Interplay between meropenem and human serum albumin on expression of carbapenem resistance genes and natural competence in Acinetobacter baumannii

LE, CASIN; PIMENTEL, CAMILA (CO-FIRST AUTHOR); TUTTOBENE, MARISEL R.; SUBILS, TOMAS; NISHIMURA, BRENT; TRAGLIA, GERMAN M.; PEREZ, FEDERICO; PAPP-WALLACE, KRISZTINA M.; BONOMO, ROBERT A.; TOLMASKY, MARCELO E.; RAMIREZ, MARIA SOLEDAD

ANTIMICROBIAL AGENTS AND CHEMOTHERAPY

AMER SOC MICROBIOLOGY

Lugar: Washington; Año: 2021

0066-4804

Acinetobacter baumannii A118, a mostly carbapenem-susceptible strain, and AB5075, carbapenem resistant, were cultured in lysogeny broth (LB) or LB with different supplements, such as 3.5% human serum albumin (HSA), human serum (HS), meropenem, or meropenem plus 3.5% HSA. Natural transformation levels were enhanced in A. baumannii A118 and AB5075 cultured in medium supplemented with 3.5% HSA. Addition of meropenem plus 3.5% HSA caused synergistic enhancement of natural transformation in A. baumannii A118. Medium containing 3.5% HSA or meropenem enhanced the expression levels of the competence and type IV pilus-associated genes. The combination meropenem plus 3.5% HSA produced a synergistic enhancement in the expression levels of many of these genes. The addition of HS, which has a high content of HSA, was also an inducer of these genes. Cultures grown in medium supplemented with HS or 3.5% HSA also affected resistance genes, which were expressed at higher or lower levels depending on the modi!cation required to enhance resistance. The inducing or repressing activity of these modulators also occurred in three more carbapenem-resistant strains tested. An exception was the A. baumannii AMA16 blaNDM-1 gene, which was repressed in the presence of 3.5% HSA. In conclusion, HSA produces an enhancement of natural transformation and a modi!cation in expression levels of competence genes and antibiotic resistance. Furthermore, when HSA is combined with carbapenems, which may increase the stress response, the expression of genes involved in natural competence is increased in A. baumannii. This process may favor the acquisition of foreign DNA and accelerate evolution.