Diagnóstico del transporte activo en los países andinos / Diagnosis of active transport in the Andean countries

El presente documento se desarrolla con el fin de establecer el estado actual de una de las dimensiones de la Actividad Física (AF) como es el Transporte Activo (TA) (uso de bicicleta y caminata) entre los países andinos, haciendo un recuento de los últimos diez años, y estableciendo el diagnóstico de esta dimensión especialmente en cuatro aspectos: La infraestructura, la participación ciudadana, la normativa, la puesta en ejecución de dicha normatividad y aspectos del efecto de la pandemia del COVID-19 sobre el TA, todo esto con el propósito de contribuir a tener mejores estándares de salud y mejores estilos de vida saludable entre todos los habitantes de los países andinos. La morbimortalidad se reduce en aquellas personas que realizan viajes en bicicleta y caminan como parte de su estrategia de transporte. Asimismo, describe el desarrollo en la última década y el estado actual de una de las dimensiones de la Actividad Física (AF) como es, el Transporte Activo (TA), o el uso de bicicleta y caminata, en los países andinos y México como país referente. Es importante, actuar como bloque frente a los altos y crecientes niveles de inactividad física en la población como una medida de impacto sanitario regional para la promoción de la salud y la prevención de enfermedades en los países andinos, generando programas y políticas de salud orientadas a estimular la AF como parte de los estilos de vida saludable con modelos sostenibles y de participación multilateral de los entes gubernamentales y privados en los países

Gordura corporal, índice de massa corporal e intensidade da atividade física de acordo com transporte ativo e a prática esportiva em escolares. Um estudo transversal / Body fat, body mass index and physical activity intensity according to active transport and sports practice in schoolchildren. A cross-sectional study

Contexto: A obesidade infantil ocasiona diversas doenças e uma das formas para combatê-la é a atividade física, que exerce um papel fundamental. Objetivo: Comparar as diferentes intensidades da atividade física mensurada objetivamente de acordo com o transporte ativo, a prática de esportes e as atividades físicas estruturadas e seu impacto na gordura corporal e índice de massa corporal (IMC) em escolares. Desenho e local: Estudo transversal de amostra por critério de conveniência, realizado em São Caetano do Sul pelo Centro de Estudos do Laboratório de Aptidão Física de São Caetano do Sul (CELAFISCS). Métodos: Foram avaliadas um total de 584 crianças (277 meninos) que atenderam aos critérios de inclusão. A amostra foi dividida em grupos segundo o transporte (ativo e passivo) e a prática esportiva (sim e não). Para análise estatística foi utilizado o teste t Student e o teste U de Mann-Whitney. Para o ajuste das variáveis foi utilizada a análise de covariância (ANCOVA). Resultados: Os meninos demonstraram que, independentemente do tempo de transporte, há efeito do tipo do transporte sobre a atividade física (AF) durante a semana, de intensidade moderada, moderada-vigorosa, AF durante o final de semana de intensidade moderada, moderada-vigorosa e vigorosa. As meninas demonstraram efeito do tipo de transporte sobre a AF durante a semana na AF de intensidade moderada e de intensidade moderada-vigorosa. A gordura corporal e o IMC não apresentaram diferenças entre os grupos. As práticas esportivas não tiveram diferenças significativas em nenhuma das variáveis. Conclusões: O transporte ativo atingiu os níveis de intensidade moderada, moderada-vigorosa durante a semana, tanto no masculino como no feminino. No final de semana, além dessas, a intensidade vigorosa foi encontrada nos meninos.

Astroglial Hemichannels and Pannexons: The Hidden Link between Maternal Inflammation and Neurological Disorders.

Maternal inflammation during pregnancy causes later-in-life alterations of the offspring's brain structure and function. These abnormalities increase the risk of developing several psychiatric and neurological disorders, including schizophrenia, intellectual disability, bipolar disorder, autism spectrum disorder, microcephaly, and cerebral palsy. Here, we discuss how astrocytes might contribute to postnatal brain dysfunction following maternal inflammation, focusing on the signaling mediated by two families of plasma membrane channels: hemi-channels and pannexons. [Ca2+]i imbalance linked to the opening of astrocytic hemichannels and pannexons could disturb essential functions that sustain astrocytic survival and astrocyte-to-neuron support, including energy and redox homeostasis, uptake of K+ and glutamate, and the delivery of neurotrophic factors and energy-rich metabolites. Both phenomena could make neurons more susceptible to the harmful effect of prenatal inflammation and the experience of a second immune challenge during adulthood. On the other hand, maternal inflammation could cause excitotoxicity by producing the release of high amounts of gliotransmitters via astrocytic hemichannels/pannexons, eliciting further neuronal damage. Understanding how hemichannels and pannexons participate in maternal inflammation-induced brain abnormalities could be critical for developing pharmacological therapies against neurological disorders observed in the offspring.

Chemical effects on dye efflux activity in live zebrafish embryos and on zebrafish Abcb4 ATPase activity.

ATP-binding cassette (ABC) transporter proteins include efflux pumps that confer multixenobiotic resistance to zebrafish embryos, a valuable toxico/pharmacological model. Here, we established an automated microscopy-based rhodamine B dye accumulation assay in which enhanced dye accumulation in live zebrafish embryos indicates inhibition of multixenobiotic efflux transporter activity. Twenty structurally divergent known substrates and/or inhibitors of human ABC transporters and environmentally relevant compounds were examined using this assay and the ATPase activity of recombinant zebrafish Abcb4 as readouts. These two assays confirmed that Abcb4 functions as an efflux transporter in zebrafish, whereas they gave discordant results for some of the tested substances. The dye accumulation assay in zebrafish embryos could be useful to screen environmental pollutants and other chemicals for efflux transporter interaction in a medium-throughput fashion.

Transporte ativo no trajeto escolar: uma revisão integrativa / Active transport at the school path: an integrative review

o transporte ativo pode ser uma oportunidade para desenvolver comportamentos mais saudáveis na vida das crianças e jovens. O presente estudo busca identificar barreiras e facilitadores desse comportamento, bem como suas interfaces com a saúde dos escolares por meio de revisão de literatura. Trata-se de uma revisão integrativa de literatura realizada nas bases eletrônicas BVS, Scielo e periódico Capes, utilizando os descritores mobilidade, transporte, deslocamento, ativo, sustentável, estudantes, escolares e trajeto escolar em português, inglês e espanhol. Foram incluídos estudos realizados nas Américas e publicados nos últimos cinco anos. Os 16 artigos selecionados foram desenvolvidos no Brasil, Canadá, México e Estados Unidos, sendo que a maioria deriva de pesquisas mais amplas. Os resultados indicam que a prevalência de transporte ativo no trajeto escolar variou entre 10% nos Estados Unidos e 76% no Brasil. Alguns facilitadores desse comportamento foram: pais que utilizam transporte ativo; expectativa dos pais; percepção dos pais sobre boa estrutura e segurança; crianças mais velhas, sem veículos, de grandes cidades, com menor satisfação familiar, com maior número de dias fisicamente ativos; ser homem; presença de adulto e clima. Algumas barreiras foram: distâncias; maior idade, nível de escolaridade da mãe e classe econômica; maior tempo de trabalho dos pais; posse de veículo; zona urbana; bullying; muita coisa para carregar, ausência de árvore, criminalidade; presença de animais vadios e ter etnia latina. A interface do transporte ativo no trajeto escolar com a saúde foi reportada com o nível de atividade física, obesidade/sobrepeso (saúde individual) e barreiras e facilitadores a esse tipo de deslocamento (saúde ambiental). Considerando que atitudes cultivadas na infância têm grandes chances de permanecer na vida adulta, o transporte ativo no trajeto escolar pode ser uma estratégia na criação de hábitos saudáveis e sustentáveis que contribuam para melhor qualidade de vida, desde que se considerem seus determinantes e condicionantes...(AU)

the active transport can be an opportunity to develop healthier beh av iors in t h e lives of children and young people. The present study seeks to identify barriers and facilitators of this behavior, as well as their interfaces with the students' health through a literature review. It is an integrative literature review carried out on the electronic databases BVS, Scielo and Capes periodical, using the descriptors of mobility, transport, displacement, active, sustainable, students, school and schoo l p ath in Po rtuguese, English and Spanish. Studies carried out in the Americas and published in the last five years were included. The 16 selected papers were developed in Brazil, Canada, Mexico and the United States, with most of them deriving from broader researches. The results obtained reveal t he p revalence of active transport in school path varied between 10% in the United States and 76% in Brazil. Some facilitators of this behavior were: parents or adults who use active transport; parental expectation; parents' perception of good structure and safety; older children, without vehicles, large cities, with less family satisfaction, with more days of physical activities; be a man; adult presence and climate. Some barriers were: dist an ces; older age, mother's education level and economic class; longer working time for parents; vehicle ownership; urban area; bullying; a lot to carry, few trees, crime; presence of stray anim als and having Latin ethnicity. The interface between active transport in the school path and health was rep o rted as the level of hysical activity, obesity/overweight (individual health) and barriers and facilitators to this type of displacement (environmental health). Considering that attitudes cultivated in childhood are very likely to remain in adulthood, active transportation on the school path can be a strategy in creating h ealthy and sustainable habits that contribute to a better quality of life, as long as its determinants and condit ions are considered...(AU)

Health economic assessment of a shift to active transport.

Active transportation (walking or cycling) as a substitute for car trips still represents a small percentage of all daily travels in many European cities. This study aimed to estimate the health and economic co-benefits for the adult population of modal shift from driving to active travel in urban environments. Three scenarios were modelled for the case study, the city of Porto, Portugal, by comparing travel patterns of 2013 to hypothetical scenarios of modal shifts from driving to active transport, namely: i) SC1 - conservative scenario, with a change of 5% from driving to cycling and 10% from driving to walking; ii) SC2 - moderate scenario, with a shift of 10% and 15%, respectively; and iii) SC3 - optimistic scenario, with a shift of 15% and 20%, respectively. The mortality risk reduction for five health outcomes (colon and breast cancers, diabetes, ischemic heart disease, cerebrovascular disease) was assessed, including an estimation of traffic injury and air pollution exposure risks. Results were presented in Disability-Adjusted Life Years (DALYs) avoided. Economic valuation for each scenario was performed using a Willingness-to-Pay approach for morbimortality and a Cost of Illness approach for 2013 hospitalizations and work absenteeism. Significant health benefits were found in all modelled scenarios, ranging from 1657 (16%) to 2881 (28%) DALYs avoided. Total costs averted ranged from €3894 to €6769 million through the scenarios. Cardio and cerebrovascular diseases mortality presented the largest benefit, accounting for about 3/4 of all avoidable DALYs in all scenarios. Reductions in CO2 and PM10 emissions were calculated, showing a decrease from 31.6 to 73.7 kt of CO2 and 7 to 16 t for PM10, respectively. A modal shift towards active transportation could lead to significant health and economic benefits, indicating that the evaluation of health impacts should be included in the analysis of active transport interventions.

[Ion transporters in the lungs. Use as therapeutic targets]. / Transportadores de iones en pulmón. Uso como dianas terapéuticas.

The chloride channels, sodium and bicarbonate channels, and aquaporin water channels are coordinated to maintain the airway surface liquid that is necessary for mucociliary clearance. The general mechanism for the transport of electrolytes and fluids depends mainly on the differential expression and distribution of ion transporters and pumps. Ions and water move through the paracellular or transcellular pathways. The transcellular route of electrolyte transport requires an active transport (dependent on ATP) or passive (following electrochemical gradients) of ions. The paracellular pathway is a passive process that is ultimately controlled by the predominant transepithelial electrochemical gradients. Cystic fibrosis is a hereditary disease that is produced by mutations in the gene that encode cystic fibrosis transmembrane conductance regulatory protein (CFTR) that acts as a chloride channel and performs functions of hydration of periciliary fluid and maintenance of luminal pH. The dysfunction of the chlorine channel in the respiratory epithelium determines an alteration in the bronchial secretions, with an increase in its viscosity and alteration of the mucociliary clearance and that associated with infectious processes can lead to irreversible lung damage. CFTR dysfunction has also been implicated in the pathogenesis of acute pancreatitis, chronic obstructive pulmonary disease, and bronchial hyperreactivity in asthma. There are drugs that exploit physiological mechanisms in the transport of ions with a therapeutic objective.

Los canales de cloruros, de sodio, de bicarbonato y los de agua (aquaporinas) se coordinan para mantener la cubierta líquido superficial de las vías respiratorias, que es necesaria para el aclaramiento mucociliar. El mecanismo general para el transporte de electrolitos y agua depende principalmente de la expresión diferencial y distribución de los transportadores y bombas de iones. Los iones y el agua se mueven a través de las vía paracelular o transcelular. La ruta transcelular del transporte de electrolitos requiere un transporte activo (dependiente de ATP) o pasivo (siguiendo gradientes electroquímicos) de iones. La ruta paracelular es un proceso pasivo que está controlado, en última instancia, por los gradientes electroquímicos transepiteliales predominantes. La fibrosis quística es una enfermedad hereditaria que se produce por mutaciones en el gen que codifica la proteína reguladora de la conductibilidad transmembrana de la fibrosis quística (CFTR) que actúa como un canal de cloro y cumple funciones de hidratación del líquido periciliar y mantenimiento del pH luminal. La disfunción del canal de cloro en el epitelio respiratorio determina una alteración en las secreciones bronquiales, con aumento de su viscosidad y alteración de la depuración mucociliar y que asociado a procesos infecciosos puede conducir a daño pulmonar irreversible. La disfunción del CFTR, también se ha visto implicado en la patogénesis de la pancreatitis aguda, en la enfermedad pulmonar obstructiva crónica y la hiperreactividad en el asma. Existen fármacos que aprovechan los mecanismos fisiológicos en el transporte de iones, con un objetivo terapéutico.

Transportadores de iones en pulmón: Uso como dianas terapéuticas / Ion transporters in the lungs. Use as therapeutic targets

Los canales de cloruros, de sodio, de bicarbonato y los de agua (aquaporinas) se coordinan para mantener la cubierta líquido superficial de las vías respiratorias, que es necesaria para el aclaramiento mucociliar. El mecanismo general para el transporte de electrolitos y agua depende principalmente de la expresión diferencial y distribución de los transportadores y bombas de iones. Los iones y el agua se mueven a través de las vía paracelular o transcelular. La ruta transcelular del transporte de electrolitos requiere un transporte activo (dependiente de ATP) o pasivo (siguiendo gradientes electroquímicos) de iones. La ruta paracelular es un proceso pasivo que está controlado, en última instancia, por los gradientes electroquímicos transepiteliales predominantes. La fibrosis quística es una enfermedad hereditaria que se produce por mutaciones en el gen que codifica la proteína reguladora de la conductibilidad transmembrana de la fibrosis quística (CFTR) que actúa como un canal de cloro y cumple funciones de hidratación del líquido periciliar y mantenimiento del pH luminal. La disfunción del canal de cloro en el epitelio respiratorio determina una alteración en las secreciones bronquiales, con aumento de su viscosidad y alteración de la depuración mucociliar y que asociado a procesos infecciosos puede conducir a daño pulmonar irreversible. La disfunción del CFTR, también se ha visto implicado en la patogénesis de la pancreatitis aguda, en la enfermedad pulmonar obstructiva crónica y la hiperreactividad en el asma. Existen fármacos que aprovechan los mecanismos fisiológicos en el transporte de iones, con un objetivo terapéutico.

The chloride channels, sodium and bicarbonate channels, and aquaporin water channels are coordinated to maintain the airway surface liquid that is necessary for mucociliary clearance. The general mechanism for the transport of electrolytes and fluids depends mainly on the differential expression and distribution of ion transporters and pumps. Ions and water move through the paracellular or transcellular pathways. The transcellular route of electrolyte transport requires an active transport (dependent on ATP) or passive (following electrochemical gradients) of ions. The paracellular pathway is a passive process that is ultimately controlled by the predominant transepithelial electrochemical gradients. Cystic fibrosis is a hereditary disease that is produced by mutations in the gene that encode cystic fibrosis transmembrane conductance regulatory protein (CFTR) that acts as a chloride channel and performs functions of hydration of periciliary fluid and maintenance of luminal pH. The dysfunction of the chlorine channel in the respiratory epithelium determines an alteration in the bronchial secretions, with an increase in its viscosity and alteration of the mucociliary clearance and that associated with infectious processes can lead to irreversible lung damage. CFTR dysfunction has also been implicated in the pathogenesis of acute pancreatitis, chronic obstructive pulmonary disease, and bronchial hyperreactivity in asthma. There are drugs that exploit physiological mechanisms in the transport of ions with a therapeutic objective.

Expression of myo-inositol cotransporters in the sciatic nerve and dorsal root ganglia in experimental diabetes.

The transport of myo-inositol is the main mechanism for the maintenance of its high intracellular levels. We aimed to measure the mRNA and protein levels of myo-inositol cotransporters in the sciatic nerve (SN) and dorsal root ganglia (DRG) during experimental diabetes. Streptozotocin-induced (STZ; 4, 8, and 12 weeks; 65 mg/kg; ip) diabetic rats (DB) and age-matched euglycemic (E) rats were used for the analysis of mRNA and protein levels of sodium myo-inositol cotransporters 1, 2 (SMIT1, SMIT2) or H+/myo-inositol cotransporter (HMIT). There was a significant reduction in the mRNA levels for SMIT1 in the SN and DRG (by 36.9 and 31.0%) in the 4-week DB (DB4) group compared to the E group. SMIT2 was not expressed in SN. The mRNA level for SMIT2 was up-regulated only in the DRG in the DB4 group. On the other hand, the protein level of SMIT1 decreased by 42.5, 41.3, and 44.8% in the SN after 4, 8, and 12 weeks of diabetes, respectively. In addition, there was a decrease of 64.3 and 58.0% of HMIT in membrane and cytosolic fractions, respectively, in the SN of the DB4 group. In the DRG, there was an increase of 230 and 86.3% for SMIT1 and HMIT, respectively, in the DB12 group. The levels of the main inositol transporters, SMIT1 and HMIT, were greatly reduced in the SN but not in the DRG. SMIT-1 was selectively reduced in the sciatic nerve during experimental STZ-induced diabetes.

The median eminence as the hypothalamic area involved in rapid transfer of glucose to the brain: functional and cellular mechanisms.

Our data proposes that glucose is transferred directly to the cerebrospinal fluid (CSF) of the hypothalamic ventricular cavity through a rapid "fast-track-type mechanism" that would efficiently stimulate the glucosensing areas. This mechanism would occur at the level of the median eminence (ME), a periventricular hypothalamic zone with no blood-brain barrier. This "fast-track" mechanism would involve specific glial cells of the ME known as ß2 tanycytes that could function as "inverted enterocytes," expressing low-affinity glucose transporters GLUT2 and GLUT6 in order to rapidly transfer glucose to the CSF. Due to the large size of tanycytes, the presence of a high concentration of mitochondria and the expression of low-affinity glucose transporters, it would be expected that these cells accumulate glucose in the endoplasmic reticulum (ER) by sequestering glucose-6-phosphate (G-6-P), in a similar way to that recently demonstrated in astrocytes. Glucose could diffuse through the cells by micrometric distances to be released in the apical region of ß2 tanycytes, towards the CSF. Through this mechanism, levels of glucose would increase inside the hypothalamus, stimulating glucosensing mechanisms quickly and efficiently. KEY MESSAGES: • Glucose diffuses through the median eminence cells (ß2 tanycytes), towards the hypothalamic CSF. • Glucose is transferred through a rapid "fast-track-type mechanism" via GLUT2 and GLUT6. • Through this mechanism, hypothalamic glucose levels increase, stimulating glucosensing.

Norma técnica de salud sobre preparación, embalaje y documentación para el transporte seguro de sustancias infecciosas / Technical health standard on preparation, packaging and documentation for the safe transport of infectious substances

El documento contiene la finalidad, objetivos, ámbito de aplicación, base legal, consideraciones generales y específicas sobre la preparación, embalaje y documentación para el transporte seguro de sustancias infecciosas.

Small GTPases in plant biotic interactions.

The superfamily of small monomeric GTPases originated in a common ancestor of eukaryotic multicellular organisms and, since then, it has evolved independently in each lineage to cope with the environmental challenges imposed by their different life styles. Members of the small GTPase family function in the control of vesicle trafficking, cytoskeleton rearrangements and signaling during crucial biological processes, such as cell growth and responses to environmental cues. In this review, we discuss the emerging roles of these small GTPases in the pathogenic and symbiotic interactions established by plants with microorganisms present in their nearest environment, in which membrane trafficking is crucial along the different steps of the interaction, from recognition and signal transduction to nutrient exchange.

Key amino acid residues of the AGT1 permease required for maltotriose consumption and fermentation by Saccharomyces cerevisiae.

AIMS: The AGT1 gene encodes for a general α-glucoside-H+ symporter required for efficient maltotriose fermentation by Saccharomyces cerevisiae. In the present study, we analysed the involvement of four charged amino acid residues present in this transporter that are required for maltotriose consumption and fermentation by yeast cells. METHODS AND RESULTS: By using a knowledge-driven approach based on charge, conservation, location, three-dimensional (3D) structural modelling and molecular docking analysis, we identified four amino acid residues (Glu-120, Asp-123, Glu-167 and Arg-504) in the AGT1 permease that could mediate substrate binding and translocation. Mutant permeases were generated by site-directed mutagenesis of these charged residues, and expressed in a yeast strain lacking this permease (agt1∆). While mutating the Arg-504 or Glu-120 residues into alanine totally abolished (R504A mutant) or greatly reduced (E120A mutant) maltotriose consumption by yeast cells, as well as impaired the active transport of several other α-glucosides, in the case of the Asp-123 and Glu-167 amino acids, it was necessary to mutate both residues (D123G/E167A mutant) in order to impair maltotriose consumption and fermentation. CONCLUSIONS: Based on the results obtained with mutant proteins, molecular docking and the localization of amino acid residues, we propose a transport mechanism for the AGT1 permease. SIGNIFICANCE AND IMPACT OF THE STUDY: Our results present new insights into the structural basis for active α-glucoside-H+ symport activity by yeast transporters, providing the molecular bases for improving the catalytic properties of this type of sugar transporters.

Phaseolin ingestion affects vesicular traffic causing oxidative stress in the midgut of Callosobruchus maculatus larvae.

It has been reported that phaseolin, the major storage globulin of the common bean (Phaseolus vulgaris), is toxic to Callosobruchus maculatus larvae, an Old World bruchid beetle that is not capable of infesting this New World edible bean. It has also been demonstrated that vicilin, the major storage globulin found in cowpea (Vigna unguiculata) seeds, is absorbed through receptor-mediated endocytosis in the insect midgut. A putative vicilin receptor has been purified and showed high homology to α-tocopherol transfer protein. However, the ingestion of a variant vicilin purified from C. maculatus resistant seeds inhibits transcytosis, resulting in the accumulation of vicilins in the midgut cells and ultimately antibiosis. In the present work, we studied the cellular up-take of phaseolin in C. maculatus larvae with the aim of discovering if this protein is also capable of inhibiting endocytic traffic in the enterocytes. FITC-labelled vicilin and FITC-labelled phaseolin were incorporated into the diet of the larvae at a physiological concentration of 0.5% w/w. The fate of labelled and non-labelled globulins was monitored by confocal microscopy. Here we demonstrated that phaseolin is also endocytosed by enterocytes causing an accumulation of endocytic vesicles in the midgut when compared to the ingestion of vicilin obtained from a susceptible V. unguiculata cultivar. From the results obtained for HNE, MDA and TBARS, a pro-oxidative scenario was established in the intestinal epithelial cells of the larvae, which may explain the deleterious effect observed in larvae developing inside P. vulgaris seeds.

Expression of myo-inositol cotransporters in the sciatic nerve and dorsal root ganglia in experimental diabetes

The transport of myo-inositol is the main mechanism for the maintenance of its high intracellular levels. We aimed to measure the mRNA and protein levels of myo-inositol cotransporters in the sciatic nerve (SN) and dorsal root ganglia (DRG) during experimental diabetes. Streptozotocin-induced (STZ; 4, 8, and 12 weeks; 65 mg/kg; ip) diabetic rats (DB) and age-matched euglycemic (E) rats were used for the analysis of mRNA and protein levels of sodium myo-inositol cotransporters 1, 2 (SMIT1, SMIT2) or H+/myo-inositol cotransporter (HMIT). There was a significant reduction in the mRNA levels for SMIT1 in the SN and DRG (by 36.9 and 31.0%) in the 4-week DB (DB4) group compared to the E group. SMIT2 was not expressed in SN. The mRNA level for SMIT2 was up-regulated only in the DRG in the DB4 group. On the other hand, the protein level of SMIT1 decreased by 42.5, 41.3, and 44.8% in the SN after 4, 8, and 12 weeks of diabetes, respectively. In addition, there was a decrease of 64.3 and 58.0% of HMIT in membrane and cytosolic fractions, respectively, in the SN of the DB4 group. In the DRG, there was an increase of 230 and 86.3% for SMIT1 and HMIT, respectively, in the DB12 group. The levels of the main inositol transporters, SMIT1 and HMIT, were greatly reduced in the SN but not in the DRG. SMIT-1 was selectively reduced in the sciatic nerve during experimental STZ-induced diabetes.

Sugarcane apoplast fluid modulates the global transcriptional profile of the diazotrophic bacteria Paraburkholderia tropica strain Ppe8.

The stalk apoplast fluid of sugarcane contains different sugars, organic acids and amino acids that may supply the demand for carbohydrates by endophytic bacteria including diazotrophs P. tropica (syn. B. tropica) strain Ppe8, isolated from sugarcane, is part of the bacterial consortium recommended as inoculant to sugarcane. However, little information has been accumulated regarding this plant-bacterium interaction considering that it colonizes internal sugarcane tissues. Here, we made use of the RNA-Seq transcriptomic analysis to study the influence of sugarcane stalk apoplast fluid on Ppe8 gene expression. The bacterium was grown in JMV liquid medium (100 ml), divided equally and then supplemented with 50 ml of fresh JMV medium or 50 ml of apoplast fluid extracted from sugarcane variety RB867515. Total RNA was extracted 2 hours later, the rRNAs were depleted and mRNAs used to construct libraries to sequence the fragments using Ion Torrent technology. The mapping and statistical analysis were carried out with CLC Genomics Workbench software. The RNA-seq data was validated by RT-qPCR using the reference genes fliP1, paaF, and groL. The data analysis showed that 544 genes were repressed and 153 genes were induced in the presence of apoplast fluid. Genes that induce plant defense responses, genes related to chemotaxis and movements were repressed in the presence of apoplast fluid, indicating that strain Ppe8 recognizes the apoplast fluid as a plant component. The expression of genes involved in bacterial metabolism was regulated (up and down), suggesting that the metabolism of strain Ppe8 is modulated by the apoplast fluid. These results suggest that Ppe8 alters its gene expression pattern in the presence of apoplast fluid mainly in order to use compounds present in the fluid as well as to avoid the induction of plant defense mechanisms. This is a pioneer study showing the role played by the sugarcane apoplast fluid on the global modulation of genes in P. tropica strain Ppe8.

Uptake of l-Alanine and Its Distinct Roles in the Bioenergetics of Trypanosoma cruzi.

Amino acids participate in several critical processes in the biology of trypanosomatids, such as osmoregulation, cell differentiation, and host cell invasion. Some of them provide reducing power for mitochondrial ATP synthesis. It was previously shown that alanine, which is formed mainly by the amination of pyruvate, is a metabolic end product formed when parasites are replicating in a medium rich in glucose and amino acids. It was shown as well that this amino acid can also be used for the regulation of cell volume and resistance to osmotic stress. In this work, we demonstrate that, despite it being an end product of its metabolism, Trypanosoma cruzi can take up and metabolize l-Ala through a low-specificity nonstereoselective active transport system. The uptake was dependent on the temperature in the range between 10 and 40°C, which allowed us to calculate an activation energy of 66.4 kJ/mol and estimate the number of transporters per cell at ~436,000. We show as well that, once taken up by the cells, l-Ala can be completely oxidized to CO2, supplying electrons to the electron transport chain, maintaining the electrochemical proton gradient across the mitochondrial inner membrane, and supporting ATP synthesis in T. cruzi epimastigotes. Our data demonstrate a dual role for Ala in the parasite's bioenergetics, by being a secreted end product of glucose catabolism and taken up as nutrient for oxidative mitochondrial metabolism.IMPORTANCE It is well known that trypanosomatids such as the etiological agent of Chagas' disease, Trypanosoma cruzi, produce alanine as a main end product of their energy metabolism when they grow in a medium containing glucose and amino acids. In this work, we investigated if under starvation conditions (which happen during the parasite life cycle) the secreted alanine could be recovered from the extracellular medium and used as an energy source. Herein we show that indeed, in parasites submitted to metabolic stress, this metabolite can be taken up and used as an energy source for ATP synthesis, allowing the parasite to extend its survival under starvation conditions. The obtained results point to a dual role for Ala in the parasite's bioenergetics, by being a secreted end product of glucose catabolism and taken up as nutrient for oxidative mitochondrial metabolism.

Redox-mediated regulation of connexin proteins; focus on nitric oxide.

Connexins are membrane proteins that form hemichannels and gap junction channels at the plasma membrane. Through these channels connexins participate in autocrine and paracrine intercellular communication. Connexin-based channels are tightly regulated by membrane potential, phosphorylation, pH, redox potential, and divalent cations, among others, and the imbalance of this regulation have been linked to many acquired and genetic diseases. Concerning the redox potential regulation, the nitric oxide (NO) has been described as a modulator of the hemichannels and gap junction channels properties. However, how NO regulates these channels is not well understood. In this mini-review, we summarize the current knowledge about the effects of redox potential focused in NO on the trafficking, formation and functional properties of hemichannels and gap junction channels.

Tumor cell cholesterol depletion and V-ATPase inhibition as an inhibitory mechanism to prevent cell migration and invasiveness in melanoma.

BACKGROUND: V-ATPase interactions with cholesterol enriched membrane microdomains have been related to metastasis in a variety of cancers, but the underlying mechanism remains at its beginnings. It has recently been reported that the inhibition of this H+ pump affects cholesterol mobilization to the plasma membrane. METHODS: Inhibition of melanoma cell migration and invasiveness was assessed by wound healing and Transwell assays in murine cell lines (B16F10 and Melan-A). V-ATPase activity was measured in vitro by ATP hydrolysis and H+ transport in membrane vesicles, and intact cell H+ fluxes were measured by using a non-invasive Scanning Ion-selective Electrode Technique (SIET). RESULTS: Cholesterol depletion by 5mM MßCD was found to be inhibitory to the hydrolytic and H+ pumping activities of the V-ATPase of melanoma cell lines, as well as to the migration and invasiveness capacities of these cells. Nearly the same effects were obtained using concanamycin A, a specific inhibitor of V-ATPase, which also promoted a decrease of the H+ efflux in live cells at the same extent of MßCD. CONCLUSIONS: We found that cholesterol depletion significantly affects the V-ATPase activity and the initial metastatic processes following a profile similar to those observed in the presence of the V-ATPase specific inhibitor, concanamycin. GENERAL SIGNIFICANCE: The results shed new light on the functional role of the interactions between V-ATPases and cholesterol-enriched microdomains of cell membranes that contribute with malignant phenotypes in melanoma.

The efflux pump inhibitor phenylalanine-arginine ß-naphthylamide (PAßN) increases resistance to carbapenems in Chilean clinical isolates of KPC-producing Klebsiella pneumoniae.

OBJECTIVES: KPC-producing strains present a wide range of carbapenem minimum inhibitory concentrations (MICs). This variation may be due to differential expression of blaKPC and porin genes, efflux pump activity and the production of extended-spectrum ß-lactamases and/or AmpC ß-lactamases. The aim of this study was to determine the role of efflux pumps inhibited by phenylalanine-arginine ß-naphthylamide (PAßN) in resistance to carbapenems in Chilean clinical isolates of blaKPC-harbouring Klebsiella pneumoniae. METHODS: MICs were determined by the agar dilution method for imipenem, meropenem, ertapenem and ciprofloxacin in the presence and absence of PAßN (25mg/L) in 17 carbapenem-resistant KPC-producing K. pneumoniae strains. Outer protein membrane (OMP) profiles were determined by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE). Expression levels of the ompK35 and ompK36 genes were also determined by real-time quantitative reverse transcription PCR (qRT-PCR). RESULTS: No contribution of PAßN-inhibited efflux pumps to carbapenem resistance was found, unlike ciprofloxacin resistance. However, a ≥4-fold increase in the MIC of at least one carbapenem was observed in 13 isolates in the presence of PAßN. Additionally, decreased gene expression of ompK35 and ompK36 in the presence of PAßN was detected, however no obvious differences in porin band intensity were observed by SDS-PAGE. CONCLUSIONS: The presence of PAßN resulted in an increase in carbapenem MICs unrelated to efflux pump inhibition, and a decrease in the expression of ompK35 and ompK36 genes without an obvious difference in OMP profiles observed by SDS-PAGE. Therefore, additional factors are responsible for the increase in carbapenem MIC in the presence of PAßN.