Characterization of antibiotic determinants and heavy metal resistance genes in Escherichia coli from pigs in Catalonia.

IF 4 2区生物学 Q1 GENETICS & HEREDITY

Microbial Genomics Pub Date : 2025-03-01 DOI:10.1099/mgen.0.001371

Biel Garcias, William Monteith, Anna Vidal, Laia Aguirre, Ben Pascoe, Carolin M Kobras, Matthew D Hitchings, Samuel K Sheppard, Marga Martin, Laila Darwich

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引用次数: 0

Abstract

More antibiotics are administered to livestock animals than to treat human infections. Industrialization, large animal densities and early weaning mean pigs are exposed to more antibiotics than any other livestock animal. Consequently, antimicrobial resistance (AMR) is common among commensal and pathogenic bacteria. Heavy metals (HMs) are also often used as feed additives for growth promotion and infection prevention alongside antimicrobials, and increased exposure to copper, zinc and cadmium can further encourage AMR through co-selection. In this study, we sequenced an archived collection of 112 Escherichia coli isolates from pigs in Catalonia using short- and long-read sequencing methods to detect AMR and HM tolerance genes. The most common AMR genes were mdfA (84.8%), aph(3″)-Ib (52.7%), bla _TEM-1B (45.6%) and aph(6)-Id (45.6%). Genes relevant to public health, such as the extended-spectrum β-lactamases (15.4%), bla _CTX-M type or bla _SHV, or mobile colistin resistance (mcr) genes (13.4%), such as mcr-1, were also found. HM tolerance genes were present in almost every genome but were rarely located in plasmids, and, in most cases, AMR and HM tolerance genes were not located on the same plasmids. Of the genes predicted to increase tolerance to HMs, only those with activity to mercury were co-located on plasmids alongside other AMR determinants. However, mercury is rarely used in pig farming and does not support a scenario where AMR and HM genes are co-selected. Finally, we identified the exclusive association between mcr-4 and ColE10 plasmid, which may help target interventions to curtail its spread among pig Escherichia coli.

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加泰罗尼亚猪源大肠杆菌抗生素决定因素和重金属耐药基因的研究。

用于家畜的抗生素比用于治疗人类感染的抗生素要多。工业化、大动物密度和早期断奶意味着猪比任何其他牲畜接触到更多的抗生素。因此，抗微生物药物耐药性（AMR）是常见的共生菌和致病菌。重金属（HMs）也常与抗菌剂一起用作促进生长和预防感染的饲料添加剂，铜、锌和镉的暴露增加可通过共同选择进一步鼓励抗菌素耐药性。在这项研究中，我们使用短读和长读测序方法对从加泰罗尼亚猪中分离的112株大肠杆菌进行测序，以检测AMR和HM耐受基因。最常见的AMR基因为mdfA（84.8%）、aph（3″）-Ib（52.7%）、bla TEM-1B（45.6%）和aph(6)-Id（45.6%）。与公共卫生相关的基因，如广谱β-内酰胺酶（15.4%）、bla CTX-M型或bla SHV，或移动粘菌素耐药性（mcr）基因（13.4%），如mcr-1。HM耐受基因几乎存在于每个基因组中，但很少位于质粒上，而且在大多数情况下，AMR和HM耐受基因不位于同一质粒上。在预测会增加对HMs耐受性的基因中，只有那些对汞有活性的基因与其他AMR决定因素一起位于质粒上。然而，汞很少在养猪业中使用，也不支持抗菌素耐药性和HM基因共同选择的设想。最后，我们确定了mcr-4和ColE10质粒之间的独家关联，这可能有助于靶向干预，以减少其在猪大肠杆菌中的传播。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Microbial Genomics Medicine-Epidemiology

CiteScore

6.60

自引率

2.60%

发文量

153

审稿时长

12 weeks

期刊介绍： Microbial Genomics (MGen) is a fully open access, mandatory open data and peer-reviewed journal publishing high-profile original research on archaea, bacteria, microbial eukaryotes and viruses.