A combined genetic and phenotypic marker approach enables precise detection of hypervirulent and reveals associated traits of capsule overproduction and tellurite resistance.
Journal
Microbiology Spectrum
Journal Volume
14
Journal Issue
2
Start Page
1
End Page
18
ISSN
2165-0497
Date Issued
2026-02-03
Author(s)
Duong, Tran Thi Thuy
Lin, Wei-Hung
Tsai, Ya-Min
Liao, Chun-Hsing
Huang, Yun-Tsung
Kao, Cheng-Yen
Abstract
We integrated genetic and phenotypic analyses to characterize carbapenem-resistant hypervirulent (CRhvKp) and liver abscess-associated (LAKp) isolates, aiming to identify potential biomarkers for the accurate detection of hvKp. A total of 660 carbapenem-resistant (CRKp) and 69 LAKp isolates were screened for five hvKp-associated biomarkers (, , , , ) and the string test. Among LAKp isolates, 49.3% were positive for all five biomarkers and the string test (5 genes-string test positive), while 39.1% carried all markers but were string test-negative (5 genes-string test negative). The seven-day post-infection survival rates of larvae infected with 5 genes-string test positive, 5 genes-string test negative, and other LAKp isolates were 5.9%, 10.4%, and 4.3%, respectively. In contrast, larvae infected with CRKp isolates showed higher survival rates of 7.1%, 17.9%, and 37.5% for the other groups. NTUH-K2044 and the hypervirulent isolates CRKp3, CRKp117, and LAKp88 exhibited higher lethality in bacteremia mice model compared to CRKp isolates lacking five virulence genes and string test negative. Moreover, 5 genes-string test negative LAKp produced the highest levels of capsule (117.7 ng/10⁶ CFU), followed by 5 genes-string test positive LAKp (101.4 ng/10⁶ CFU). Notably, carbapenem-resistant classical (CRcKp) isolates lacking five virulence genes and string test negative, markedly lower capsule levels (7.4 ng/10⁶ CFU) compared to other groups. These results suggest that the combined use of the five genetic markers and the string test enables effective identification of hvKp, and the capsule production is correlated with the virulence potential of the strains.IMPORTANCEThis study tackles the growing threat of strains that combine high antibiotic resistance with hypervirulence. By integrating genetic and phenotypic markers, we examined carbapenem-resistant (CRKp) and liver abscess-associated (LAKp) isolates. We found strong associations between five key virulence genes (, , , , ), positive string test results, high capsule production, and tellurite resistance. A 23-year surveillance of 1,815 carbapenem-susceptible isolates revealed that the proportion of blood isolates carrying all five virulence biomarkers, regardless of string test positivity, was significantly higher than that of urine isolates. Our findings provide a practical framework to enhance detection and risk assessment of hypervirulent , while deepening understanding of the traits that drive their clinical impact.
Subjects
capsule
carbapenem-resistant
hypervirulent Klebsiella pneumoniae
liver abscess
tellurite resistance
Publisher
American Society for Microbiology
Type
journal article