Masking of antibiotic-resistance upon recovery of endophytic bacteria

Abstract

During studies on internal plant colonization by rhizosphere bacteria and endophytic bacteria over several years, we frequently observed lack of growth of rifampicin-resistant mutants (rif+) on tryptic soy agar amended with rifampicin (RTSA). Following seed treatment of cucumber with 6 species of rif+ rhizosphere bacteria in one experiment, all strains were recoverable on RTSA when external root colonization was monitored. Following trituration of surface-disinfested roots, only one strain grew directly on RTSA; however colonies isolated on tryptic soy agar (TSA) grew within 18 h after transfer to RTSA. We term this temporary loss of the antibiotic-resistant phenotype 'antibiotic masking'. Antibiotic masking was also observed with isolation of 7 rif+ endophytic bacterial strains from inside stems of cotton and with isolation of mutants of bacterial endophytes resistant to polymyxin B sulfate from cotton plants. Rifampicin-masking was not accounted for in vitro by inhibitory compounds from cotton plant extracts, by bacterial growth on low nutrient agar, or by competition with other bacteria. Collectively, these results suggest that expression of antibiotic-resistance may be altered in planta, although causes for this antibiotic-masking remain to be elucidated, methods for quantifying internal plant colonization by rif+ bacteria should account for this possibility.