos exposure increased and embryonic development progressed, the median lethal concentration (LC50) values decreased, and the percentage of malformed embryos increased. Developmental arrest was also observed and several morphological alterations were recorded, such as incomplete and abnormal closure of the neural tube, dorsal curvature of the caudal fin, reduction of body size and caudal fin length, atrophy, and edema. An early decrease in ornithine decarboxylase (ODC) activity and polyamine levels was also observed in embryos exposed to chlorpyrifos. The decrease in polyamine contents in tail bud embryos might be a consequence of the reduction in ODC activity. The alteration of polyamine metabolism occurred before embryonic growth was interrupted and embryonic malformations were observed and may be useful as a biomarker in environmental studies.

Effects of azinphos methyl and carbaryl on Rhinella arenarum larvae esterases and antioxidant enzymes.

Organophosphate (OP) and carbamate pesticides are anticholinesterasic agents also able to alter antioxidant defenses in different organisms. Amphibian larvae are naturally exposed to these pesticides in their aquatic environments located within agricultural areas. We studied the effect of the carbamate carbaryl (CB) and the OP azinphos methyl (AM), compounds extensively used in Northern Patagonian agricultural areas, on reduced glutathione (GSH) levels and the activities of esterases and antioxidant enzymes of the toad Rhinella arenarum larvae. Larvae were exposed 48 h to AM 3 and 6 mg/L or CB 10 and 20 mg/L. Cholinesterase and carboxylesterases were strongly inhibited by CB and AM. In insecticide-exposed larvae, carboxylesterases may serve as alternative targets protecting cholinesterase from inhibition. GSH-S-transferase (GST) activity was significantly increased by CB and AM. Superoxide dismutase activity increased in tadpoles exposed to 6 mg/L AM. Conversely, catalase (CAT) was significantly inhibited by both pesticides. GSH levels, GSH reductase and GSH peroxidase activities were not significantly affected by pesticide exposure. GST increase constitutes an important adaptive response to CB and AM exposure, as this enzyme has been related to pesticide tolerance in amphibian larvae. Besides, the ability to sustain GSH levels in spite of CAT inhibition indicates quite a good antioxidant response. In R. arenarum larvae, CAT and GST activities together with esterases could be used as biomarkers of CB and AM exposure.

Alteraciones del desarrollo embrionario, poliaminas y estrés oxidativo inducidos por plaguicidas organofosforados en Rhinella arenarum / Alterations in embryonic development, polyamines and oxidative stress induced by organophosphates in Rhinella arenarum

Los plaguicidas organofosforados (OP) son masivamente aplicados en el Alto Valle de Río Negro y Neuquén, afectando al ecosistema. Utilizamos un modelo embrionario de anfibios (Rhinella arenarum) para estudiar mecanismos por los cuales OP como metilazinfos (MA) y clorpirifos (CP) podrían provocar teratogénesis. Los embriones fueron desarrollados en diferentes concentraciones de MA o CP hasta opérculo completo (OC), analizando: malformaciones, histología, glutatión reducido (GSH) y enzimas antioxidantes, poliaminas, actividad de ornitina-decarboxilasa (ODC) y proteínaquinasa-C (PKC). Ambos OP provocaron un incremento tiempo/concentración-dependiente de malformaciones, llegando a 100% de teratogénesis en estadios avanzados y a las mayores concentraciones, incluyendo: exogastrulación, curvaturas de aleta caudal, acortamiento axial, edema, y atrofia branquial. Se evidenció una condición de estrés oxidativo creciente: las enzimas GSH-dependientes (S-transferasa (GST), peroxidasa y reductasa) fueron inducidas tempranamente a bajas concentraciones, pero inhibidas en elestadio de OC a altas concentraciones, junto con una caída significativa de GSH (62%) para MA. MA incrementó significativamente (18X) la actividad de ODC en OC, aumentando los niveles de putrescina (60%) pero disminuyendo espermidina (56%) y espermina (100%); CP disminuyó en estadios tempranos la actividad de ODC y niveles de poliaminas. La disminución de poliaminas podría deberse al incremento de degradación por poliamino-oxidasa, contribuyendo al estrés oxidativo inducido por OP. Esto causaría la disminución de GSH, y la activación de PKC en OC (55%), que participaría en el control positivo de GST y ODC. Finalmente, el estrés oxidativo y la disminución en los niveles de poliaminas podrían ser causantes de alteraciones del desarrollo embrionario.(AU)

Organophosphate (OP) pesticides are widely applied in the region of Alto Valle de Río Negro y Neuquén, affecting the ecosystem. We use an amphibian embryonic model (Rhinella arenarum) in order to assess the mechanisms by which the OP pesticides azinphos methyl (AM) and chlorpyrifos (CP) could cause teratogenesis. The embryos were developed in different concentrations of AM or CP until they reached the stage of complete operculum (CO). We analyzed malformations, histology, reduced gluthatione content (GSH) and activity of antioxidant enzymes, polyamine content, ornithine decarboxilase (ODC) and protein kinase C (PKC) activities. Both OP pesticides caused a time-and dose-dependent increase in the number of malformations, reaching 100% teratogenesis in late embryonic development at the highest OP concentrations used. Malformations assessed include exogastrulation, caudalfin curvature, axial shortening, edema, and gill atrophy. Increasing evidence of oxidative stress was observed: GSH dependent enzymes (S- transferase, GST; peroxidase and reductase) were early induced in embryos exposed to low concentrations of the OP pesticides, but their activities were inhibited in the stage of CO at high concentrations of OP. These changes were accompanied by a significant decrease in GSH content (62%) in embryos exposed to AM. Besides, AM significantly increased (18X) ODC activity in the stage of CO, along with putrescine levels (60% of increase) but spermidine and spermine levels were significantly decreased (56% and 100%, respectively). The OP pesticide CP caused and early decrease in ODC activity and polyamine levels.The decrease in polyamine levels could be due to an increase in their degradation by polyamine oxidase, contributing to the oxidative stress induced by OP. This, in turn, would cause the decline in GSH levels and the activation of PKC in the embryonic stage of CO (55%), which is involved in the positive feedback of GST and ODC... (AU)

Alteraciones del desarrollo embrionario, poliaminas y estrés oxidativo inducidos por plaguicidas organofosforados en Rhinella arenarum / Alterations in embryonic development, polyamines and oxidative stress induced by organophosphates in Rhinella arenarum

Los plaguicidas organofosforados (OP) son masivamente aplicados en el Alto Valle de Río Negro y Neuquén, afectando al ecosistema. Utilizamos un modelo embrionario de anfibios (Rhinella arenarum) para estudiar mecanismos por los cuales OP como metilazinfos (MA) y clorpirifos (CP) podrían provocar teratogénesis. Los embriones fueron desarrollados en diferentes concentraciones de MA o CP hasta opérculo completo (OC), analizando: malformaciones, histología, glutatión reducido (GSH) y enzimas antioxidantes, poliaminas, actividad de ornitina-decarboxilasa (ODC) y proteínaquinasa-C (PKC). Ambos OP provocaron un incremento tiempo/concentración-dependiente de malformaciones, llegando a 100% de teratogénesis en estadios avanzados y a las mayores concentraciones, incluyendo: exogastrulación, curvaturas de aleta caudal, acortamiento axial, edema, y atrofia branquial. Se evidenció una condición de estrés oxidativo creciente: las enzimas GSH-dependientes (S-transferasa (GST), peroxidasa y reductasa) fueron inducidas tempranamente a bajas concentraciones, pero inhibidas en elestadio de OC a altas concentraciones, junto con una caída significativa de GSH (62%) para MA. MA incrementó significativamente (18X) la actividad de ODC en OC, aumentando los niveles de putrescina (60%) pero disminuyendo espermidina (56%) y espermina (100%); CP disminuyó en estadios tempranos la actividad de ODC y niveles de poliaminas. La disminución de poliaminas podría deberse al incremento de degradación por poliamino-oxidasa, contribuyendo al estrés oxidativo inducido por OP. Esto causaría la disminución de GSH, y la activación de PKC en OC (55%), que participaría en el control positivo de GST y ODC. Finalmente, el estrés oxidativo y la disminución en los niveles de poliaminas podrían ser causantes de alteraciones del desarrollo embrionario.

Organophosphate (OP) pesticides are widely applied in the region of Alto Valle de Río Negro y Neuquén, affecting the ecosystem. We use an amphibian embryonic model (Rhinella arenarum) in order to assess the mechanisms by which the OP pesticides azinphos methyl (AM) and chlorpyrifos (CP) could cause teratogenesis. The embryos were developed in different concentrations of AM or CP until they reached the stage of complete operculum (CO). We analyzed malformations, histology, reduced gluthatione content (GSH) and activity of antioxidant enzymes, polyamine content, ornithine decarboxilase (ODC) and protein kinase C (PKC) activities. Both OP pesticides caused a time-and dose-dependent increase in the number of malformations, reaching 100% teratogenesis in late embryonic development at the highest OP concentrations used. Malformations assessed include exogastrulation, caudalfin curvature, axial shortening, edema, and gill atrophy. Increasing evidence of oxidative stress was observed: GSH dependent enzymes (S- transferase, GST; peroxidase and reductase) were early induced in embryos exposed to low concentrations of the OP pesticides, but their activities were inhibited in the stage of CO at high concentrations of OP. These changes were accompanied by a significant decrease in GSH content (62%) in embryos exposed to AM. Besides, AM significantly increased (18X) ODC activity in the stage of CO, along with putrescine levels (60% of increase) but spermidine and spermine levels were significantly decreased (56% and 100%, respectively). The OP pesticide CP caused and early decrease in ODC activity and polyamine levels.The decrease in polyamine levels could be due to an increase in their degradation by polyamine oxidase, contributing to the oxidative stress induced by OP. This, in turn, would cause the decline in GSH levels and the activation of PKC in the embryonic stage of CO (55%), which is involved in the positive feedback of GST and ODC...

Antioxidant responses to azinphos methyl and carbaryl during the embryonic development of the toad Rhinella (Bufo) arenarum Hensel.

Amphibian embryos are naturally exposed to prooxidant conditions throughout their development. Environmental exposure to contaminants may affect their capacity to respond to challenging conditions, to progress in a normal ontogenesis, and finally to survive and succeed in completing metamorphosis. We studied the effects of the exposure to two anticholinesterase agents, the carbamate carbaryl and the organophosphate azinphos methyl, on the antioxidant defenses of developing embryos of the toad Rhinella (Bufo) arenarum. Reduced glutathione (GSH) levels were increased early by carbaryl, but were decreased by both pesticides at the end of embryonic development. The GSH-dependent enzymes glutathione reductase and glutathione peroxidases showed oscillating activity patterns that could be attributed to an induction of activity in response to oxidative stress and inactivation by excess of reactive oxygen species. Glutathione-S-transferases, which may participate in the conjugation of lipid peroxide products in addition to pesticide detoxification, showed an increase of activity at the beginning and at the end of development. Catalase also showed variations in the activity suggesting, successively, induction and inactivation in response to pesticide exposure-induced oxidative stress. Superoxide dismutase activity was increased by carbaryl and transiently decreased by azinphos methyl exposure. Judging from the depletion in GSH levels and glutathione reductase inhibition at the end of embryonic development, the oxidative stress caused by azinphos methyl seemed to be greater than that caused by carbaryl, which might be in turn related with a higher number of developmental alterations caused by the organophosphate. GSH content is a good biomarker of oxidative stress in the developing embryos exposed to pesticides. The antioxidant enzymes are in turn revealing the balance between their protective capacity and the oxidative damage to the enzyme molecules, decreasing their activity.

La Salud de los " niños en situación de calle " una problemática de hoy / Health for homeless children: a today´s problem

La atención de la salud de niños en situación de calle plantea numerosos desafíos. Los niños y adolescentes en situación de calle no son los pacientes que asistimos tradicionalmente en consultorios o salas de internación. El conocimiento de la nueva Ley de la Promoción y Protección Integral de los derechos de los niños (Ley 13.298) involucra y compromete a todo el equipo de salud y los transforma en ôco-responsableö a la hora de promover, proteger y restituir los derechos de los niños. Desde el punto de vista de los médicos la asistencia óptima de estos niños requiere sobre todo de programas organizados y equipos interdisciplinarios. El problema básico de los niños sin hogar, como es evidente, no puede ser resuelto solo por los médicos.La solución no es un imposible, para ello debemos sensibilizar, informar y comprometer en la tarea, no solo a pediatras, teniendo como horizonte un futuro mejor para nuestros niños.

La salud de los " niños en situación de calle " una problemática de hoy / Health for homeless children: a today´s problem

La atención de la salud de niños en situación de calle plantea numerosos desafíos. Los niños y adolescentes en situación de calle no son los pacientes que asistimos tradicionalmente en consultorios o salas de internación. El conocimiento de la nueva Ley de la Promoción y Protección Integral de los derechos de los niños (Ley 13.298) involucra y compromete a todo el equipo de salud y los transforma en “co-responsable” a la hora de promover, proteger y restituir los derechos de los niños. Desde el punto de vista de los médicos la asistencia óptima de estos niños requiere sobre todo de programas organizados y equipos interdisciplinarios. El problema básico de los niños sin hogar, como es evidente, no puede ser resuelto solo por los médicos.La solución no es un imposible, para ello debemos sensibilizar, informar y comprometer en la tarea, no solo a pediatras, teniendo como horizonte un futuro mejor para nuestros niños.

Changes in the antioxidant metabolism in the embryonic development of the common South American toad Bufo arenarum: differential responses to pesticide in early embryos and autonomous-feeding larvae.

Amphibians may be critically challenged by aquatic contaminants during their embryonic development. Many classes of compounds, including organophosphorus pesticides, are able to cause oxidative stress that affects the delicate cellular redox balance regulating tissue modeling. We determined the progression of antioxidant defenses during the embryonic development of the South American common toad, Bufo arenarum. Superoxide dismutase (SOD) and catalase (CAT) activities were high in the unfertilized eggs, and remained constant during the first stages of development. SOD showed a significant increase when the gills were completely active and opercular folds began to form. Reductase (GR) activity was low in the oocytes and increased significantly when gills and mouth were entirely developed and the embryos presented a higher exposure to pro-oxidant conditions suggesting an environmental control. Reduced glutathione (GSH) content was also initially low, and rose continuously pointing out an increasing participation of GSH-related enzymes in the control of oxidative stress. GSH peroxidases and GSH-S-transferases showed relatively high and constant activities, probably related to lipid peroxide control. B. arenarum embryos have plenty of yolk platelets containing lipids, which provide the energy and are actively transferred to the newly synthesized membranes during the early embryonic development. Exposure to the pro-oxidant pesticide malathion during 48 h did not significantly affect the activity of antioxidant enzymes in early embryos, but decreased the activities of CAT, GR, and the pool of GSH in larvae. Previous work indicated that lipid peroxide levels were kept low in malathion-exposed larvae, thus we conclude that oxidative stress is overcome by the antioxidant defenses. The increase in the antioxidant metabolism observed in the posthatching phase of development of B. arenarum embryo, thus constitutes a defense against natural and human-generated pro-oxidants present in the aquatic environment.