A pilot study revealing host‐associated genetic signatures for source attribution of sporadic Campylobacter jejuni infection in Egypt

Campylobacter jejuni (C. jejuni), is considered among the most common bacterial causes of human bacterial gastroenteritis worldwide. The epidemiology and the transmission dynamics of campylobacteriosis in Egypt remain poorly defined due to the limited use of high‐resolution typing methods. In this p...

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Published inTransboundary and emerging diseases Vol. 69; no. 4; pp. 1847 - 1861
Main Authors Saif, Nehal A., Cobo‐Díaz, José F., Elserafy, Menattallah, El‐Shiekh, Iman, Álvarez‐Ordóñez, Avelino, Mouftah, Shaimaa F., Elhadidy, Mohamed
Format Journal Article
LanguageEnglish
Published Berlin Hindawi Limited 01.07.2022
Subjects
Campylobacter
Campylobacter jejuni
Campylobacteriosis
CGF40
cgMLST
Chickens
Clinical isolates
Dairy products
Epidemiology
Fingerprinting
Gastroenteritis
Gene sequencing
Genomes
Genomic analysis
Genotyping
host‐segregating markers
Infections
Markers
MLST
Multilocus sequence typing
Nucleotide sequence
Source attribution
Whole genome sequencing
Egypt
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Summary:Campylobacter jejuni (C. jejuni), is considered among the most common bacterial causes of human bacterial gastroenteritis worldwide. The epidemiology and the transmission dynamics of campylobacteriosis in Egypt remain poorly defined due to the limited use of high‐resolution typing methods. In this pilot study, we evaluated the discriminatory power of multiple typing ‘gene‐by‐gene based’ techniques to characterize C. jejuni obtained from different sources and estimate the relative contribution of different potential sources of C. jejuni infection in Egypt. Whole genome sequencing (WGS) was performed on 90 C. jejuni isolates recovered from clinical samples, retail chicken, and dairy products in Egypt from 2017 to 2018. Comparative genomic analysis was performed using conventional seven‐locus multilocus sequence typing (MLST), ribosomal MLST (rMLST), core genome MLST (cgMLST), allelic variation in 15 host‐segregating (HS) markers, and comparative genomic fingerprinting (CGF40). The probabilistic source attribution was performed via STRUCTURE software using MLST, CGF40, cgMLST and allelic variation in HS markers. Comparison of the discriminatory power of the aforementioned genotyping methods revealed cgMLST to be the most discriminative method, followed by HS markers. The source attribution analysis showed the role of retail chicken as a source of infection among clinical cases in Egypt when HS and cgMLST were used (64.2% and 52.3% of clinical isolates were assigned to this source, respectively). Interestingly, the cattle reservoir was also identified as a contributor to C. jejuni infection in Egypt; 35.8% and 47.7% of clinical isolates were assigned to this source by HS and cgMLST, respectively. Here, we provided evidence of the importance of using WGS typing methods to facilitate source tracking of C. jejuni. Our findings suggest the importance of non‐poultry sources, together with the previously reported role of retail chicken in human campylobacteriosis in Egypt that can provide insights to inform national control measures.
Bibliography:These authors contributed equally to the manuscript
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ISSN:1865-1674
1865-1682
DOI:10.1111/tbed.14165