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Main Authors: Cossu, Carlo Andrea, Wentzel, Jeanette, de Klerk, Lin-Mari, De Massis, Fabrizio, Godfroid, Jacques, van Schalkwyk, Louis Ockert, Garofolo, Giuliano, van Heerden, Henriette
Format: Artículo científico
Language:en
Published: PLoS neglected tropical diseases 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41379935/
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author Cossu, Carlo Andrea
Wentzel, Jeanette
de Klerk, Lin-Mari
De Massis, Fabrizio
Godfroid, Jacques
van Schalkwyk, Louis Ockert
Garofolo, Giuliano
van Heerden, Henriette
author_facet Cossu, Carlo Andrea
Wentzel, Jeanette
de Klerk, Lin-Mari
De Massis, Fabrizio
Godfroid, Jacques
van Schalkwyk, Louis Ockert
Garofolo, Giuliano
van Heerden, Henriette
Cossu, Carlo Andrea
Wentzel, Jeanette
de Klerk, Lin-Mari
De Massis, Fabrizio
Godfroid, Jacques
van Schalkwyk, Louis Ockert
Garofolo, Giuliano
van Heerden, Henriette
collection PubMed - marine biology
contents Epidemiological baseline of Brucella spp. in South African wildlife. Cossu, Carlo Andrea Wentzel, Jeanette de Klerk, Lin-Mari De Massis, Fabrizio Godfroid, Jacques van Schalkwyk, Louis Ockert Garofolo, Giuliano van Heerden, Henriette Animals South Africa Brucellosis Animals, Wild Brucella Seroepidemiologic Studies DNA, Bacterial Brucellosis is a globally significant zoonotic disease, yet its ecology in wildlife remains poorly understood. In this study, we investigated the circulation of Brucella spp. in a wide range of wild mammals from multiple protected areas in South Africa. Organ and serum samples from 722 animals representing 23 species were analyzed employing a conservative diagnostic strategy, combining serology (rose bengal test confirmed by indirect ELISA) and four PCR-based assays in series, to maximize specificity and interpretative solidity. Molecular detection revealed Brucella spp. DNA in several atypical host species, including plains zebra, hippopotamus, African elephant, giraffe, warthog, cheetah, and African wild dog, expanding the known host range. In Greater Kruger National Park, African buffalo exhibited high seroprevalence (24/106; 23%, CI: 15-32%) and even higher molecular prevalence (29/57; 51%, CI: 37-64%), supporting their role as a primary wildlife reservoir for B. abortus in the region. One B. abortus isolate cultured from the spleen of a zebra and characterized by multiloci variable number of tandem repeat analysis (MLVA) showed genetic relatedness to South African buffalo and South American cattle strains. Co-infections with B. abortus and B. melitensis were identified in 17 animals across seven species. Notably, B. melitensis was detected in species (elephant, hippopotamus, zebra) not typically associated with small ruminants, suggesting complex interspecies transmission dynamics. Our findings underscore the limitations of serological testing and highligts the value of molecular diagnostics in understanding the epidemiology of Brucella spp. in South Africa. The detection of B. abortus and/or B. melitensis DNA in a range of wildlife species, including carnivores and megaherbivores, emphasises the need for integrated One Health surveillance approaches to enhance understanding of the disease's life cycle and transmission dynamics.
format Artículo científico
id pubmed_41379935
institution PubMed
language en
publishDate 2025
publisher PLoS neglected tropical diseases
record_format pubmed
spellingShingle Epidemiological baseline of Brucella spp. in South African wildlife.
Cossu, Carlo Andrea
Wentzel, Jeanette
de Klerk, Lin-Mari
De Massis, Fabrizio
Godfroid, Jacques
van Schalkwyk, Louis Ockert
Garofolo, Giuliano
van Heerden, Henriette
Animals
South Africa
Brucellosis
Animals, Wild
Brucella
Seroepidemiologic Studies
DNA, Bacterial
Epidemiological baseline of Brucella spp. in South African wildlife. Cossu, Carlo Andrea Wentzel, Jeanette de Klerk, Lin-Mari De Massis, Fabrizio Godfroid, Jacques van Schalkwyk, Louis Ockert Garofolo, Giuliano van Heerden, Henriette Animals South Africa Brucellosis Animals, Wild Brucella Seroepidemiologic Studies DNA, Bacterial Brucellosis is a globally significant zoonotic disease, yet its ecology in wildlife remains poorly understood. In this study, we investigated the circulation of Brucella spp. in a wide range of wild mammals from multiple protected areas in South Africa. Organ and serum samples from 722 animals representing 23 species were analyzed employing a conservative diagnostic strategy, combining serology (rose bengal test confirmed by indirect ELISA) and four PCR-based assays in series, to maximize specificity and interpretative solidity. Molecular detection revealed Brucella spp. DNA in several atypical host species, including plains zebra, hippopotamus, African elephant, giraffe, warthog, cheetah, and African wild dog, expanding the known host range. In Greater Kruger National Park, African buffalo exhibited high seroprevalence (24/106; 23%, CI: 15-32%) and even higher molecular prevalence (29/57; 51%, CI: 37-64%), supporting their role as a primary wildlife reservoir for B. abortus in the region. One B. abortus isolate cultured from the spleen of a zebra and characterized by multiloci variable number of tandem repeat analysis (MLVA) showed genetic relatedness to South African buffalo and South American cattle strains. Co-infections with B. abortus and B. melitensis were identified in 17 animals across seven species. Notably, B. melitensis was detected in species (elephant, hippopotamus, zebra) not typically associated with small ruminants, suggesting complex interspecies transmission dynamics. Our findings underscore the limitations of serological testing and highligts the value of molecular diagnostics in understanding the epidemiology of Brucella spp. in South Africa. The detection of B. abortus and/or B. melitensis DNA in a range of wildlife species, including carnivores and megaherbivores, emphasises the need for integrated One Health surveillance approaches to enhance understanding of the disease's life cycle and transmission dynamics.
title Epidemiological baseline of Brucella spp. in South African wildlife.
topic Animals
South Africa
Brucellosis
Animals, Wild
Brucella
Seroepidemiologic Studies
DNA, Bacterial
url https://pubmed.ncbi.nlm.nih.gov/41379935/