Fatal <i>Simplexvirus humanalpha1</i> infection in howler‐monkeys (<i>Alouatta</i> sp.) under human care: Clinical, molecular, and pathological findings

Echenique, Joanna V. Z.; Gris, Anderson H.; Camargo, Laura J.; De Lorenzo, Cíntia; Bertolini, Marianna; Barbosa, Franscisca M. S.; Ansolch, Moira; Canal, Cláudio W.; Panziera, Welden; Pavarini, Saulo P.; Sonne, Luciana

doi:10.1111/jmp.12670

J of Medical Primatology

2023

DOI: 10.1111/jmp.12670

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Fatal Simplexvirus humanalpha1 infection in howler‐monkeys (Alouatta sp.) under human care: Clinical, molecular, and pathological findings

Joanna V. Z. Echenique,

Anderson H. Gris,

Laura J. Camargo

et al.

Abstract: BackgroundSimplexvirus humanalpha1 (HuAHV‐1) are common anthropozoonosis reported in marmosets but rare in howler monkeys (Alouatta sp.).MethodsNecropsy of two brown‐howler monkeys (A. caraya) and one red‐howler monkey (A. guariba clamitans) from different zoo collections were performed. Fragments of all organs were examined through microscopy. Samples were submitted to IHC for Simplexvirus humanalpha 2 (HuAHV‐2) [sin. Herpesvirus simplex type 2] and PCR.ResultsGrossly, only the A. guariba showed liver lesions… Show more

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2024

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Unveiling the diversity, transmission, and zoonotic potential of microbes in true insectivores

Li,

Huang,

Lan

et al. 2024

Preprint

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The Eulipotyphla (true insectivores) is the third largest mammalian order, comprising over 500 species, and could be an important source of human infectious diseases. However, relatively little is known about the diversity of microbes in insectivores and the contribution of insectivores to virus transmission more specifically among wild hosts. In this study, we compiled a comprehensive dataset containing over 400,000 records of insectivores and their associated microbes from 1903 to 2023. Our analyses showed that insectivores host a wide spectrum of 941 microbes, 60% of which are viruses and are predominantly found in the shrew and hedgehog families. Notably, human-associated viruses harbored by shrews and hedgehogs were phylogenetically closely related to those found in humans, suggesting potential bidirectional transmission between insectivores and humans. Moreover, virus-sharing networks revealed that insectivores held the second-most central position for virus sharing, just second to bats, among all mammalian orders. Insectivores had a high proportion of cross-order transmitted viruses, including many human-associated viruses. Dietary diversity, habitat diversity, and distributional traits (e.g. geographical range size, mean latitude, and urban adaptation status) emerged as the key ecological factors contributing to this cross-species virus transmission. Our findings highlight the microbial diversity present in insectivores, indicating this order may act as potential incubators for novel viruses capable of infecting mammals and spreading viruses of public health concern.

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Unveiling the diversity, transmission, and zoonotic potential of microbes in true insectivores

Li,

Huang,

Lan

et al. 2024

Preprint

View full text Add to dashboard Cite

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Fatal Simplexvirus humanalpha1 infection in howler‐monkeys (Alouatta sp.) under human care: Clinical, molecular, and pathological findings

Cited by 1 publication

References 26 publications

Unveiling the diversity, transmission, and zoonotic potential of microbes in true insectivores

Unveiling the diversity, transmission, and zoonotic potential of microbes in true insectivores

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