Profiling cell envelope-antibiotic interactions reveals vulnerabilities to β-lactams in a multidrug-resistant bacterium

Abstract: The cell envelope of the Gram-negative Burkholderia cepacia complex (Bcc) presents unique restrictions to antibiotic penetration. As a consequence, Bcc species are notorious for causing recalcitrant multidrug-resistant infections in immunocompromised individuals, such as those living with cystic fibrosis. To systematically identify cell envelope-associated resistance and susceptibility determinants at the genome level, we constructed a high-density, randomly-barcoded transposon mutant library in the clinical i… Show more

“…In P. aeruginosa , the disruption of DacB leads to activation of AmpR and the CreBC/BlrAB two-component system, resulting in AmpC overexpression (50). Disruption of the K56-2 CreBC/BlrAB homologues (K562_RS27235-40) did not affect fitness in any condition in the BarSeq experiment (26). Additionally, we did not see a significant change in β-lactamase activity when we knocked down dacB (Figure 4C).…”

“…We leveraged the BarSeq data for a deeper look into cationic antibiotic resistance in Burkholderia . We identified genes important for PMB and CHX fitness associated with O-antigen synthesis, LPS core synthesis, and lipid A synthesis (26). To dissect the importance of the O-antigen versus LPS core, we constructed an unmarked deletion mutant in wbiI , encoding an epimerase/dehydratase required for O-antigen synthesis.…”

“…As expected, this mutant lacked polymeric O-antigen and could be complemented in trans (Figure S1). We also used a previously constructed unmarked deletion mutant in hldD (26), encoding an epimerase required for LPS core synthesis, which lacks both polymeric O-antigen and a complete LPS core. Both the Δ wbiI and Δ hldD mutants were markedly more susceptible than wild-type to PMB, colistin (COL) and CHX; however, the Δ wbiI mutant was generally less susceptible than the Δ hldD mutant, and the increase in CHX susceptibility was only modest for both mutants (Figure 1A).…”

“…Additionally, β-lactamases have previously been implicated as substrates of DsbA in P. aeruginosa (49). As PenB, the dominant β-lactamase in K56-2 (26), was also identified as a putative DSB system substrate (Table S3), we determined β-lactamase activity in targeted CRISPRi mutants using a nitrocefin hydrolysis assay. Knockdown of dsbA and dsbB reduced β-lactamase activity by ∼30% and ∼75%, respectively, while knockdown of dsbC and dsbD showed no difference from the control (Figure 3D).…”

“…To counter the entry of antibiotics, Bcc species have a suite of broad-spectrum efflux pumps (24). Aside from resistance due to the major β-lactamases (25, 26), the contributions of peptidoglycan biosynthesis and recycling factors to antibiotic susceptibility in the Bcc are unclear.…”

Cell envelope structural and functional contributions to antibiotic resistance inBurkholderia cenocepacia

“…In P. aeruginosa , the disruption of DacB leads to activation of AmpR and the CreBC/BlrAB two-component system, resulting in AmpC overexpression (50). Disruption of the K56-2 CreBC/BlrAB homologues (K562_RS27235-40) did not affect fitness in any condition in the BarSeq experiment (26). Additionally, we did not see a significant change in β-lactamase activity when we knocked down dacB (Figure 4C).…”

“…We leveraged the BarSeq data for a deeper look into cationic antibiotic resistance in Burkholderia . We identified genes important for PMB and CHX fitness associated with O-antigen synthesis, LPS core synthesis, and lipid A synthesis (26). To dissect the importance of the O-antigen versus LPS core, we constructed an unmarked deletion mutant in wbiI , encoding an epimerase/dehydratase required for O-antigen synthesis.…”

“…As expected, this mutant lacked polymeric O-antigen and could be complemented in trans (Figure S1). We also used a previously constructed unmarked deletion mutant in hldD (26), encoding an epimerase required for LPS core synthesis, which lacks both polymeric O-antigen and a complete LPS core. Both the Δ wbiI and Δ hldD mutants were markedly more susceptible than wild-type to PMB, colistin (COL) and CHX; however, the Δ wbiI mutant was generally less susceptible than the Δ hldD mutant, and the increase in CHX susceptibility was only modest for both mutants (Figure 1A).…”

“…Additionally, β-lactamases have previously been implicated as substrates of DsbA in P. aeruginosa (49). As PenB, the dominant β-lactamase in K56-2 (26), was also identified as a putative DSB system substrate (Table S3), we determined β-lactamase activity in targeted CRISPRi mutants using a nitrocefin hydrolysis assay. Knockdown of dsbA and dsbB reduced β-lactamase activity by ∼30% and ∼75%, respectively, while knockdown of dsbC and dsbD showed no difference from the control (Figure 3D).…”

“…To counter the entry of antibiotics, Bcc species have a suite of broad-spectrum efflux pumps (24). Aside from resistance due to the major β-lactamases (25, 26), the contributions of peptidoglycan biosynthesis and recycling factors to antibiotic susceptibility in the Bcc are unclear.…”

Cell envelope structural and functional contributions to antibiotic resistance inBurkholderia cenocepacia