Pathogens (Aug 2023)

<i>Brucella ceti</i> Infection in Striped Dolphins from Italian Seas: Associated Lesions and Epidemiological Data

  • Carla Grattarola,
  • Antonio Petrella,
  • Giuseppe Lucifora,
  • Gabriella Di Francesco,
  • Fabio Di Nocera,
  • Antonio Pintore,
  • Cristiano Cocumelli,
  • Giuliana Terracciano,
  • Antonio Battisti,
  • Ludovica Di Renzo,
  • Donatella Farina,
  • Cristina Esmeralda Di Francesco,
  • Maria Ines Crescio,
  • Simona Zoppi,
  • Alessandro Dondo,
  • Barbara Iulini,
  • Katia Varello,
  • Walter Mignone,
  • Maria Goria,
  • Virginia Mattioda,
  • Federica Giorda,
  • Giovanni Di Guardo,
  • Anna Janowicz,
  • Manuela Tittarelli,
  • Fabrizio De Massis,
  • Cristina Casalone,
  • Giuliano Garofolo

DOI
https://doi.org/10.3390/pathogens12081034
Journal volume & issue
Vol. 12, no. 8
p. 1034

Abstract

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Brucella ceti infections have been increasingly reported in cetaceans. In this study, we analyzed all cases of B. ceti infection detected in striped dolphins stranded along the Italian coastline between 2012 and 2021 (N = 24). We focused on the pathogenic role of B. ceti through detailed pathological studies, and ad hoc microbiological, biomolecular, and serological investigations, coupled with a comparative genomic analysis of the strains. Neurobrucellosis was observed in 20 animals. The primary histopathologic features included non-suppurative meningoencephalitis (N = 9), meningitis (N = 6), and meningoencephalomyelitis (N = 5), which was also associated with typical lesions in other tissues (N = 8). Co-infections were detected in more than half of the cases, mostly involving Cetacean Morbillivirus (CeMV). The 24 B. ceti isolates were assigned primarily to sequence type 26 (ST26) (N = 21) and, in a few cases, ST49 (N = 3). The multilocus sequence typing (cgMLST) based on whole genome sequencing (WGS) data showed that strains from Italy clustered into four genetically distinct clades. Plotting these clades onto a geographic map suggests a link between their phylogeny and the topographical distribution. These results support the role of B. ceti as a primary neurotropic pathogen for striped dolphins and highlight the utility of WGS data in understanding the evolution of this emerging pathogen.

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