Early stress exposure on zebrafish development: effects on survival, malformations and molecular alterations.

The effects of stress during early vertebrate development can be especially harmful. Avoiding stressors in fish larvae is essential to ensure the health of adult fish and their reproductive performance and overall production. We examined the consequences of direct exposure to successive acute stressors during early development, including their effects on miR-29a and its targets, survival, hatching and malformation rates, larval behaviour and cartilage and eye development. Our aim was to shed light on the pleiotropic effects of early-induced stress in this vertebrate model species. Our results showed that direct exposure to successive acute stressors during early development significantly upregulated miR-29a and downregulated essential collagen transcripts col2a1a, col6a2 and col11a1a, decreased survival and increased malformation rates (swim bladder, otoliths, cardiac oedema and ocular malformations), promoting higher rates of immobility in larvae. Our results revealed that stress in early stages can induce different eye tissular architecture and cranioencephalic cartilage development alterations. Our research contributes to the understanding of the impact of stressful conditions during the early stages of zebrafish development, serving as a valuable model for vertebrate research. This holds paramount significance in the fields of developmental biology and aquaculture and also highlights miR-29a as a potential molecular marker for assessing novel larval rearing programmes in teleost species.

Manejo multidisciplinario en un caso refractario de obstrucción intestinal maligna / Multidisciplinary management in a refractory case of malignant intestinal obstruction

Se denomina obstrucción intestinal maligna (OIM) a aquella alteración del tránsito intestinal por obstrucción mecánica o funcional, que genera alteración de la motilidad y acumulación de secreciones, causada por tumores malignos. Es una urgencia oncológica y paliativa de difícil manejo, esta entidad representa un reto para el equipo de salud, debido al gran impacto sobre la calidad de vida del paciente y su familia. Se presenta el caso de una paciente femenina de 73 años, con características clínicas de obstrucción intestinal maligna, evaluada inicialmente por oncología médica quienes diagnostican carcinoma seroso de alto grado de ovario y carcinomatosis peritoneal, se solicita manejo conjunto con un equipo multidisciplinario para tratar la obstrucción intestinal maligna refractaria a medicación convencional, donde se opta por sedación superficial intermitente; así mismo se aborda preferencias y cuidados de final de vida en domicilio con la paciente y su familia. Este caso es un ejemplo del manejo integral de casos refractarios a la obstrucción intestinal maligna, donde se logra aliviar el sufrimiento del paciente y su familia, cuando la cirugía no es una opción

Malignant intestinal obstruction (MIO) is defined as that alteration of intestinal transit due to mechanical or functional obstruction, which generates impaired motility and accumulation of secretions, caused by malignant tumors. It is an oncological and palliative emergency that is difficult to manage, this entity represents a challenge for the health team, due to the great impact on the quality of life of the patient and his family. The case of a 73-year-old female patient is presented, with clinical characteristics of malignant intestinal obstruction, initially evaluated by medical oncology who diagnosed high-grade serous ovarian carcinoma and peritoneal carcinomatosis, joint management with a multidisciplinary team is requested to treat malignant intestinal obstruction refractory to conventional medication, where intermittent superficial sedation is chosen; Likewise, preferences and end-of-life care at home are addressed with the patient and her family This case is an example of the comprehensive management of cases refractory to malignant intestinal obstruction, where it is possible to alleviate the suffering of the patient and her family, when surgery is not an option

The molecular conformation, but not disaggregation, of humic acid in water solution plays a crucial role in promoting plant development in the natural environment.

Many studies have shown the capacity of soil humic substances (HS) to improve plant growth in natural ecosystems. This effect involves the activation of different processes within the plant at different coordinated molecular, biochemical, and physiological levels. However, the first event triggered by plant root-HS interaction remains unclear. Some studies suggest the hypothesis that the interaction of HS with root exudates involves relevant modification of the molecular conformation of humic self-assembled aggregates, including disaggregation, which might be directly involved in the activation of root responses. To investigate this hypothesis, we have prepared two humic acids. A natural humic acid (HA) and a transformed humic acid obtained from the treatment of HA with fungal laccase (HA enz). We have tested the capacity of the two humic acids to affect plant growth (cucumber and Arabidopsis) and complex Cu. Laccase-treatment did not change the molecular size but increased hydrophobicity, molecular compactness and stability, and rigidity of HA enz. Laccase-treatment avoided the ability of HA to promote shoot- and root-growth in cucumber and Arabidopsis. However, it does not modify Cu complexation features. There is no molecular disaggregation upon the interaction of HA and HA enz with plant roots. The results indicate that the interaction with plant roots induced in both HA and laccase-treated HA (HA enz), changes in their structural features that showed higher compactness and rigidity. These events might result from the interaction of HA and HA enz with specific root exudates that can promote intermolecular crosslinking. In summary, the results indicate that the weakly bond stabilized aggregated conformation (supramolecular-like) of HA plays a crucial role in its ability to promote root and shoot growth. The results also indicate the presence of two main types of HS in the rhizosphere corresponding to those non-interacting with plant roots (forming aggregated molecular assemblies) and those produced after interacting with plant root exudates (forming stable macromolecules).

Humic Acid Alleviates Fe Chlorosis in Graminaceous Plants Through Coordinated Fe-Dependent and Fe-Independent Mechanisms.

Many studies have shown the close relationship between the beneficial action of soil and sedimentary humic acids on the growth of plants cultivated in calcareous soils and their ability to improve Fe plant nutrition. These results have been ascribed to the humic acid (HA) capability to improve Fe solubility and bioavailability. However, other effects more related to a humic acid action on the specific mechanisms activated in roots of plants under Fe deficiency cannot be ruled out. Although this question has been studied in dicotyledonous plants, in graminaceous plants there are no specific studies. Here we investigate the ability of a humic acid extracted from peat (HA) to improve Fe nutrition in wheat plants cultivated under Fe deficient and sufficient conditions. The results show that HA can improve the physiological status of Fe deficient wheat plants by alleviating some of the deleterious consequences of Fe deficiency on plant development and increasing the plant ability to secrete phytosiderophores to the nutrient solution. This action of HA is associated with increases in the Fe-active pool in leaves that might be related to the mobilization of the Fe complexed by HA resulting from the interaction of HA with the phytosiderophores in the nutrient solution. The Fe translocation from the root to the shoot may be favored by the action of trans-Zeatin Riboside (tZR) since the leaf concentration of this phytohormone was enhanced by HA in Fe deficient plants.

Root ABA and H+-ATPase are key players in the root and shoot growth-promoting action of humic acids.

Although the ability of humic (HA) and fulvic acids (FA) to improve plant growth has been demonstrated, knowledge about the mechanisms responsible for the direct effects of HA and FA on the promotion of plant growth is scarce and fragmentary. Our study investigated the causal role of both root PM H+-ATPase activity and ABA in the SHA-promoting action on both root and shoot growth. The involvement of these processes in the regulation of shoot cytokinin concentration and activity was also studied. Our aim was to integrate such plant responses for providing new insights  to the current model on the mode of action of HA for promoting root and shoot growth. Experiments employing specific inhibitors and using Cucumis sativus L. plants show that both the root PM H+-ATPase activity and root ABA play a crucial role in the root growth-promoting action of SHA. With regard to the HA-promoting effects on shoot growth, two pathways of events triggered by the interaction of SHA with plant roots are essential for the increase in root PM H+-ATPase activity-which also mediates an increase in cytokinin concentration and action in the shoot-and the ABA-mediated increase in hydraulic conductivity (Lpr).

Angiocentric Centrofacial Lymphoma as a Challenging Diagnosis in an Elderly Man.

BACKGROUND Angiocentric centrofacial lymphomas, now known as nasal-type extranodal natural killer T-cell lymphomas, are neoplasms of highly destructive characteristics that mainly affect the nasal cavity and palate. The most frequent clinical presentation includes fever, weight loss, nasal obstruction, epistaxis, nasal or facial edema, as well as necrotic ulcers in the nasal cavity, gums, and palate. It has been found to have an important association with the Epstein-Barr virus. Diagnostic pathology could be difficult due to the typical widespread tissue necrosis. CASE REPORT A 72-year-old Caucasian male sought medical attention with a chief complaint of nasal obstruction for the past 3 years, which only responded partially to unspecific treatment. He also presented with intermittent fever and nocturnal hyperhidrosis. Physical examination with rhinoscopy demonstrated a deviated septum, congestive turbines, and fragile and pale mucous membrane with yellowish, thick mucus. The pathology report described an angiocentric centrofacial lymphoma and a positive serology for Epstein-Barr virus. CONCLUSIONS The objective of this case report was to show that this illness represents a diagnostic challenge for the treating physician. It may be concluded that despite the poor prognosis of the disease, this particular case showed slower evolution and the patient remained stable despite multiple consecutive complications.

Shoot iron status and auxin are involved in iron deficiency-induced phytosiderophores release in wheat.

BACKGROUND: The release of phytosiderephores (PS) to the rhizosphere is the main root response to iron (Fe) deficiency in graminaceous plants. We have investigated the role of the Fe status in the shoot as well as of the signaling pathways controlled by three relevant phytoregulators - indolacetic acid (IAA), ethylene and nitric oxide (NO) - in the regulation of this root response in Fe-starved wheat plants. To this end, the PS accumulation in the nutrient solution and the root expression of the genes encoding the nicotianamine aminotransferase (TaNAAT) and ferritin (TaFER) have been evaluated in plants subjected to different treatments. RESULTS: The application of Fe to leaves of Fe-deficient plants prevented the increase in both PS root release and TaNAAT gene expression thus showing the relevant role of the shoot to root communication in the regulation of PS root release and some steps of PS biosynthesis. Experiments with specific hormone inhibitors showed that while ethylene and NO did not positively regulate Fe-deficiency induced PS root release, auxin plays an essential role in the regulation of this process. Moreover, the application of IAA to Fe-sufficient plants promoted both PS root release and TaNAAT gene expression thus indicating that auxin might be involved in the shoot to root signaling network regulating Fe-deficiency root responses in wheat. CONCLUSIONS: These results therefore indicate that PS root release in Fe-deficient wheat plants is directly modulated by the shoot Fe status through signaling pathways involving, among other possible effectors, auxin.

Root-Shoot Signaling crosstalk involved in the shoot growth promoting action of rhizospheric humic acids.

Numerous studies have shown the ability of humic substances to improve plant development. This action is normally reflected in an enhancement of crop yields and quality. However, the mechanisms responsible for this action of humic substances remain rather unknown. Our studies have shown that the shoot promoting action of sedimentary humic acids is dependent of its ability to increase root hydraulic conductivity through signaling pathways related to ABA, which in turn is affected in roots by humic acids in an IAA-NO dependent way. Furthermore, these studies also indicate that the primary action of humic acids in roots might also be physical, resulting from a transient mild stress caused by humic acids associated with a fouling-cleaning cycle of wall cell pores. Finally the role of alternative signal molecules, such as ROS, and corresponding signaling pathways are also discussed and modeled in the context of the above-mentioned framework.

Abscisic Acid Regulation of Root Hydraulic Conductivity and Aquaporin Gene Expression Is Crucial to the Plant Shoot Growth Enhancement Caused by Rhizosphere Humic Acids.

The physiological and metabolic mechanisms behind the humic acid-mediated plant growth enhancement are discussed in detail. Experiments using cucumber (Cucumis sativus) plants show that the shoot growth enhancement caused by a structurally well-characterized humic acid with sedimentary origin is functionally associated with significant increases in abscisic acid (ABA) root concentration and root hydraulic conductivity. Complementary experiments involving a blocking agent of cell wall pores and water root transport (polyethylenglycol) show that increases in root hydraulic conductivity are essential in the shoot growth-promoting action of the model humic acid. Further experiments involving an inhibitor of ABA biosynthesis in root and shoot (fluridone) show that the humic acid-mediated enhancement of both root hydraulic conductivity and shoot growth depended on ABA signaling pathways. These experiments also show that a significant increase in the gene expression of the main root plasma membrane aquaporins is associated with the increase of root hydraulic conductivity caused by the model humic acid. Finally, experimental data suggest that all of these actions of model humic acid on root functionality, which are linked to its beneficial action on plant shoot growth, are likely related to the conformational structure of humic acid in solution and its interaction with the cell wall at the root surface.

Leaf mineral nutrient remobilization during leaf senescence and modulation by nutrient deficiency.

Higher plants have to cope with fluctuating mineral resource availability. However, strategies such as stimulation of root growth, increased transporter activities, and nutrient storage and remobilization have been mostly studied for only a few macronutrients. Leaves of cultivated crops (Zea mays, Brassica napus, Pisum sativum, Triticum aestivum, Hordeum vulgare) and tree species (Quercus robur, Populus nigra, Alnus glutinosa) grown under field conditions were harvested regularly during their life span and analyzed to evaluate the net mobilization of 13 nutrients during leaf senescence. While N was remobilized in all plant species with different efficiencies ranging from 40% (maize) to 90% (wheat), other macronutrients (K-P-S-Mg) were mobilized in most species. Ca and Mn, usually considered as having low phloem mobility were remobilized from leaves in wheat and barley. Leaf content of Cu-Mo-Ni-B-Fe-Zn decreased in some species, as a result of remobilization. Overall, wheat, barley and oak appeared to be the most efficient at remobilization while poplar and maize were the least efficient. Further experiments were performed with rapeseed plants subjected to individual nutrient deficiencies. Compared to field conditions, remobilization from leaves was similar (N-S-Cu) or increased by nutrient deficiency (K-P-Mg) while nutrient deficiency had no effect on Mo-Zn-B-Ca-Mn, which seemed to be non-mobile during leaf senescence under field conditions. However, Ca and Mn were largely mobilized from roots (-97 and -86% of their initial root contents, respectively) to shoots. Differences in remobilization between species and between nutrients are then discussed in relation to a range of putative mechanisms.

Nitrogen assimilation and transpiration: key processes conditioning responsiveness of wheat to elevated [CO2] and temperature.

Although climate scenarios have predicted an increase in [CO(2)] and temperature conditions, to date few experiments have focused on the interaction of [CO(2)] and temperature effects in wheat development. Recent evidence suggests that photosynthetic acclimation is linked to the photorespiration and N assimilation inhibition of plants exposed to elevated CO(2). The main goal of this study was to analyze the effect of interacting [CO(2)] and temperature on leaf photorespiration, C/N metabolism and N transport in wheat plants exposed to elevated [CO(2)] and temperature conditions. For this purpose, wheat plants were exposed to elevated [CO(2)] (400 vs 700 µmol mol(-1)) and temperature (ambient vs ambient + 4°C) in CO(2) gradient greenhouses during the entire life cycle. Although at the agronomic level, elevated temperature had no effect on plant biomass, physiological analyses revealed that combined elevated [CO(2)] and temperature negatively affected photosynthetic performance. The limited energy levels resulting from the reduced respiratory and photorespiration rates of such plants were apparently inadequate to sustain nitrate reductase activity. Inhibited N assimilation was associated with a strong reduction in amino acid content, conditioned leaf soluble protein content and constrained leaf N status. Therefore, the plant response to elevated [CO(2)] and elevated temperature resulted in photosynthetic acclimation. The reduction in transpiration rates induced limitations in nutrient transport in leaves of plants exposed to elevated [CO(2)] and temperature, led to mineral depletion and therefore contributed to the inhibition of photosynthetic activity.

Cisticercose suína e bovina - ocorrência em abatedouros do Estado de São Paulo, Brasil / Swine and bovine cysticercosis ­ occurrence in slaughterhouses located at São Paulo State, Brazil

Objetivou-se determinar a frequência de ocorrência da cisticercose em carcaças suínas e bovinas em 56 abatedouros sob fiscalização do Serviço de Inspeção do Estado de São Paulo (SISP) durante os anos 2008 a 2013. Para os 1.305.723 suínos abatidos no período foram detectados cisticercos em apenas 125 (0,01%) animais, dos quais 116 (92,80%) estavam calcificados. Determinou-se que dos 1.434.445 bovinos, 24.278 (1,69%) apresentaram cisticercos, dos quais 19.826 (81,67%) apresentavamse calcificados. Também se observou uma relação inversa (P < 0,05) entre as variáveis tempo e frequência de ocorrência. A maior ocorrência nessa espécie evidencia que são necessárias melhorias nas práticas sanitárias preventivas durante a criação desses animais, como a adoção das Boas Práticas Agropecuárias (BPA) para reduzir a ocorrência da cisticercose a níveis baixos igualmente observados para os suínos.

This study was focused on the determination of cysticercosis prevalence in swine and cattle carcasses in 56 slaughterhouses under supervision from Inspection Service of São Paulo State (SISP) between the years 2008 and 2013. Amongst the 1,305,723 pigs slaughtered, cysticercosis was present in only 125 (0.01%) of them in which, 116 (92.80%) were calcified. Nonetheless, cysticercosis was present in 24,278 (1.69%) of the 1,434,445 bovine carcasses evaluated; 19,826 (81.67%) were calcified. An inverse relationship (P <0.05) between time and the disease occurrence variable was observed. Sanitary preventive practices improvements, such as the Good Agricultural Practices, are required during the cattle rearing in order to decrease the cysticercosis occurrence to low prevalence levels as observed in swine rearing.

Zn deficiency in Brassica napus induces Mo and Mn accumulation associated with chloroplast proteins variation without Zn remobilization.

The importance of zinc (Zn) has been of little concern in human nutrition despite a strong decrease of this element in crops since the rise of high yielding varieties. For better food quality, Zn biofortification can be used, but will be optimal only if mechanisms governing Zn management are better known. Using Zn deficiency, we are able to demonstrate that Zn is not remobilized in Brassica napus (B. napus). Thus, remobilization processes should not be targeted by biofortification strategies. This study also complemented previous work by investigating leaf responses to Zn deficiency, especially from proteomic and ionomic points of view, showing for example, an increase in Manganese (Mn) content and of the Mn-dependent protein, Oxygen Evolving Enhancer.

Copper-deficiency in Brassica napus induces copper remobilization, molybdenum accumulation and modification of the expression of chloroplastic proteins.

During the last 40 years, crop breeding has strongly increased yields but has had adverse effects on the content of micronutrients, such as Fe, Mg, Zn and Cu, in edible products despite their sufficient supply in most soils. This suggests that micronutrient remobilization to edible tissues has been negatively selected. As a consequence, the aim of this work was to quantify the remobilization of Cu in leaves of Brassica napus L. during Cu deficiency and to identify the main metabolic processes that were affected so that improvements can be achieved in the future. While Cu deficiency reduced oilseed rape growth by less than 19% compared to control plants, Cu content in old leaves decreased by 61.4%, thus demonstrating a remobilization process between leaves. Cu deficiency also triggered an increase in Cu transporter expression in roots (COPT2) and leaves (HMA1), and more surprisingly, the induction of the MOT1 gene encoding a molybdenum transporter associated with a strong increase in molybdenum (Mo) uptake. Proteomic analysis of leaves revealed 33 proteins differentially regulated by Cu deficiency, among which more than half were located in chloroplasts. Eleven differentially expressed proteins are known to require Cu for their synthesis and/or activity. Enzymes that were located directly upstream or downstream of Cu-dependent enzymes were also differentially expressed. The overall results are then discussed in relation to remobilization of Cu, the interaction between Mo and Cu that occurs through the synthesis pathway of Mo cofactor, and finally their putative regulation within the Calvin cycle and the chloroplastic electron transport chain.

Regulation of hormonal responses of sweet pepper as affected by salinity and elevated CO2 concentration.

This study examines the extent to which the predicted CO2 -protective effects on the inhibition of growth, impairment of photosynthesis and nutrient imbalance caused by saline stress are mediated by an effective adaptation of the endogenous plant hormonal balance. Therefore, sweet pepper plants (Capsicum annuum, cv. Ciclón) were grown at ambient or elevated [CO2] (400 or 800 µmol mol(-1)) with a nutrient solution containing 0 or 80 mM NaCl. The results show that, under saline conditions, elevated [CO2] increased plant dry weight, leaf area, leaf relative water content and net photosynthesis compared with ambient [CO2], whilst the maximum potential quantum efficiency of photosystem II was not modified. In salt-stressed plants, elevated [CO2 ] increased leaf NO3(-) concentration and reduced Cl(-) concentration. Salinity stress induced ABA accumulation in the leaves but it was reduced in the roots at high [CO2], being correlated with the stomatal response. Under non-stressed conditions, IAA was dramatically reduced in the roots when high [CO2] was applied, which resulted in greater root DW and root respiration. Additionally, the observed high CK concentration in the roots (especially tZR) could prevent downregulation of photosynthesis at high [CO2], as the N level in the leaves was increased compared with the ambient [CO2], under salt-stress conditions. These results demonstrate that the hormonal balance was altered by the [CO2], which resulted in significant changes at the growth, gas exchange and nutritional levels.

Avaliação das perdas de líquido por degelo de frangos congelados (Drip Test) em abatedouros / Drip losses evaluation in frozen chickens (Drip Test) at abattoirs

Este trabalho objetivou avaliar a quantidade de água resultante do descongelamento de carcaças de aves oriundas de quatro abatedouros de aves no Estado de São Paulo, sob Serviço de Inspeção Estadual, através do método Drip Test, durante os anos de 2011 e 2012. Foram utilizadas 45 amostras, sendo que cada uma dessas era composta por seis carcaças de frango congeladas, determinando um total de 270 carcaças de aves utilizadas. Durante a realização do estudo, apenas 4,44% (2/45) das amostras apresentaram valores acima do limite aceitável determinado pelo Ministério da Agricultura, Pecuária e Abastecimento (MAPA), sendo que essas pertenciam a abatedouros distintos, porém não foi observada diferença significativa entre todos os estabelecimentos avaliados. Pode-se concluir que 4,44% das amostras do monitoramento apresentaram-se fora do padrão legal, oriundas de falhas tecnológicas e que resultam na insatisfação dos consumidores. É necessário um monitoramento de rotina, com colheita de amostras prontas para a comercialização sem prévio aviso, como prática a salvaguardar os interesses dos consumidores e à coibição de fraudes intencionais, principalmente naqueles estabelecimentos que evidenciem valores frequentemente elevados.

This study aimed to evaluate the amount of water resulting from poultry carcasses from four slaughterhouses at the São Paulo State, Brazil, through “Drip Test” method, during the years 2011 and 2012. It was used 45 samples, which were consisted of 6 chickenfrozen carcasses, totalizing 270 chickens. During the study, 4.44% (2/45) of the samples had values above the acceptable limit by Ministry of Agriculture, Livestock and Supply (MAPA), and were from two different establishments, but was not observed significant difference among all the establishments. It was concluded that some samples were not in concordance with legal standards, arising from technological failures that contributes to cause consumer dissatisfaction. Is necessary a routine monitoring system, utilizing samples ready for commercialization without previously notice, to safeguard the consumer’s interests and avoid intentional fraud, especially in those establishments that commonly presents high values.

Functionalized carboxyl nanoparticles enhance mucus dispersion and hydration.

Luminal accumulation of viscous, poorly hydrated, and less transportable mucus has been associated with altered mucus rheology and reduced mucociliary clearance. These symptoms are some of the cardinal clinical manifestations found throughout major respiratory diseases as well as gastrointestinal and digestive disorders. Applications of current mucolytics may yield short-term improvements but are continuously challenged by undesirable side-effects. While nanoparticles (NPs) can interact with mucin polymers,whether functionalized NPs can rectify mucus rheology is unknown. Herein, we report that carboxyl-functionalized NPs (24 nm and 120 nm) dramatically reduced mucin gel size and accelerated mucin matrix hydration rate (diffusivity). Our results suggest that carboxyl-functionalized NPs disperse mucin gels possibly by enhancing network hydration. This report highlights the prospective usages of carboxyl-functionalized NPs as a novel mucus dispersant or mucolytic agent in adjusting mucus rheological properties and improving mucociliary transport to relieve clinical symptoms of patients suffering from relevant diseases.