Necrotizing fasciitis caused by hypermucoviscous Klebsiella pneumoniae in a Filipino female in North America

Klebsiella-Induced Necrotizing Neck Infection in a Patient With Diabetes: A Case Report

Necrotizing infections of the head and neck are uncommon, aggressive, and potentially fatal if not treated promptly. These infections are particularly prevalent among immunocompromised individuals, such as people with diabetes, due to impaired immune response and delayed healing. We present a 45-year-old male with uncontrolled diabetes who had a five-day history of progressive left-sided neck swelling and pain. Imaging studies revealed an extensive necrotizing infection of the submandibular, parotid, and parapharyngeal carotid spaces. The condition was managed with intravenous antibiotics, ultrasound-guided aspiration, surgical drainage, extensive debridement, and skin grafting. The isolated microorganism was Klebsiella pneumoniae. After three weeks of management, the patient was discharged without impairment or recurrence. This case underscores the significance of early diagnosis, proper antibiotic use, timely surgery, and collaboration in managing neck space necrotizing infections to prevent complications in high-risk patients.

Hypermucoviscous Klebsiella pneumoniae presenting as sternocleidomastoid pyomyositis with subsequent lower extremity necrotising fasciitis

Necrotising fasciitis (NF) is a severe, rapidly progressing infection of the muscular fascia and subcutaneous tissue. Monomicrobial NF from hypermucoviscous Klebsiella pneumoniae (hvKP-NF) is rare but highly virulent, most common in East Asia. This report reviews a unique case of hvKP-NF in a US male in his 40s with undiagnosed diabetes mellitus, presenting with severe sepsis, neck swelling and calf pain. Imaging revealed pyomyositis in the sternocleidomastoid, and debridement cultures confirmed hvKP. Despite unremarkable examination findings, persistent pain led to a diagnosis of necrotising fasciitis after initial imaging misinterpretations. The patient was treated with multiple surgical debridements and tailored antibiotics. This case underscores the importance of maintaining a high index of suspicion for necrotising fasciitis despite atypical risk factors and symptomatology, awareness of hvKP in the Western Hemisphere, prompt consideration of advanced imaging modalities when initial evaluations are inconclusive and the critical role of multidisciplinary care in managing severe infections.

Genomic Analysis and Virulence Assessment of Hypervirulent Klebsiella pneumoniae K16-ST660 in Severe Cervical Necrotizing Fasciitis

OBJECTIVE

To investigate the source of infection in a patient with recurrent severe neck infections caused by Klebsiella pneumoniae and to analyze the virulence of isolates obtained from different sites of the patient.

METHODS

We collected preoperative neck abscess puncture fluid, intraoperative neck drainage fluid, sputum, intestinal fecal specimens, and blood samples from a patient who visited Wuxi Second People's Hospital twice between 2017 and 2018. We conducted isolation, identification, drug sensitivity tests, and string tests on the isolates. Capsule serotyping and virulence gene analysis were performed using PCR. The genetic relationship of different isolates was assessed by Multilocus Sequence Typing and virulence was evaluated using the Galleria mellonella infection model. Additionally, whole-genome sequencing was used to analyze the chromosomal and plasmid genes of one isolate.

RESULTS

Klebsiella pneumoniae was detected in the sputum and fecal specimens from both hospitalizations, as well as the preoperative ultrasound-guided puncture fluid and intraoperative drainage fluid from the first hospitalization, resulting in six isolates. These isolates were all K16 serotype, positive in the string test, and identified as ST660 by Multilocus Sequence Typing, indicating they belonged to the same clone. Virulence gene analysis showed that wcaG, iucB, iroNB, rmpA, rmpA2, Aer, kfuBC, ureA, fimH, mrkD, uge, and peg344 were positive, while allS, cf29a, and Wzy_K1 were negative. In the Galleria mellonella virulence assay, the lethality of different isolates was dose-dependent. The K16 group showed significantly higher larval mortality compared to other control groups (including K1, K2, K5, K20, and K57 groups). Genome sequencing revealed that plasmid p17388 carried numerous virulence genes and insertion sequences, particularly ISKPN74, and showed high homology with other Klebsiella plasmids.

CONCLUSION

This study is the first to report severe cervical necrotizing fasciitis caused by the K16-ST660 Klebsiella pneumoniae Isolate. The high virulence of these isolates was confirmed by the Galleria mellonella virulence assay and the detection of numerous virulence genes. In-depth analysis of plasmid p17388 suggests that ISKPN74 may enhance stable integration of the plasmid into the bacterial chromosome through recombinases and transposases, thereby reducing the likelihood of plasmid loss and increasing bacterial virulence. Additionally, IS5 family insertion sequences may carry extra promoters or enhancers that, when inserted upstream of mucoviscosity-associated genes such as rmpA, may increase the transcription levels of downstream genes. This ISKPN74-mediated integration or insertion reveals a complex genetic mechanism that may contribute to the severity of infections caused by ST660 isolates. Our findings offer new insights into the virulence and structure of ST660-K16 Klebsiella pneumoniae, suggesting that further investigation into the specific mechanisms by which these insertion sequences enhance virulence could aid in developing novel infection management strategies.

Genomic insights unveil the plasmid transfer mechanism and epidemiology of hypervirulent Klebsiella pneumoniae in Vietnam

Hypervirulent Klebsiella pneumoniae (hvKp) is a significant cause of severe invasive infections in Vietnam, yet data on its epidemiology, population structure and dynamics are scarce. We screened hvKp isolates from patients with bloodstream infections (BSIs) at a tertiary infectious diseases hospital in Vietnam and healthy individuals, followed by whole genome sequencing and plasmid analysis. Among 700 BSI-causing Kp strains, 100 (14.3%) were hvKp. Thirteen hvKp isolates were identified from 350 rectal swabs of healthy adults; none from 500 rectal swabs of healthy children. The hvKp isolates were genetically diverse, encompassing 17 sequence types (STs), predominantly ST23, ST86 and ST65. Among the 113 hvKp isolates, 14 (12.6%) carried at least one antimicrobial resistance (AMR) gene, largely mediated by IncFII, IncR, and IncA/C plasmids. Notably, the acquisition of AMR conjugative plasmids facilitated horizontal transfer of the non-conjugative virulence plasmid between K. pneumoniae strains. Phylogenetic analysis demonstrated hvKp isolates from BSIs and human carriage clustered together, suggesting a significant role of intestinal carriage in hvKp transmission. Enhanced surveillance is crucial to understand the factors driving intestinal carriage and hvKp transmission dynamics for informing preventive measures. Furthermore, we advocate the clinical use of our molecular assay for diagnosing hvKp infections to guide effective management.

Iron Acquisition Systems of Gram-negative Bacterial Pathogens Define TonB-Dependent Pathways to Novel Antibiotics

Iron is an indispensable metabolic cofactor in both pro- and eukaryotes, which engenders a natural competition for the metal between bacterial pathogens and their human or animal hosts. Bacteria secrete siderophores that extract Fe3+ from tissues, fluids, cells, and proteins; the ligand gated porins of the Gram-negative bacterial outer membrane actively acquire the resulting ferric siderophores, as well as other iron-containing molecules like heme. Conversely, eukaryotic hosts combat bacterial iron scavenging by sequestering Fe3+ in binding proteins and ferritin. The variety of iron uptake systems in Gram-negative bacterial pathogens illustrates a range of chemical and biochemical mechanisms that facilitate microbial pathogenesis. This document attempts to summarize and understand these processes, to guide discovery of immunological or chemical interventions that may thwart infectious disease.

Hypervirulent Klebsiella pneumoniae

Hypervirulent K. pneumoniae (hvKp) is an evolving pathotype that is more virulent than classical K. pneumoniae (cKp). hvKp usually infects individuals from the community, who are often healthy. Infections are more common in the Asian Pacific Rim but are occurring globally. hvKp infection frequently presents at multiple sites or subsequently metastatically spreads, often requiring source control. hvKp has an increased ability to cause central nervous system infection and endophthalmitis, which require rapid recognition and site-specific treatment. The genetic factors that confer hvKp's hypervirulent phenotype are present on a large virulence plasmid and perhaps integrative conjugal elements. Increased capsule production and aerobactin production are established hvKp-specific virulence factors. Similar to cKp, hvKp strains are becoming increasingly resistant to antimicrobials via acquisition of mobile elements carrying resistance determinants, and new hvKp strains emerge when extensively drug-resistant cKp strains acquire hvKp-specific virulence determinants, resulting in nosocomial infection. Presently, clinical laboratories are unable to differentiate cKp from hvKp, but recently, several biomarkers and quantitative siderophore production have been shown to accurately predict hvKp strains, which could lead to the development of a diagnostic test for use by clinical laboratories for optimal patient care and for use in epidemiologic surveillance and research studies.

Mass spectrometry and associated technologies delineate the advantageously biomedical capacity of siderophores in different pathogenic contexts

Siderophores are chemically diverse small molecules produced by microorganisms for chelation of irons to maintain their survival and govern some important biological functions, especially those cause that infections in hosts. Still, siderophores can offer new insight into a better understanding of the diagnosis and treatments of infectious diseases from the siderophore biosynthesis and regulation perspective. Thus, this review aims to summarize the biomedical value and applicability of siderophores in pathogenic contexts by briefly reviewing mass spectrometry (MS)-based chemical biology and translational applications that involve diagnosis, pathogenesis, and therapeutic discovery for a variety of infectious conditions caused by different pathogens. We highlight the advantages and disadvantages of siderophore discovery and applications in pathogenic contexts. Finally, we propose a panel of new and promising strategy as precision-modification metabolomics method, to rapidly advance the discovery of and translational innovations pertaining to these value compounds in broad biomedical niches. © 2018 Wiley Periodicals, Inc. Mass Spec Rev XX:XX-XX, 2018.

Hypermucoviscous capsular 1 (K1) serotype Klebsiella pneumoniae necrotising fasciitis and metastatic endophthalmitis

A 48-year-old man presented with a non-healing wound on his left foot after stepping on a nail. He self-medicated with amoxicillin, but the wound progressed prompting consult. On examination, his left foot was diffusely swollen with surrounding erythema, areas of gangrene, foul-smelling purulent discharge and subcutaneous emphysema. He was managed as a case of necrotising fasciitis and underwent emergent amputation. Three days after amputation, he developed a sudden and progressive blurring of vision, swelling and conjunctival erythema, with purulent discharge and the presence of hypopyon on the left eye. He was then managed as a case of endophthalmitis of the left eye and underwent pars plana vitrectomy. All cultures (blood, tissue and vitreous fluid) grew pan-susceptible hypermucoviscous Klebsiella pneumoniae, with positive string tests and confirmed by multilocus gene sequencing and sequence type analysis. He gradually improved with intravenous antibiotics, but only regained light perception in the left eye.

Structural and functional delineation of aerobactin biosynthesis in hypervirulent Klebsiella pneumoniae

Aerobactin, a citryl-hydroxamate siderophore, is produced by a number of pathogenic Gram-negative bacteria to aid in iron assimilation. Interest in this well-known siderophore was reignited by recent investigations suggesting that it plays a key role in mediating the enhanced virulence of a hypervirulent pathotype of Klebsiella pneumoniae (hvKP). In contrast to classical opportunistic strains of K. pneumoniae, hvKP causes serious life-threatening infections in previously healthy individuals in the community. Multiple contemporary reports have confirmed fears that the convergence of multidrug-resistant and hvKP pathotypes has led to the evolution of a highly transmissible, drug-resistant, and virulent "super bug." Despite hvKP harboring four distinct siderophore operons, knocking out production of only aerobactin led to a significant attenuation of virulence. Herein, we continue our structural and functional studies on the biosynthesis of this crucial virulence factor. In vivo heterologous production and in vitro reconstitution of aerobactin biosynthesis from hvKP was carried out, demonstrating the specificity, stereoselectivity, and kinetic throughput of the complete pathway. Additionally, we present a steady-state kinetic analysis and the X-ray crystal structure of the second aerobactin synthetase IucC, as well as describe a surface entropy reduction strategy that was employed for structure determination. Finally, we show solution X-ray scattering data that support a unique dimeric quaternary structure for IucC. These new insights into aerobactin assembly will help inform potential antivirulence strategies and advance our understanding of siderophore biosynthesis.

Primary osteomyelitis caused by hypervirulent Klebsiella pneumoniae

Klebsiella pneumoniae is the most clinically relevant species of this genus, known to cause both community-acquired and nosocomial infections worldwide. In the past two decades, a distinct hypervirulent strain of K pneumoniae, characterised by its hypermucoviscous phenotype, has emerged as a clinically significant pathogen responsible for highly invasive infections. We present a case of osteomyelitis due to hypervirulent K pneumoniae reported in the USA. Genomic testing of the K pneumoniae isolate was performed due to the striking clinical presentation of the infection as well as the hypermucoid nature of the isolates, raising the suspicion for possible infection with the hypervirulent strain. Whole-genome sequencing and additional PCR testing demonstrated the isolate to be a K1 serotype, sequence type 23 strain expressing rmpA and rmpA2. Given the multiple reports of this pathogen causing invasive infections, clinicians should be aware of the possible presentation of metastatic and severe infection, including osteomyelitis, due to the hypervirulent strain of K pneumoniae not typical of classic K pneumoniae variants. In this Grand Round, we review the clinical features of hypervirulent K pneumoniae and its link to invasive infections, and discuss the need for improved awareness and identification of the pathogen.