Abstract
Colistin is a broad-spectrum antibiotic that kills bacteria through the disruption of the cell membrane, making it effective against various bacterial infections. Since the first global report of mobile colistin-resistant (mcr-1)-positive bacteria, which were discovered and described by Chinese scientists in 2015, monitoring and research on these bacteria have continuously been conducted. In this study, we analyzed 70 mcr-1-positive strains detected by surveillance hospitals across three different provinces of China, as well as 671 strains screened from the NCBI database that contain the mcr-1 gene. The epidemiological analysis indicated that the mcr-1 gene had circulated undetected in China for over three decades prior to its first report in 2015 and extensive agricultural use of polymyxins likely initiated the emergence of mcr-1 and bla(NDM) co-harbouring strains in poultry and livestock, with subsequent fecal-environmental transmission leading to human infections. The genetic dynamics and transmission analysis provides the first detailed elucidation of the adaptive evolutionary migration of mcr-1, which enhanced its dissemination across diverse bacterial hosts and facilitated the emergence of super-resistant Enterobacterales strains and IncHI2(A) super-plasmids co-harbouring mcr-1 and bla(NDM).