Romanò Alicia, Ivanovic Ivana, Segessemann Tina, Vazquez Rojo Laura, Widmer Jérôme, Egger Lotti, Dreier Matthias, Sesso Lorenzo, Vaccani Michael, Schuler Martin, Frei Daniel, Frey Juerg, Ahrens Christian H, Steiner Adrian, Graber Hans Ulrich
Food Microbial Systems, Group Microbiological Safety of Foods of Animal Origin, Agroscope, Bern, Switzerland.
Graduate School of Cellular and Biomedical Sciences, University of Bern, Bern, Switzerland.
Front Microbiol. 2023 Jul 31;14:1183018. doi: 10.3389/fmicb.2023.1183018. eCollection 2023.
Healthy, untreated cows of nine dairy herds from the Swiss Canton Tessin were analyzed three times within one year to identify the most abundant species of the intramammary bacteriome. Aseptically collected milk samples were cultured and bacteria identified using MALDI-TOF. Of 256 cows analyzed, 96% were bacteriologically positive and 80% of the 1,024 quarters were positive for at least one bacterial species. 84.5% of the quarters were healthy with somatic cell counts (SCC) < 200,000 cells/mL, whereas 15.5% of the quarters showed a subclinical mastitis (SCC ≥ 200,000 cells/mL). We could assign 1,288 isolates to 104 different bacterial species including 23 predominant species. Non- staphylococci and mammaliicocci (NASM) were most prevalent (14 different species; 73.5% quarters). and accounted for 74.7% of all NASM isolates. To describe the intramammary resistome, 350 isolates of the predominant species were selected and subjected to short-read whole genome sequencing (WGS) and phenotypic antibiotic resistance profiling. While complete genomes of eight type strains were available, the remaining 15 were assembled with long reads as a resource for the community. The 23 complete genomes served for reference-based assembly of the Illumina WGS data. Both chromosomes and mobile genetic elements were examined for antibiotic resistance genes (ARGs) using in-house and online software tools. ARGs were then correlated with phenotypic antibiotic resistance data from minimum inhibitory concentration (MIC). Phenotypic and genomic antimicrobial resistance was isolate-specific. Resistance to clindamycin and oxacillin was most frequently observed (65 and 30%) in but could not be linked to chromosomal or plasmid-borne ARGs. However, in several cases, the observed antimicrobial resistance could be explained by the presence of mobile genetic elements like carried on small plasmids. This represents a possible mechanism of transfer between non-pathogenic bacteria and pathogens of the mammary gland within and between herds. The-to our knowledge-most extensive bacteriome reported and the first attempt to link it with the resistome promise to profoundly affect veterinary bacteriology in the future and are highly relevant in a One Health context, in particular for mastitis, the treatment of which still heavily relies on antibiotics.
对瑞士提契诺州9个奶牛场的健康、未经治疗的奶牛在一年内进行了三次分析,以确定乳房内细菌群落中最丰富的物种。无菌采集牛奶样本进行培养,并使用基质辅助激光解吸电离飞行时间质谱(MALDI-TOF)鉴定细菌。在分析的256头奶牛中,96%细菌学检测呈阳性,在1024个乳腺中,80%至少对一种细菌呈阳性。84.5%的乳腺健康,体细胞计数(SCC)<200,000个细胞/毫升,而15.5%的乳腺表现为亚临床乳腺炎(SCC≥200,000个细胞/毫升)。我们可以将1288株分离菌归为104种不同的细菌,包括23种优势菌。非葡萄球菌和嗜乳球菌(NASM)最为普遍(14种不同菌种;占乳腺的73.5%)。 占所有NASM分离菌的74.7%。为了描述乳房内耐药组,选择了350株优势菌种的分离菌,进行短读长全基因组测序(WGS)和表型抗生素耐药性分析。虽然有8个模式菌株的完整基因组,但其余15个基因组是用长读长组装的,作为该群体的资源。这23个完整基因组用于Illumina WGS数据的基于参考的组装。使用内部和在线软件工具检查染色体和移动遗传元件中的抗生素抗性基因(ARG)。然后将ARG与最低抑菌浓度(MIC)的表型抗生素抗性数据相关联。表型和基因组抗菌抗性具有菌株特异性。在 中最常观察到对克林霉素和苯唑西林的耐药性(分别为65%和30%),但无法与染色体或质粒携带的ARG联系起来。然而,在一些情况下,观察到的抗菌抗性可以用小质粒携带的 等移动遗传元件的存在来解释。这代表了一种非致病细菌与乳腺病原体在牛群内部和之间转移的可能机制。据我们所知,这是报道的最广泛的细菌群落,并且首次尝试将其与耐药组联系起来,有望在未来深刻影响兽医细菌学,并且在“同一个健康”背景下具有高度相关性,特别是对于乳腺炎,其治疗仍然严重依赖抗生素。
