Vigilancia epidemiológica de COVID-19 mediante testeos agrupados focalizada en trabajadores de salud asintomáticos en Bahía Blanca / Epidemiological surveillance of COVID-19 through group testing focused on asymptomatic health workers in Bahía Blanca

INTRODUCCIÓN: Uno de los desafíos más relevantes al comienzo de la pandemia consistió en implementar estrategias dirigidas a prevenir la transmisión del virus SARS-CoV-2 y mitigar el impacto de la COVID-19. El propósito de este estudio fue contribuir a reducir la transmisión comunitaria a través de una iniciativa interinstitucional, cuyos objetivos fueron validar un método de detección de ARN del SARS-CoV-2 e implementar y evaluar la vigilancia en trabajadores de salud asintomáticos de instituciones de salud pública de Bahía Blanca. MÉTODOS: Se validó una prueba de detección del gen E del coronavirus mediante RT-PCR a partir de ARN aislado de hisopados nasofaríngeos. Para aumentar la capacidad de testeo se validó la detección del ARN viral en muestras agrupadas (pooles). Se realizó un estudio de cohorte prospectiva entre el 15/09/20 y el 15/09/21. RESULTADOS: La sensibilidad y especificidad de la prueba en muestras individuales fue del 95% (IC 95%: 85%-100%). La sensibilidad de la detección en pooles fue del 73% (IC 95%: 46%-99%) y la especificidad, del 100%. A lo largo de la vigilancia se incluyeron 855 trabajadores y 1764 hisopados, con una incidencia acumulada anual de 2,3% (IC 95%: 1,2%-3,4%). Se detectaron 20 casos asintomáticos positivos. DISCUSIÓN: El tamizaje de trabajadores de salud asintomáticos en la pandemia contribuyó a reducir el riesgo de brotes hospitalarios. Asimismo, se generó un marco de trabajo interdisciplinario aplicable a otros problemas de salud.

COVID-19 epidemiological surveillance through pool testing focused on asymptomatic healthcare workers in the city of Bahía Blanca / Vigilancia epidemiológica de covid-19 mediante testeos agrupados focalizada en trabajadores de salud asintomáticos en bahía blanca

RESUMEN INTRODUCCIÓN: Uno de los desafíos más relevantes al comienzo de la pandemia consistió en implementar estrategias dirigidas a prevenir la transmisión del virus SARS-CoV-2 y mitigar el impacto de la COVID-19. El propósito de este estudio fue contribuir a reducir la transmisión comunitaria a través de una iniciativa interinstitucional, cuyos objetivos fueron validar un método de detección de ARN del SARS-CoV-2 e implementar y evaluar la vigilancia en trabajadores de salud asintomáticos de instituciones de salud pública de Bahía Blanca. MÉTODOS: Se validó una prueba de detección del gen E del coronavirus mediante RT-PCR a partir de ARN aislado de hisopados nasofaríngeos. Para aumentar la capacidad de testeo se validó la detección del ARN viral en muestras agrupadas (pooles). Se realizó un estudio de cohorte prospectiva entre el 15/09/20 y el 15/09/21. RESULTADOS: La sensibilidad y especificidad de la prueba en muestras individuales fue del 95% (IC 95%: 85%-100%). La sensibilidad de la detección en pooles fue del 73% (IC 95%: 46%-99%) y la especificidad, del 100%. A lo largo de la vigilancia se incluyeron 855 trabajadores y 1764 hisopados, con una incidencia acumulada anual de 2,3% (IC 95%: 1,2%-3,4%). Se detectaron 20 casos asintomáticos positivos. DISCUSIÓN: El tamizaje de trabajadores de salud asintomáticos en la pandemia contribuyó a reducir el riesgo de brotes hospitalarios. Asimismo, se generó un marco de trabajo interdisciplinario aplicable a otros problemas de salud.

ABSTRACT INTRODUCTION: One of the most important challenges at the beginning of the pandemic was to implement strategies to prevent SARS-CoV-2 virus transmission and reduce the impact of COVID-19. The purpose of this study was to contribute to the reduction of community transmission through an interinstitutional initiative, aimed at validating a SARS-CoV-2 RNA detection method, and at implementing and assessing the surveillance of asymptomatic infected healthcare workers (HCWs) at public health institutions in the city of Bahía Blanca. METHODS: To validate a coronavirus RNA detection method, RNA was extracted from nasopharyngeal swabs and identification of the viral E gene was done by RT-PCR. Validation of sample pooling was performed to increase the testing capacity. A prospective cohort study was conducted from 15 September 2020 to 15 September 2021. RESULTS: The sensitivity and specificity of the test in individual samples was 95% (CI 95%: 85%-100%). The sensitivity of the pooling strategy was 73% (CI 95%: 46%-99%) and the specificity was 100%. A total of the 855 HCWs were included in the surveillance and 1764 swabs were performed, with an annual cumulative incidence of 2.3% (CI 95%: 1,2%-3,4%), and 20 positive asymptomatic cases were detected. DISCUSSION: The screening of asymptomatic HCWs during the pandemic contributed to reduce the risk of outbreaks in hospital settings. Moreover, an interdisciplinary team framework applicable to other health problems was generated.

Pigment epithelium-derived factor (PEDF) and derived peptides promote survival and differentiation of photoreceptors and induce neurite-outgrowth in amacrine neurons.

Pigment epithelium-derived factor (PEDF) is a cytoprotective protein for the retina. We hypothesize that this protein acts on neuronal survival and differentiation of photoreceptor cells in culture. The purpose of the present study was to evaluate the neurotrophic effects of PEDF and its fragments in an in vitro model of cultured primary retinal neurons that die spontaneously in the absence of trophic factors. We used Wistar albino rats. Cell death was assayed by immunofluorescence and flow cytometry through TUNEL assay, propidium iodide, mitotracker, and annexin V. Immunofluorescence of cells for visualizing rhodopsin, CRX, and antisyntaxin under confocal microscopy was performed. Neurite outgrowth was also quantified. Results show that PEDF protected photoreceptor precursors from apoptosis, preserved mitochondrial function and promoted polarization of opsin enhancing their developmental process, as well as induced neurite outgrowth in amacrine neurons. These effects were abolished by an inhibitor of the PEDF receptor or receptor-derived peptides that block ligand/receptor interactions. While all the activities were specifically conferred by short peptide fragments (17 amino acid residues) derived from the PEDF neurotrophic domain, no effects were triggered by peptides from the PEDF antiangiogenic region. The observed effects on retinal neurons imply a specific activation of the PEDF receptor by a small neurotrophic region of PEDF. Our findings support the neurotrophic PEDF peptides as neuronal guardians for the retina, highlighting their potential as promoters of retinal differentiation, and inhibitors of retinal cell death and its blinding consequences. Cover Image for this issue: https://doi.org/10.1111/jnc.15089.

Protective effects of retinoid x receptors on retina pigment epithelium cells.

Age-related macular degeneration (AMD) is among the main pathologies leading to blindness in adults and has currently no cure or effective treatment. Selective apoptosis of retina pigment epithelial (RPE) cells results in the progressive loss of photoreceptor neurons, with the consequent gradual vision loss. Oxidative stress plays an important role in this process. We have previously determined that activation of RXRs protects rat photoreceptor neurons from oxidative stress-induced apoptosis. In this study we investigated whether RXR ligands prevented apoptosis in an RPE cell line, D407 cells, exposed to hydrogen peroxide (H2O2). H2O2 induced apoptosis of D407 cells, promoting p65NFκB nuclear translocation, increasing Bax mRNA expression, activating caspase-3 and altering cell morphology. We show, for the first time, that HX630, a RXR pan-agonist, protected D407 cells from H2O2-induced apoptosis, preventing p65NFκB nuclear translocation, increasing Bclxl and PPARγ mRNA levels and simultaneously decreasing Bax mRNA levels and caspase-3 activation. Pretreatment with a RXR antagonist blocked HX630 protection. LG100754, which binds RXRs but only activates heterodimers and is an antagonist of RXR homodimers, also had a protective effect. In addition, only agonists known to bind to RXR/PPARγ were protective. As a whole, our results suggest that RXR activation protects RPE cells from oxidative stress-induced apoptosis and this protection might involve signaling through a heterodimeric receptor, such as RXR/PPARγ. These data also imply that RXR agonists might provide potential pharmacological tools for treating retina degenerative diseases.

Synthesis of docosahexaenoic acid from eicosapentaenoic acid in retina neurons protects photoreceptors from oxidative stress.

Oxidative stress is involved in activating photoreceptor death in several retinal degenerations. Docosahexaenoic acid (DHA), the major polyunsaturated fatty acid in the retina, protects cultured retina photoreceptors from apoptosis induced by oxidative stress and promotes photoreceptor differentiation. Here, we investigated whether eicosapentaenoic acid (EPA), a metabolic precursor to DHA, had similar effects and whether retinal neurons could metabolize EPA to DHA. Adding EPA to rat retina neuronal cultures increased opsin expression and protected photoreceptors from apoptosis induced by the oxidants paraquat and hydrogen peroxide (H2 O2 ). Palmitic, oleic, and arachidonic acids had no protective effect, showing the specificity for DHA. We found that EPA supplementation significantly increased DHA percentage in retinal neurons, but not EPA percentage. Photoreceptors and glial cells expressed Δ6 desaturase (FADS2), which introduces the last double bond in DHA biosynthetic pathway. Pre-treatment of neuronal cultures with CP-24879 hydrochloride, a Δ5/Δ6 desaturase inhibitor, prevented EPA-induced increase in DHA percentage and completely blocked EPA protection and its effect on photoreceptor differentiation. These results suggest that EPA promoted photoreceptor differentiation and rescued photoreceptors from oxidative stress-induced apoptosis through its elongation and desaturation to DHA. Our data show, for the first time, that isolated retinal neurons can synthesize DHA in culture. Docosahexaenoic acid (DHA), the major polyunsaturated fatty acid in retina photoreceptors, and its precursor, eicosapentaenoic acid (EPA) have multiple beneficial effects. Here, we show that retina neurons in vitro express the desaturase FADS2 and can synthesize DHA from EPA. Moreover, addition of EPA to these cultures protects photoreceptors from oxidative stress and promotes their differentiation through its metabolization to DHA.

Light, lipids and photoreceptor survival: live or let die?

Due to its constant exposure to light and its high oxygen consumption the retina is highly sensitive to oxidative damage, which is a common factor in inducing the death of photoreceptors after light damage or in inherited retinal degenerations. The high content of docosahexaenoic acid (DHA), the major polyunsaturated fatty acid in the retina, has been suggested to contribute to this sensitivity. DHA is crucial for developing and preserving normal visual function. However, further roles of DHA in the retina are still controversial. Current data support that it can tilt the scale either towards degeneration or survival of retinal cells. DHA peroxidation products can be deleterious to the retina and might lead to retinal degeneration. However, DHA has also been shown to act as, or to be the source of, a survival molecule that protects photoreceptors and retinal pigment epithelium cells from oxidative damage. We have established that DHA protects photoreceptors from oxidative stress-induced apoptosis and promotes their differentiation in vitro. DHA activates the retinoid X receptor (RXR) and the ERK/MAPK pathway, thus regulating the expression of anti and pro-apoptotic proteins. It also orchestrates a diversity of signaling pathways, modulating enzymatic pathways that control the sphingolipid metabolism and activate antioxidant defense mechanisms to promote photoreceptor survival and development. A deeper comprehension of DHA signaling pathways and context-dependent behavior is required to understand its dual functions in retinal physiology.

Docosahexaenoic acid prevents apoptosis of retina photoreceptors by activating the ERK/MAPK pathway.

Identifying the trophic factors for retina photoreceptors and the intracellular pathways activated to promote cell survival is crucial for treating retina neurodegenerative diseases. Docosahexaenoic acid (DHA), the major retinal polyunsaturated fatty acid, prevents photoreceptor apoptosis during early development in vitro, and upon oxidative stress. However, the signaling mechanisms activated by DHA are still unclear. We investigated whether the extracellular signal regulated kinase (ERK)/mitogen-activated protein kinase (MAPK) or the phosphatidylinositol-3-kinase (PI3K) pathway participated in DHA protection. 1,4-Diamino-2,3-dicyano-1,4-bis(2-aminophynyltio) butadiene (U0126), a specific MEK inhibitor, completely blocked the DHA anti-apoptotic effect. DHA rapidly increased ERK phosphorylation in photoreceptors, whereas U0126 blocked this increase. U0126 hindered DHA prevention of mitochondrial depolarization, and blocked the DHA-induced increase in opsin expression. On the contrary, PI3K inhibitors did not diminish the DHA protective effect. DHA promoted the early expression of Bcl-2, decreased Bax expression and reduced caspase-3 activation in photoreceptors. These results suggest that DHA exclusively activates the ERK/MAPK pathway to promote photoreceptor survival during early development in vitro and upon oxidative stress. This leads to the regulation of Bcl-2 and Bax expression, thus preserving mitochondrial membrane potential and inhibiting caspase activation. Hence, DHA, a lipid trophic factor, promotes photoreceptor survival and differentiation by activating the same signaling pathways triggered by peptidic trophic factors.