Draft Genome Sequence of the Multidrug-Resistant Strain Stenotrophomonas maltophilia N0320, Isolated from a Commercial Nanoparticle Product

Stenotrophomonas maltophilia is an emerging opportunistic pathogen that is frequently associated with hospital infections. We report the 4.8-Mbp draft genome sequence of the oxidase-positive S. maltophilia strain N0320, an isolate from a commercial hydroxyapatite nanoparticle product.

First identification and Limited Dissemination of mcr-1 Colistin Resistance in Salmonella Isolates in Jiaxing

Salmonella , a major foodborne pathogen, causes severe gastrointestinal disease in people and animals worldwide. Plasmid-borne mcr-1 , which confers colistin resistance in Salmonella, has significant epidemiological interest for public health safety. Here, we report the first evidence of mcr-1 -mediated colistin resistance in one multidrug-resistant strain，namely 16062 in this study, from 355 Salmonella isolates collected for Jiaxing foodborne pathogen monitoring in Zhejiang Province in 2015–2019. In addition to colistin, 16062 displayed multidrug resistance to various antimicrobials (β-lactams, quinolone, sulfonamide, florfenicol, ampicillin, streptomycin, nalidixic acid, aminoglycoside, and trimethoprim-sulfamethox). The mcr-1 -carrying IncX4 plasmid (p16062-MCR) in this study shares a conserved structure with other mcr -IncX4 plasmids. We found that other antimicrobial-resistance genes ( aac(6')-Ib-cr , aadA1 , aadA2 , aph(3')-Ia , oqxA , oqxB , sul1 , and cmlA1 ) are located on p16062-cmlA, an atypical IncHI2 plasmid, in isolate 16062. This is the first identification of transferable colistin resistance in foodborne Salmonella isolate collected in Jiaxing city, the 5-year monitoring of which revealed limited dissemination. By determining the genetic features of the plasmid vehicle, the characteristics of transferable mcr genes circulating in isolates from Jiaxing are now clearer.

Exoproteome Analysis of Antagonistic Interactions between the Probiotic Bacteria Limosilactobacillus reuteri LR1 and Lacticaseibacillus rhamnosus F and Multidrug Resistant Strain of Klebsiella pneumonia

The expansion of multiple drug resistant (MDR) strains of Klebsiella pneumoniae presents an immense threat for public health. Annually, this microorganism causes thousands of lethal nosocomial infections worldwide. Currently, it has been shown that certain strains of lactic acid bacteria (LAB) can efficiently inhibit growth of K. pneumoniae and the formation of its biofilms; however, the active principle of such action remains unknown. In the current article, the growth inhibition of MDR K. pneumoniae by two LAB—Limosilactobacillus reuteri LR1 and Lacticaseibacillus rhamnosus F—is demonstrated, and the nature of this inhibition studied at the level of exoproteome. This article shows that the exoproteomes of studied LAB contains both classically and non-classically secreted proteins. While for L. reuteri LR1 the substantial portion of classically secreted proteins was presented by cell-wall-degrading enzymes, for L. rhamnosus F only one out of four classically secreted proteins was presented by cell-wall hydrolase. Non-classically secreted proteins of both LAB were primarily metabolic enzymes, for some of which a possible moonlighting functioning was proposed. These results contribute to knowledge regarding antagonistic interaction between LAB and pathogenic and opportunistic microorganisms and set new perspectives for the use of LAB to control the spread of these microorganisms.

Characterization of blaKPC-2-Carrying Plasmid pR31-KPC from a Pseudomonasaeruginosa Strain Isolated in China

This work aimed to characterize a 29-kb blaKPC-2-carrying plasmid, pR31-KPC, from a multidrug resistant strain of Pseudomonas aeruginosa isolated from the sputum of an elderly patient with multiple chronic conditions in China. The backbone of pR31-KPC is closely related to four other blaKPC-2-carrying plasmids, YLH6_p3, p1011-KPC2, p14057A, and pP23-KPC, none of which have been assigned to any of the known incompatibility groups. Two accessory modules, the IS26-blaKPC-2-IS26 unit and IS26-ΔTn6376-IS26 region, separated by a 5.9-kb backbone region, were identified in pR31-KPC, which was also shown to carry the unique resistance marker blaKPC-2. A comparative study of the above five plasmids showed that p1011-KPC2 may be the most complete plasmid of this group to be reported, while pR31-KPC is the smallest plasmid having lost most of its conjugative region. Regions between the iterons and orf207 in the backbone may be hot spots for the acquisition of exogenous resistance entities. The accessory regions of these plasmids have all undergone several biological events when compared with Tn6296. The further transfer of blaKPC-2 in these plasmids may be initiated by either the Tn3 family or IS26-associated transposition or homologous recombination. The data presented here will contribute to a deeper understanding of blaKPC-2 carrying plasmids in Pseudomonas.

Draft Genome Sequence of the Multidrug-Resistant Strain Pseudomonas aeruginosa PA291, Isolated from Cystic Fibrosis Sputum

Here, we report the genome sequence of PA291, a nonmucoid, multidrug-resistant strain of Pseudomonas aeruginosa isolated from cystic fibrosis sputum. Short reads were de novo assembled into 190 contigs and scaffold assembled to a length of 6.26 Mbp. PhiSpy predicts that PA291 is free of prophages.

Novel Klebsiella pneumoniae K23-Specific Bacteriophages From Different Families: Similarity of Depolymerases and Their Therapeutic Potential

Antibiotic resistance is a major public health concern in many countries worldwide. The rapid spread of multidrug-resistant (MDR) bacteria is the main driving force for the development of novel non-antibiotic antimicrobials as a therapeutic alternative. Here, we isolated and characterized three virulent bacteriophages that specifically infect and lyse MDR Klebsiella pneumoniae with K23 capsule type. The phages belonged to the Autographiviridae (vB_KpnP_Dlv622) and Myoviridae (vB_KpnM_Seu621, KpS8) families and contained highly similar receptor-binding proteins (RBPs) with polysaccharide depolymerase enzymatic activity. Based on phylogenetic analysis, a similar pattern was also noted for five other groups of depolymerases, specific against capsule types K1, K30/K69, K57, K63, and KN2. The resulting recombinant depolymerases Dep622 (phage vB_KpnP_Dlv622) and DepS8 (phage KpS8) demonstrated narrow specificity against K. pneumoniae with capsule type K23 and were able to protect Galleria mellonella larvae in a model infection with a K. pneumoniae multidrug-resistant strain. These findings expand our knowledge of the diversity of phage depolymerases and provide further evidence that bacteriophages and phage polysaccharide depolymerases represent a promising tool for antimicrobial therapy.

Chryseobacterium indologenes Keratitis: Successful Treatment of Multidrug-Resistant Strain

A 72-year-old male with history of monocular vision with complete vision loss in his right eye from previous retinal detachment presented with 20/200 vision in the left eye with a corneal ulcer. Culture was obtained, and the patient was started on fortified tobramycin, fortified vancomycin, and amphotericin. Despite the antibiotics, the patient did not significantly improve, after which another culture was obtained before the patient was taken to the surgery for cryotherapy and a partial conjunctival flap. The culture identified Chryseobacterium indologenes. There have been fewer than a handful of cases reported in the last three decades with different antibiotic susceptibility profiles. Our patient was successfully treated with ciprofloxacin and ceftazidime with the final vision of 20/40.