MOE Joint International Research Laboratory of Animal Health and Food Safety, College of Veterinary Medicine, Nanjing Agricultural University, Nanjing 210095, China.
Department of Veterinary Microbiology and Preventive Medicine, Iowa State University, Ames, IA 50011, USA.
Vet Microbiol. 2021 Mar;254:109009. doi: 10.1016/j.vetmic.2021.109009. Epub 2021 Feb 19.
Macrolide and tetracycline resistance in streptococci is mainly caused by acquisition of integrative and conjugative elements (ICEs) of the ICESa2603 family carrying erm(B) and tet(O). But the characteristics about the transferability and physiological consequences of ICEs with triplet serine integrases are still rare. This study tested the transferability of ICESsuYZDH1_SSU0877, a novel erm(B)- and tet(O)-carrying ICESa2603 family-like ICE with triplet serine integrases, and evaluated the physiological consequences after ICE transferred and integrated into recipient. The prevalence of ICESsuYZDH1-like ICEs in S. suis was analyzed based on 1334 genomic sequences available in GenBank and examined in 330 clinical isolates in China. Nonconservative transfer was observed by integrating of ICESsuYZDH1 into SSU1797 gene besides the primary SSU0877 site. Imperfect direct repeats of 2-/4-nt (5'-TC-3'/5'-TCCC-3') and (5'-GC-3'/5'-TCCC-3') were observed at SSU0877 and SSU1797 sites, respectively. The transconjugant suffered a weak fitness cost with stunted growth and less competition with recipient strain. Successive passages indicate the ICESsuYZDH1 could be persist and endued stable resistant phenotype. Comprehensive analysis of the ICESsuYZDH1-like ICEs from both public genome database and our clinical isolates revealed the widespread and diversity of the ICEs by integration at the sites of SSU0877, SSU0468, SSU1262, and SSU1797. The ICESsuYZDH1-like ICEs could stably co-exist within the host chromosome at more than one attachment sites, which is probably mediated by the triplet serine integrases. Nonconservative integration and diversity of the ICESsuYZDH1 family of ICEs might have contributed to the evolution of ICEs and the dissemination of macrolide and tetracycline resistance in S. suis.
链球菌的大环内酯类和四环素类耐药性主要是由携带 erm(B)和 tet(O)的整合性和可转移性元件 (ICEs) 的 ICESa2603 家族获得的。但是,关于具有三联丝氨酸整合酶的 ICEs 的可转移性和生理后果的特征仍然很少。本研究测试了新型 erm(B)-和 tet(O)-携带的 ICEs,即具有三联丝氨酸整合酶的 ICESa2603 家族样 ICEs ICESsuYZDH1_SSU0877 的可转移性,并评估了 ICE 转移并整合到受体后产生的生理后果。根据 GenBank 中可用的 1334 个基因组序列分析了 S. suis 中 ICESsuYZDH1 样 ICEs 的流行情况,并在中国的 330 株临床分离株中进行了检测。通过将 ICESsuYZDH1 整合到 SSU1797 基因中,观察到非保守转移,除了主要的 SSU0877 位点之外。在 SSU0877 和 SSU1797 位点分别观察到 2-/4-nt(5'-TC-3'/5'-TCCC-3')和(5'-GC-3'/5'-TCCC-3')的不完整直接重复。转导子的生长受到轻微的生长不良,与受体菌株的竞争能力降低。连续传代表明 ICESsuYZDH1 可以持续存在,并具有稳定的耐药表型。对公共基因组数据库和我们的临床分离株中 ICESsuYZDH1 样 ICEs 的综合分析表明,通过整合到 SSU0877、SSU0468、SSU1262 和 SSU1797 位点,ICEs 广泛存在且具有多样性。ICESsuYZDH1 样 ICEs 可以在宿主染色体上的多个附着位点稳定共存,这可能是由三联丝氨酸整合酶介导的。ICESsuYZDH1 家族 ICEs 的非保守整合和多样性可能促进了 ICEs 的进化以及大环内酯类和四环素类耐药性在 S. suis 中的传播。
