2609. Escherichia coli Clonal Lineages and Virulence Factors Predict Fecal Colonization within Households.

Background Extraintestinal Escherichia coli infections are an ever-growing threat, to which specific clonal lineages and virulence factors contribute disproportionately. Despite the gut being the main reservoir for such E. coli strains, relationships between clonal lineages, virulence factors, and fecal colonization patterns are poorly understood. Accordingly, we defined E. coli fecal colonization patterns within households (HHs) and assessed specific lineages and virulence genes (VGs) as predictors of colonization behaviors. Methods Veterans with an E. coli clinical isolate (n = 22: 11 fluoroquinoline [FQ]-resistant, 11 FQ-susceptible) and their HH members provided stool samples on 2–6 occasions each. Stools were screened for total and FQ-resistant E. coli. Distinct E. coli strains were resolved by genomic profiling of 10 colonies/sample. Strains underwent molecular lineage identification, VG detection, and comparison with the veteran's clinical isolate. Clonal lineages and VGs were assessed (Wilcoxon rank-sum test) as predictors of strains' (i) predominance within the fecal sample, (ii) persistence across serial fecal samples, (iii) within-HH strain sharing, and (iv) overall within-HH colonization prevalence. Results From the 22 veterans and 46 HH members (27 humans, 19 pets) we recovered 139 unique-by-household fecal E. coli strains. Sixty-four traits were evaluated (16 clonal lineages, 48 VGs). Of these, 44 exhibited n ≥ 5, so could be analyzed statistically. Among these 44 traits, the proportion significantly associated with ≥ 1 outcome variable was 5/6 (83%) for clonal lineages and 18/38 (47%) for VGs. Additionally, fecal strains that matched the veteran's clinical isolate exhibited significantly greater sharing, persistence, and overall colonization. Conclusion The studied E. coli traits – known for their associations with clinical infections –here were significantly associated with within-HH colonization behavior. These findings support that "virulence factors" may be regarded also (or perhaps best) as "colonization factors," and "virulent lineages" as "colonizing lineages." This suggests the possibility that future interventions that disrupt colonization behavior also could prevent E. coli infections. Disclosures All authors: No reported disclosures. [ABSTRACT FROM AUTHOR]