Andres Rojas Gulloso scite author profile

Chagas disease remains a major neglected disease in Colombia. We aimed to characterize Trypanosoma cruzi transmission networks in the Sierra Nevada de Santa Marta (SNSM) region, to shed light on disease ecology and help optimize control strategies. Triatomines were collected in rural communities and analyzed for blood feeding sources, parasite diversity and gut microbiota composition through a metagenomic and deep sequencing approach. Triatoma dimidiata predominated, followed by Rhodnius prolixus, Triatoma maculata, Rhodnius pallescens, Panstrongylus geniculatus and Eratyrus cuspidatus. Twenty-two species were identified as blood sources, resulting in an integrated transmission network with extensive connectivity among sylvatic and domestic host species. Only TcI parasites were detected, predominantly from TcIb but TcIa was also reported. The close relatedness of T. cruzi strains further supported the lack of separate transmission cycles according to habitats or triatomine species. Triatomine microbiota varied according to species, developmental stage and T. cruzi infection. Bacterial families correlated with the presence/absence of T. cruzi were identified. In conclusion, we identified a domestic transmission cycle encompassing multiple vector species and tightly connected with sylvatic hosts in the SNSM region, rather than an isolated domestic transmission cycle. Therefore, integrated interventions targeting all vector species and their contact with humans should be considered.

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Effect of Geographic Isolation on the Nasal Virome of Indigenous Children

Altan

Dib

Gulloso³

et al. 2019

J Virol

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The influence of living in small remote villages on the diversity of viruses in the nasal mucosa was investigated in three Colombian villages with very different levels of geographic isolation. Metagenomic analysis was used to characterize viral nucleic acids in nasal swabs from 63 apparently healthy young children. Sequences from human virus members of the families Anelloviridae, Papillomaviridae, Picornaviridae, Herpesviridae, Polyomaviridae, Adenoviridae, and Paramyxoviridae were detected in decreasing proportions of children. The number of papillomavirus infections detected was greater among Hispanic children most exposed to outside contacts, while anellovirus infections were more common in the isolated indigenous villages. The diversity of the other human viruses detected did not differ among the villages. Closely related variants of rhinovirus A or B were identified in 2 to 4 children from each village, reflecting ongoing transmission clusters. Genomes of viruses not currently known to infect humans, including members of the families Parvoviridae, Partitiviridae, Dicistroviridae, and Iflaviridae and circular Rep-encoding single-stranded DNA (CRESS-DNA) virus, were also detected in nasal swabs, possibly reflecting environmental contamination from insect, fungal, or unknown sources. Despite the high levels of geographic and cultural isolation, the overall diversity of human viruses in the nasal passages of children was not reduced in highly isolated indigenous villages, indicating ongoing exposure to globally circulating viruses. IMPORTANCE Extreme geographic and cultural isolation can still be found in some indigenous South American villages. Such isolation may be expected to limit the introduction of otherwise common and widely distributed viruses. Very small population sizes may also result in rapid local viral extinction due to a lack of seronegative subjects to maintain transmission chains for rapidly cleared viruses. We compared the viruses in the nasal passages of young children in three villages with increasing levels of geographic isolation. We found that isolation did not reduce the overall diversity of viral infections. Multiple infections with nearly identical rhinoviruses could be detected within each village, likely reflecting recent viral introductions and transmission clusters among epidemiologically linked members of these very small communities. We conclude that, despite their geographic isolation, remote indigenous villages show evidence of ongoing exposure to globally circulating viruses.

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Effect of geographic isolation on the nasal virome of indigenous children

Altan

Dib²,

Gulloso³

et al. 2019

Preprint

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Búsqueda de Hantavirus y Arenavirus en roedores de Villavicencio, Colombia

et al. 2024

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Objetivo. Realizar una búsqueda de Hantavirus y Arenavirus en pequeños roedores y establecer su distribución espacial en diferentes ecosistemas del municipio de Villavicencio, departamento del Meta, Colombia. Materiales y método. Se realizó un estudio descriptivo de corte transversal, entre octubre de 2018 octubre de 2019 en zonas periurbanas y rurales del municipio de Villavicencio. Se capturaron roedores empleando trampas tipo Sherman. La detección molecular de Hantavirus se llevó a cabo usando cebadores forward SAHN-S y reverse SAHN-C y para Arenavirus cebadores forward GP878+ y reverse GP1126. Resultados. Un total de 50 roedores fueron capturados, el éxito de captura fue del 1.7%. Los roedores capturados pertenecían a 3 familias y 6 especies, las familias más frecuentes fueron Muridae (76%) Cricetidae (22%) y Echimydae (2%). Todas las muestras resultaron negativas para Hantavirus y Arenavirus. Conclusión. El estudio de pequeños roedores contribuye con la vigilancia de enfermedades transmitidas por estos mamíferos que actúan como reservorios.

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