La capsazepina antagoniza la activación de TRPV1 inducida por estímulos térmicos y osmóticos en células humanas similares a odontoblastos

Objetivos: El dolor dental, que es el principal motivo de consulta de los pacientes al dentista, está clasificado como un problema de salud pública. El estudio de los mecanismos celulares y moleculares que contribuyen al dolor es un elemento fundamental para desarrollar nuevos analgésicos. Mediante el uso de un antagonista selectivo en un modelo in vitro, este estudio pretendía establecer el papel del TRPV-1 en células humanas similares a odontoblastos (OLC) como diana terapéutica para el dolor dental mediado por estímulos térmicos y osmóticos nocivos. Métodos: Las OLC se diferenciaron a partir de células mesenquimales de la pulpa dental y se evaluó la expresión de TRPV1. La activación de TRPV-1 se determinó evaluando los cambios en la concentración de calcio tras la estimulación con soluciones hiperosmóticas de manitol y xilitol o DMEM calentado a 45 °C, utilizando la sonda fluorescente de calcio Fluo-4 AM. Además, los cambios en la fluorescencia (F/F0) debidos al flujo de calcio se evaluaron mediante fluorometría y citometría de flujo. Simultáneamente, las células fueron coestimuladas con el antagonista selectivo capsazepina (CZP). Resultados: Las OLC expresaron DSPP y DMP-1, confirmando su fenotipo celular. Se expresó TRPV1, y su activación por diferentes estímulos produjo un aumento del Ca2+ citosólico que fue reducido por el antagonista. Los dos métodos utilizados para evaluar la activación del TRPV1 mediante la medición de la fluorescencia de la sonda de calcio mostraron patrones similares. Conclusiones: Estos resultados sugieren que la modulación del TRPV-1 mediante un antagonista puede implementarse como estrategia farmacológica para el manejo del dolor dental mediado por estímulos hiperosmóticos y térmicos.Objectives: Dental pain, which is the main reason for patients consulting dentists, is classified as a public health concern. The study of cellular and molecular mechanisms contributing to pain is a fundamental element for developing new analgesics. By using a selective antagonist in an in vitro model, this study aimed to establish the role of TRPV-1 in human odontoblast-like cells (OLCs) as a therapeutic target for dental pain mediated by noxious thermal and osmotic stimuli. Methods: OLCs were differentiated from dental pulp mesenchymal cells and TRPV1 expression was evaluated. Activation of TRPV-1 was determined by evaluating changes in calcium concentration after stimulation with mannitol and xylitol hyperosmotic solutions or DMEM heated at 45 °C, using the fluorescent calcium probe Fluo-4 AM. In addition, changes in fluorescence (F/F0) due to calcium flux were evaluated using fluorometry and flow cytometry. Simultaneously, the cells were co-stimulated with the selective antagonist capsazepine (CZP). Results: OLCs expressed DSPP and DMP-1, confirming their cellular phenotype. TRPV1 was expressed, and its activation by different stimuli produced an increase in cytosolic Ca2+ which was reduced by the antagonist. Both methods used to evaluate TRPV1 activation through the measurement of calcium probe fluorescence showed similar patterns. Conclusions: These results suggest that TRPV-1 modulation using an antagonist can be implemented as a pharmacological strategy for managing dental pain mediated by hyperosmotic and thermal stimuli

Description of respiratory syncytial virus genotypes circulating in Colombia

Introduction: Respiratory syncytial virus (RSV) is the most common cause of acute respiratory infections in children younger than two years but also produces infection in older children and even reinfection in people of any age, a characteristic related to the existence of different infecting subtypes and genotypes. Although Colombia has established the surveillance of classical respiratory viruses, there is no information about the RSV genotypes circulating in Colombian patients. Methodology: A subgroup of 227 previously RSV positive respiratory secretion samples were taken from a nationwide surveillance study, amplified and sequenced to define the circulation pattern of RSV subtypes and genotypes during 2000-2009 period in Colombia. Results. RSV exhibited seasonal behavior with an A subtype more prevalent. Both RSV subtypes had low nucleotide variability. During the study period, the GA2 and GA5 genotypes from RSV subtype A and the BA genotype from RSV subtype B were found. Conclusion. In this report, for the first time RSV genotypes circulating in Colombia were described, this information adds valuable information about virus epidemiology helping to understand the RSV epidemic and prepare our country for the introduction of new vaccines

Odontoblast-Like Cells Differentiated from Dental Pulp Stem Cells Retain Their Phenotype after Subcultivation

Odontoblasts, the main cell type in teeth pulp tissue, are not cultivable and they are responsible for the first line of response after dental restauration. Studies on dental materials cytotoxicity and odontoblast cells physiology require large quantity of homogenous cells retaining most of the phenotype characteristics. Odontoblast-like cells (OLC) were differentiated from human dental pulp stem cells using differentiation medium (containing TGF-β1), and OLC expanded after trypsinization (EXP-21) were evaluated and compared. Despite a slower cell growth curve, EXP-21 cells express similarly the odontoblast markers dentinal sialophosphoprotein and dentin matrix protein-1 concomitantly with RUNX2 transcripts and low alkaline phosphatase activity as expected. Both OLC and EXP-21 cells showed similar mineral deposition activity evidenced by alizarin red and von Kossa staining. These results pointed out minor changes in phenotype of subcultured EXP-21 regarding the primarily differentiated OLC, making the subcultivation of these cells a useful strategy to obtain odontoblasts for biocompatibility or cell physiology studies in dentistry

A tangled threesome: understanding arbovirus infection in Aedes spp. and the effect of the mosquito microbiota

Arboviral infections transmitted by Aedes spp. mosquitoes are a major threat to human health, particularly in tropical regions but are expanding to temperate regions. The ability of Aedes aegypti and Aedes albopictus to transmit multiple arboviruses involves a complex relationship between mosquitoes and the virus, with recent discoveries shedding light on it. Furthermore, this relationship is not solely between mosquitoes and arboviruses, but also involves the mosquito microbiome. Here, we aimed to construct a comprehensive review of the latest information about the arbovirus infection process in A. aegypti and A. albopictus, the source of mosquito microbiota, and its interaction with the arbovirus infection process, in terms of its implications for vectorial competence. First, we summarized studies showing a new mechanism for arbovirus infection at the cellular level, recently described innate immunological pathways, and the mechanism of adaptive response in mosquitoes. Second, we addressed the general sources of the Aedes mosquito microbiota (bacteria, fungi, and viruses) during their life cycle, and the geographical reports of the most common microbiota in adults mosquitoes. How the microbiota interacts directly or indirectly with arbovirus transmission, thereby modifying vectorial competence. We highlight the complexity of this tripartite relationship, influenced by intrinsic and extrinsic conditions at different geographical scales, with many gaps to fill and promising directions for developing strategies to control arbovirus transmission and to gain a better understanding of vectorial competence. The interactions between mosquitoes, arboviruses and their associated microbiota are yet to be investigated in depth

Humanized mice in dengue research: a comparison with other mouse models

Abstract: Dengue virus (DENV) is an arbovirus of the Flaviviridae family and is an enveloped virion containing a positive sense single-stranded RNA genome. DENV causes dengue fever (DF) which is characterized by an undifferentiated syndrome accompanied by fever, fatigue, dizziness, muscle aches, and in severe cases, patients can deteriorate and develop life-threatening vascular leakage, bleeding, and multi-organ failure. DF is the most prevalent mosquito-borne disease affecting more than 390 million people per year with a mortality rate close to 1% in the general population but especially high among children. There is no specific treatment and there is only one licensed vaccine with restricted application. Clinical and experimental evidence advocate the role of the humoral and T-cell responses in protection against DF, as well as a role in the disease pathogenesis. A lot of pro-inflammatory factors induced during the infectious process are involved in increased severity in dengue disease. The advances in DF research have been hampered by the lack of an animal model that recreates all the characteristics of this disease. Experiments in nonhuman primates (NHP) had failed to reproduce all clinical signs of DF disease and during the past decade, humanized mouse models have demonstrated several benefits in the study of viral diseases affecting humans. In DENV studies, some of these models recapitulate specific signs of disease that are useful to test drugs or vaccine candidates. However, there is still a need for a more complete model mimicking the full spectrum of DENV. This review focuses on describing the advances in this area of research

Diagnóstico diferencial de dengue y chikungunya en pacientes pediátricos

Introduction: Dengue and Chikungunya infections have similar clinical symptoms, which makes their clinical diagnosis complex. Moreover, both are transmitted by the same mosquito vectors, which results in virus co-circulation and co-infection. However, the outcome of these diseases differs: Chikungunya fever is rarely fatal but can have permanent and severe rheumatic and neurological sequelae, whereas dengue disease is potentially fatal. Thus, accurate diagnosis is critical. Objective: To compare presumptive diagnoses based on clinical findings with the differential diagnoses based on specific laboratory tests for each virus. Materials and methods: We performed specific virological and serological tests for both dengue and Chikungunya infections on eight acute-phase blood samples collected from pediatric patients with febrile syndrome. We used RT-PCR to detect dengue and Chikungunya virus, and IgM-capture ELISA to confirm infection by dengue virus. Results: Based on clinical findings, two patients were diagnosed as probable cases of dengue or Chikungunya, and two were diagnosed as probable cases of chikungunya. Four had no presumptive diagnosis of viral infection. Laboratory tests confirmed dengue infection in two patients, Chikungunya infection in two patients, and co-infection by the two viruses in the other four patients. Conclusion: Clinical findings were not sufficient to make a diagnosis in pediatric patients with febrile syndrome; specific laboratory tests were required to establish the etiologic agent of the disease.Introducción. Las infecciones por el virus del dengue y del chikungunya presentan síntomas clínicos similares, lo cual dificulta el diagnóstico clínico. Además, son transmitidas por los mismos vectores, por lo que en una región puede haber circulación e infección simultánea con los dos virus. Los resultados de cada enfermedad, no obstante, son diferentes: la fiebre del chikungunya rara vez es fatal, pero puede dejar secuelas de tipo articular y neurológico, en tanto que el dengue es potencialmente fatal. De ahí la importancia de un diagnóstico preciso y oportuno.Objetivo. Comparar el diagnóstico presuntivo basado en los hallazgos clínicos con el diagnóstico diferencial hecho mediante pruebas de laboratorio.Materiales y métodos. Se utilizaron pruebas virológicas y serológicas específicas para dengue y chikungunya en ocho muestras de sangre de pacientes pediátricos con síndrome febril. Se empleó la reacción en cadena de la polimerasa con transcriptasa inversa para detectar los virus del dengue y del chikungunya y el método de ELISA basado en la captura de IgM para confirmar los casos de dengue.Resultados. Con base en los hallazgos clínicos, dos pacientes se clasificaron como casos probables de dengue o chikungunya, dos como casos probables de chikungunya y en cuatro no hubo diagnóstico presuntivo de infección viral. Las pruebas de laboratorio confirmaron la infección por el virus del dengue en dos pacientes, por el virus del chikungunya en otros dos e infección simultánea de dengue y chikungunya en los cuatro restantes.Conclusión. Los hallazgos clínicos no fueron suficientes para hacer un diagnóstico en pacientes pediátricos con síndrome febril, por lo cual se requirieron pruebas específicas de laboratorio para establecer con precisión el agente etiológico causante de la enfermedad.

Dengue virus infection of blood-brain barrier cells: consequences of severe disease

More than 500 million people worldwide are infected each year by any of the four-dengue virus (DENV) serotypes. The clinical spectrum caused during these infections is wide and some patients may develop neurological alterations during or after the infection, which could be explained by the cryptic neurotropic and neurovirulent features of flaviviruses like DENV. Using in vivo and in vitro models, researchers have demonstrated that DENV can affect the cells from the blood–brain barrier (BBB) in several ways, which could result in brain tissue damage, neuronal loss, glial activation, tissue inflammation and hemorrhages. The latter suggests that BBB may be compromised during infection; however, it is not clear whether the damage is due to the infection per se or to the local and/or systemic inflammatory response established or activated by the BBB cells. Similarly, the kinetics and cascade of events that trigger tissue damage, and the cells that initiate it, are unknown. This review presents evidence of the BBB cell infection with DENV and the response established toward it by these cells; it also describes the consequences of this response on the nervous tissue, compares these evidence with the one reported with neurotropic viruses of the Flaviviridae family, and shows the complexity and unpredictability of dengue and the neurological alterations induced by it. Clinical evidence and in vitro and in vivo models suggest that this virus uses the bloodstream to enter nerve tissue where it infects the different cells of the neurovascular unit. Each of the cell populations respond individually and collectively and control infection and inflammation, in other cases this response exacerbates the damage leaving irreversible sequelae or causing death. This information will allow us to understand more about the complex disease known as dengue, and its impact on a specialized and delicate tissue like is the nervous tissue

Magnetoliposomas multifuncionales como vehículos de administración de fármacos para el tratamiento potencial de la enfermedad de Parkinson

La enfermedad de Parkinson (EP) es el segundo trastorno neurodegenerativo más frecuente después de la enfermedad de Alzheimer. Por ello, el desarrollo de nuevas tecnologías y estrategias para tratarla es una prioridad sanitaria mundial. Los tratamientos actuales incluyen la administración de levodopa, inhibidores de la monoaminooxidasa, inhibidores de la catecol-O-metiltransferasa y fármacos anticolinérgicos. Sin embargo, la liberación efectiva de estas moléculas, debido a la limitada biodisponibilidad, es un reto importante para el tratamiento de la EP. Como estrategia para resolver este desafío, en este estudio desarrollamos un novedoso sistema de liberación de fármacos multifuncional magnético y sensible a estímulos redox, basado en nanopartículas de magnetita funcionalizadas con la proteína translocadora de alto rendimiento OmpA y encapsuladas en liposomas de lecitina de soja. Los magnetoliposomas multifuncionales (MLP) obtenidos se ensayaron en neuroblastoma, glioblastoma, astrocitos primarios humanos y de rata, células endoteliales de rata de barrera hematoencefálica, células endoteliales microvasculares primarias de ratón y en un modelo celular inducido por EP. Los MLP demostraron un excelente rendimiento en ensayos de biocompatibilidad, incluyendo hemocompatibilidad (porcentajes de hemólisis por debajo del 1%), agregación plaquetaria, citocompatibilidad (viabilidad celular por encima del 80% en todas las líneas celulares probadas), potencial de membrana mitocondrial (alteraciones no observadas) y producción intracelular de ROS (impacto insignificante en comparación con los controles). Además, las nanovehículas mostraron una aceptable internalización celular (área cubierta cercana al 100% a los 30 min y a las 4 h) y capacidad de escape endosomal (disminución significativa de la colocalización lisosomal tras 4 h de exposición). Además, se emplearon simulaciones de dinámica molecular para comprender mejor el mecanismo de translocación subyacente de la proteína OmpA, mostrando hallazgos clave relativos a interacciones específicas con fosfolípidos. En general, la versatilidad y el notable rendimiento in vitro de este novedoso nanovehículo lo convierten en una tecnología de administración de fármacos adecuada y prometedora para el tratamiento potencial de la EP.Parkinson’s disease (PD) is the second most common neurodegenerative disorder after Alzheimer’s disease. Therefore, development of novel technologies and strategies to treat PD is a global health priority. Current treatments include administration of Levodopa, monoamine oxidase inhibitors, catechol-O-methyltransferase inhibitors, and anticholinergic drugs. However, the effective release of these molecules, due to the limited bioavailability, is a major challenge for the treatment of PD. As a strategy to solve this challenge, in this study we developed a novel multifunctional magnetic and redox-stimuli responsive drug delivery system, based on the magnetite nanoparticles functionalized with the high-performance translocating protein OmpA and encapsulated into soy lecithin liposomes. The obtained multifunctional magnetoliposomes (MLPs) were tested in neuroblastoma, glioblastoma, primary human and rat astrocytes, blood brain barrier rat endothelial cells, primary mouse microvascular endothelial cells, and in a PD-induced cellular model. MLPs demonstrated excellent performance in biocompatibility assays, including hemocompatibility (hemolysis percentages below 1%), platelet aggregation, cytocompatibility (cell viability above 80% in all tested cell lines), mitochondrial membrane potential (non-observed alterations) and intracellular ROS production (negligible impact compared to controls). Additionally, the nanovehicles showed acceptable cell internalization (covered area close to 100% at 30 min and 4 h) and endosomal escape abilities (significant decrease in lysosomal colocalization after 4 h of exposure). Moreover, molecular dynamics simulations were employed to better understand the underlying translocating mechanism of the OmpA protein, showing key findings regarding specific interactions with phospholipids. Overall, the versatility and the notable in vitro performance of this novel nanovehicle make it a suitable and promising drug delivery technology for the potential treatment of PD

Nuclei ultrastructural changes of C6/36 cells infected with virus dengue type 2

Introduction: Dengue virus replication has been considered mainly cytoplasmic, however, studies indicate that some flaviviruses may use the intranuclear pathway as part of the machinery that the virus uses to increase infection capacity in the host cell. This paper describes alterations at nuclear level in the cell infected with dengue, which are likely involved in the virus replication processes. Objective: This paper addresses the ultrastructural observations of C6/36 cells of the Aedes albopictus mosquito infected with dengue virus type 2. Materials and methods: C6/36 cells were infected in culture medium with the serum of a patient positively diagnosed for dengue 2. Subsequently, the cells were incubated for 10 days and the cytopathic effect was assessed. The cells were processed for immunofluorescence assays and transmission electron microscopy. Results: The immunofluorescence assays confirmed the presence of viral protein E associated with cellular syncytia in the culture. In the ultrastructural study, the infected cells showed vesicular-tubular structures and dilated cisterns of the endoplasmic reticulum at the cytoplasmic level. Viral particles were found exclusively in cytoplasm localized within the vacuoles. Nuclei of cellular syncytia showed membrane structures arranged in a circular shape and, in some cases, these syncytia displayed lysis; in no case viral particles were observed at the nuclear level. Conclusions: The ultrastructural alterations of nuclei in cells infected with the dengue virus using electron microscopy techniques had not been reported before, as far as we know. It is likely that such modifications are associated with replicative processes at an intranuclear level as an alternate replication mechanism