DOI: 10.1126/sciadv.aec4661 ISSN: 2375-2548
Loss of O-antigen due to
wbbL
mutations is common and associated with increased mortality in
Escherichia coli
bloodstream infections
Kaleb J. Tyson, Amanda Z. Velez, Blake M. Hanson, Jianping Jiang, Kuan-Yi Lu, Felicia Ruffin, Granger Sutton, Lauren M. Brinkac, Thomas H. Clarke, Yazhong Tao, Derrick E. Fouts, Mark D. Adams, Cesar A. Arias, Sanjay Khandelwal, Vance G. Fowler, Joshua T. Thaden, Brian P. Conlon, Joshua B. Parsons
Escherichia coli
bloodstream infections are common and associated with high mortality. A key feature of
E. coli
is the lipopolysaccharide (LPS) O-antigen, which contributes to immune evasion during invasive infection. We analyzed serial isolates from patients with relapsed
E. coli
bacteremia and identified frequent disruption of O-antigen synthesis due to mutations in
wbbL
, resulting in a rough LPS phenotype. Rough LPS isolates were more serum sensitive and less pathogenic in mice. Despite this apparent attenuation, 11 of 61 (18%)
E. coli
sequence type 131 bloodstream isolates in our cohort harbored disruptive
wbbL
mutations and were associated with significantly worse clinical outcomes, including septic shock and mortality. Using a murine model of recurrent bacteremia, we show that rough LPS isolates partially evade protective immunity generated against smooth LPS
E. coli
, highlighting the importance of host immune context in invasive disease.