Antimicrobial resistance spectrum conferred by pRErm46 of emerging macrolide (multidrug)-resistant Rhodococcus equi

Clonal multidrug resistance recently emerged in Rhodococcus equi , complicating the therapeutic management of this difficult-to-treat animal and human pathogenic actinomycete. The currently spreading multidrug-resistant (MDR) “2287” clone arose in equine farms upon acquisition, and co-selection by mass macrolide-rifampin therapy, of the pRErm46 plasmid carrying the erm (46) macrolides-lincosamides-streptogramins resistance determinant, and an rpoB S531F mutation. Here, we screened a collection of susceptible and macrolide-rifampin-resistant R. equi from equine clinical cases using a panel of 15 antimicrobials against rapidly growing mycobacteria (RGM), nocardiae and other aerobic actinomycetes (NAA). R. equi –including MDR isolates– was generally susceptible to linezolid, minocycline, tigecycline, amikacin and tobramycin according to Staphylococcus aureus interpretive criteria, plus imipenem, cefoxitin and ceftriaxone based on Clinical & Laboratory Standards Institute (CLSI) guidelines for RGM/NAA. Ciprofloxacin and moxifloxacin were in the borderline category according to European Committee on Antimicrobial Susceptibility Testing (EUCAST) criteria. Molecular analyses linked pRErm46 to significantly increased MICs for trimethoprim-sulfamethoxazole and doxycycline in addition to clarithromycin within the RGM/NAA panel, and to streptomycin, spectinomycin and tetracycline resistance. pRErm46 variants with spontaneous deletions in the class 1 integron (C1I) region, observed in ≈30% of erm (46)-positive isolates, indicated that the newly identified resistances were attributable to C1I’s sulfonamide ( sul1 ) and aminoglycoside ( aaA9 ) resistance cassettes and adjacent tetRA (33) determinant. Most MDR isolates carried the rpoB S531F mutation of the 2287 clone, while different rpoB mutations (S531L, S531Y) detected in two cases suggest the emergence of novel MDR R. equi strains.

Genotypic and phenotypic prevalence of Nocardia species in Iran: First systematic review and meta-analysis of data accumulated over years 1992-2021

Background Nocardia species belong to the aerobic actinomycetes group of bacteria which are gram-positive and partially acid-fast Bacilli. These bacteria may sometimes be associated with nosocomial infections. Nocardia diseases are not required to be reported to public health authorities in Iran. Hence, the present study was designed to determine the prevalence of human Nocardia spp. in Iran by using a systematic review and meta-analysis according to the preferred reporting items for systematic reviews and meta-Analyses statement. Methods The data of the prevalence of Nocardia species were collected from databases such as Embase, PubMed/MEDLINE via Ovid, Web of Science, Scopus and Google Scholar as well as national Iranian databases, including SID, Magiran. Analyses were conducted by STATA 14.0. Results The meta-analyses showed that the proportion of Nocardia spp. in Iranian studies varied from 1.71(1.17, 2.24) to 0.46(0.09, 0.83). N. asteroides (21% [95% CI 1.17, 2.24]), N. cyriacigeorgica (17% [95% CI 0.99, 1.77]), N. facanica (10% [95% CI 0.75, 1.00]) were considered to be common causative agents. Conclusions Our study presents that despite the fact that Nocardia spp. are normally are saprophytic organisms, are currently accounts as emerging pathogens due to an increase in immunocompromised patients among Iranian populations. Considering our results, the establishment of advanced diagnostic facilities for the rapid detection of Nocardia infections are required for optimal therapeutic strategies of Nocardia spp. in Iran. Our findings could help the programmatic management of the disease within the context of Nocardia control programs.

Role of Williamsia and Segniliparus in human infections with the approach taxonomy, cultivation, and identification methods

The genera Williamsia and Segniliparus are of aerobic actinomycetes and at the time of writing, they have 12 and 2 species, respectively. These genera cause various infections in humans. In this review, we surveyed their taxonomy, isolation, identification, as well as their role to cause human infections.

RARE SPECIES IN THE STRUCTURE OF ACID-RESISTANT MEMBERS OF THE ORDER ACTINOMYCETALES ISOLATED FROM CLINICAL MATERIAL

The article presents data on the structure of acid-resistant members of the order Actinomycetales and rare species that have been isolated and identified using various methods. The study included strains of non-tuberculous mycobacteria (NTM) isolated from clinical material during examination for tuberculosis in the period from 2016 to 2019. The total number of samples with signs of NTMs growth that were included in the study was 316 samples. Primary isolation on Levenshtein-Jensen, Finn II, and MGIT media and NTMs identification by DNA-hybridization. All strains that were not identified prior to the species and culture, identified as microorganisms with a high G+C content (High GC GR +) were re-identified using a MALDI-ToF Microflex LT mass spectrometer (Bruker®). By the method of DNA-hybridization, 188 strains isolated by NTM were successfully identified to form 58.5% of all selected cultures. Among the selected species, representatives of slowly growing NTMs (M. avium complex, M. gordonae, M. kansasii) predominated, which amounted to 67.0% of all NTM strains identified to the species. Among the cultures for which DNA hybridization failed to carry out acceptable identification, predominantly NTMs were found, among which M. gordonae, M. avium, M. kansasii dominated. A number of NTMs were represented by rare species: M. iranicum and M. pseudoshottsii. Among this group of microorganisms, other acid-resistant aerobic actinomycetes were isolated, including those of potential clinical significance: Gordonia spp., Tsukamurella spp., Rhodococcus spp., Nocardia spp. When identifying cultures containing high concentrations of G+C, the maximum number of microbial associations was revealed, including those consisting of two types of NTMs (M. monacense + M. flavescens, M. avium + M. kansasii), as well as associations of M. gordonae with staphylococci. The same group included rare NTM species: M. fredericbergense, M. szulgai, M. malmoense, M. bohemicum, M. septicum, as well as representatives of the genera Nocardia, Gordonia, Tsukamurella.

The Complexities of Nocardia Taxonomy and Identification

ABSTRACT Nocardia species are a complex group of organisms considered to belong to the aerobic actinomycetes. Of the validly described species, many have been implicated as the cause of serious human infections, especially in immunocompromised patients. The genus has a complicated taxonomic history; this is especially true for Nocardia asteroides, the type species of the genus and previously the most frequently reported nocardial taxon from human specimens. We provide background on the current taxonomy of Nocardia, with a focus on clinically relevant species, and discuss the currently available methods used to accurately identify isolates to the species, complex, or group level.