Cocirculación de virus Junin y otros mammarenavirus en área geográfica sin casos confirmados de Fiebre Hemorrágica Argentina / Co-circulation of Junin virus and other mammarenaviruses in a geographical area without confirmed cases of Argentine Hemorrhagic Fever

Resumen Desde la identificación del virus Junin en la década del 50, se realizaron numerosos estudios en roedores silvestres dentro del área endémica de la Fiebre Hemorrágica Argentina (FHA) que per mitieron registrar, además, actividad del virus de la coriomeningitis linfocitaria (LCMV) y del virus Latino (LATV). La ausencia de casos confirmados de FHA desde la década del 90 en el departamento Río Cuarto, provincia de Córdoba, promovió la vigilancia ecoepidemiológica y de infección del Calomys musculinus (reservorio del virus Junin) y la búsqueda de reservorios e infección de los otros mammarenavirus. Durante dos años de muestreo estacional, con un sistema de captura, marcación y liberación capturamos 857 roedores, que correspondieron 57.3% a los reservorios: C. musculinus (especie más abundante), C. venustus y Mus musculus. Detectamos anticuerpos y caracterizamos molecularmente los tres agentes virales. Observamos una prevalencia de infección de 3.5% (9/254) para virus Junin, 100% (3/3) para LCMV y 24.1% (21/87) para LATV. En conclusión, demostra mos circulación de virus Junin en su roedor reservorio, en una región considerada histórica para FHA con riesgo potencial para la población y cocirculación espacio-temporal de los tres mammarenavirus en la región central de Argentina.

Abstract Since the identification of Junin virus in the 1950s, many studies were carried out in wild rodents within the endemic area of the Argentine Hemorrhagic Fe ver (AHF) that recorded also the activity of the lymphocytic choriomeningitis virus (LCMV) and the Latino virus (LATV). The absence of confirmed cases of AHF since the 1990s in the department of Rio Cuarto, Córdoba province, promoted ecoepidemiological surveillance of infection of Calomys musculinus (Junin virus reservoir) and the search of reservoirs of the other mammarenaviruses. During two years of seasonal sampling, with a capture, mark and release system, 857 rodents were captured, corresponding 57.3% to the rodent reservoirs: C. musculinus, C. venustus and Mus musculus, being the first the most abundant species. Antibodies were detected and the three viral agents were molecularly characterized, showing a prevalence of infection of 3.5% (9/254) for Junin virus, 100% (3/3) for LCMV and 24.1% (21/87) for LATV. In conclusion, we demonstrated Junin virus circulation in its rodent reservoir in a region considered historic for AHF with potential risk for the population and the spatio-temporal co-circulation of the three mammarenaviruses in the central region of Argentina.

Extrinsic Acquisition of CD80 by Antigen-Specific CD8⁺ T Cells Regulates Their Recall Immune Responses to Acute Viral Infection

CD80 is mainly expressed on Ag-presenting cells (APCs) as a costimulatory molecule but is also detected on T cells. However, the origin and physiological role of CD80 on CD8⁺ T cells remain unclear. In the present study, we demonstrated that effector and memory CD8⁺ T cells, but not naïve CD8⁺ T cells, displayed CD80 molecules on their surfaces after acute lymphocytic choriomeningitis virus infection. Using adoptive transfer of CD80-knockout (KO) CD8⁺ T cells into a wild type or CD80-KO recipient, we demonstrated that the effector CD8⁺ T cells displayed CD80 by both intrinsic expression and extrinsic acquisition, while memory CD8⁺ T cells displayed CD80 only by extrinsic acquisition. Interestingly, the extrinsic acquisition of CD80 by CD8⁺ T cells was observed only in the lymphoid organs but not in the periphery, indicating the trogocytosis of CD80 molecules via interaction between CD8⁺ T cells and APCs. We compared the recall immune responses by memory CD8⁺ T cells that either extrinsically acquired CD80 or were deficient in CD80, and found that CD80, presented by memory CD8⁺ T cells, played a role in limiting their expansion and IL-2 production upon exposure to secondary challenge. Our study presents the in vivo dynamics of the extrinsic acquisition of CD80 by Ag-specific CD8⁺ T cells and its role in the regulation of recall immune responses in memory CD8+ T cells.

Primera evidencia de infección por el virus de la coriomeningitis linfocítica (arenavirus) en roedores Mus musculus capturados en la zona urbana del municipio de Sincelejo, Sucre, Colombia / First evidence of lymphocytic choriomeningitis virus (Arenavirus) infection in Mus musculus rodents captured in the urban area of the municipality of Sincelejo, Sucre, Colombia

Resumen Introducción. El virus de la coriomeningitis linfocítica es un arenavirus del Viejo Mundo que se hospeda en el ratón casero (Mus musculus), y puede causar infecciones congénitas, hidrocefalia, coriorretinitis y falla orgánica múltiple en pacientes receptores de trasplantes. En Colombia aún no se ha reportado la enfermedad mediante diagnóstico clínico, pero en estudios serológicos se ha detectado la infección por el virus Pichindé en roedores en los departamentos del Cauca y Valle del Cauca, y por el virus Guanarito, en roedores en Córdoba. Objetivo. Detectar el virus de la coriomeningitis linfocítica en M. musculus en el municipio de Sincelejo. Materiales y métodos. Se evaluaron 80 muestras de plasma mediante la prueba ELISA usando antígeno del virus de la coriomeningitis linfocítica. Además, se empleó la reacción en cadena de la polimerasa con transcriptasa inversa (RT-PCR) anidada en muestras de animales seropositivos y seronegativos para la detección del segmento S. Resultados. Se encontró una seroprevalencia de 10% (8/80) y se detectó el genoma viral en 16 muestras de cerebro; el alineamiento (en la Basic Local Alignment Search Tool, BLAST) y el análisis filogenético (mediante el programa MrBayes, versión 3.2.2) confirmaron que correspondía al virus de la coriomeningitis linfocítica. Conclusión. Los resultados indicaron que la infección por el virus de la coriomeningitis linfocítica en humanos podría ocurrir en el área urbana de Sincelejo, aunque hasta la fecha no se hayan reportado casos.

Abstract Introduction: The lymphocytic choriomeningitis virus is an Old World arenavirus that infects Mus musculus, and can cause congenital hydrocephalus, chorioretinitis and multisystemic failure in transplant human recipients. Although the disease has not been clinically diagnosed in Colombia yet, there have been reports of infection with the Pichindé virus in rodents from Cauca and Valle del Cauca departments, and with the Guanarito virus in rodents from Córdoba department. Objective: To identify the lymphocytic choriomeningitis virus from Mus musculus captured in the municipality of Sincelejo. Materials and methods: We evaluated 80 samples of plasma by ELISA using antigen from lymphocytic choriomeningitis virus. Additionally, a nested RT-PCR was performed to seropositive and seronegative samples for the S-segment. Results: We found a 10% seroprevalence (8/80) and the viral genome was detected in 16 brain samples; the alignment (BLAST) and the phylogenetic analysis (MrBayes, version 3.2.2) confirmed the presence of the lymphocytic choriomeningitis virus. Conclusion: The results indicated that human infection with the lymphocytic choriomeningitis virus in humans could occur in the urban area of Sincelejo, although no cases have been reported so far.

Semi-Functional Quantitative Flow Cytometry Assay for Lymphocytic Choriomeningitis Virus Titration

Quantitative PCR and plaque assay are powerful virological techniques used to measure the load of defective or infectious virus in mouse and human. However, these methods display limitations such as cross contamination and long run-time. Here, we describe a novel technique termed as semi-functional quantitative flow cytometry (SFQF) for the accurate estimation of the quantity of infectious lymphocytic choriomeningitis virus (LCMV). LCMV titration method using flow cytometry was previously developed but has technical shortcomings, owing to the less optimized parameters such as cell overgrowth, plate scale, and detection threshold. Therefore, we first established optimized conditions for SFQF assay using LCMV nucleoprotein (NP)-specific antibody to evaluate the threshold of the virus detection range in the plaque assay. We subsequently demonstrated that the optimization of the method increased the sensitivity of virus detection. We revealed several new advantages of SFQF assay, which overcomes some of the previously contentious points, and established an upgraded version of the previously reported flow cytometric titration assay. This method extends the detection scale to the level of single cell, allowing extension of its application for in vivo detection of infected cells and their phenotypic analysis. Thus, SFQF assay may serve as an alternative analytical tool for ensuring the reliability of LCMV titration and can be used with other types of viruses using target-specific antibodies.

Fiebres hemorrágicas por Arenavirus en Latinoamérica / Hemorrhagic fever Arenaviruses in Latin America

Las fiebres hemorrágicas virales producidas por Arenavirus incluyen a los virus endémicos en África (Lassa) y el virus de la coriomeningitis linfocítica (LCMV), de distribución mundial, y los Arenavirus del Nuevo Mundo o Complejo Tacaribe, que incluye a los virus endémicos en las Américas (Junín, Machupo, Guanarito, Sabiá, Pichinde, entre otros). Los huéspedes naturales son los roedores y la infección en humanos se produce por el contacto con la orina y excretas. Las manifestaciones clínicas inicialmente son indistinguibles de otras fiebres hemorrágicas producidas por bacterias, parásitos y otros virus, constituyéndose esto en un problema de salud pública, por lo que se requiere realizar el diagnóstico diferencial utilizando técnicas serológicas y moleculares.

Viral hemorrhagic fevers caused by Arenaviruses include endemic viruses in Africa (Lassa fever) and lymphocytic choriomeningitis virus (LCMV) of worldwide distribution, and the New World Arenavirus or Tacaribe Complex, which includes endemic viruses in the Americas (Junin, Machupo, Guanarito, Sabia, Pichinde, among others). The natural hosts are rodents and human infection occurs through contact with urine and excrements. The clinical manifestations are initially indistinguishable from other viral hemorrhagic fevers caused by bacteria, parasites and other viruses, constituting a public health problem. So it requires a differential diagnosis using serological and molecular techniques..