Enhanced species-specific chemical control of harmful and non-harmful algal bloom species by the thiazolidinedione derivative TD49

Culture experiments involving 23 algae strains were conducted to evaluate the algicidal effects of a newly developed algicidal thiazolidinedione (TD) derivative (TD49) on non-harmful and harmful algal bloom (HAB) species. We also assessed the effect of various concentrations of TD49 on various growth phases (lag, logarithmic, and stationary) of the harmful algae Heterocapsa circularisquama (Dinophyceae) and Heterosigma akashiwo (Raphidophyceae; hereafter, Heterosigma) and the non-harmful diatoms Skeletonema costatum and Chaetoceros didymus. The inhibitory ratios (%) for H. circularisquama and Heterosigma at 2.0 μM TD49 were significantly higher than those at other concentrations, and the inhibitory ratio varied depending on growth phase and species as follows: logarithmic?≥?stationary?>?lag phase for H. circularisquama and logarithmic?≥?lag?>?stationary phase for Heterosigma. Although the inhibitory ratios for C. didymus were similar to those for the two harmful algae (H. circularisquama and Heterosigma), inhibitory effects on S. costatum were not apparent at >2.0 μM in any growth phase. The algicidal activity of TD49 on the harmful and non-harmful algae was as follows: unarmored HAB species?>?armored HAB species?>?diatom species?>?cryptophyte species. TD49 was algicidal to most HABs but had a little inhibitory effect on some non-harmful algae, implying that TD49 has selective algicidal activity. Our results indicate that TD49 is potentially of use in the control of HAB species within semi-enclosed bays.     

MOLECULES AT THE EXTERNAL NUCLEAR SURFACE : Sialic Acid of Nuclear Membranes and Electrophoretic Mobility of Isolated Nuclei and Nucleoli

The molecules occurring as terminal residues on the external surfaces of nuclei prepared from rat liver by either sucrose-CaCl₂ or citric acid methods and nucleoli derived from the sucrose-CaCl₂ nuclei were studied chemically and electrokinetically. In 0.0145 M NaCl, 4.5% sorbitol, and 0.6 mM NaHCO₃ with pH 7.2 ± 0.1 at 25°C, the sucrose-CaCl₂ nuclei had an electrophoretic mobility of -1.92 µm/s/V/cm, the citric acid nuclei, -1.63 µm/s/V/cm, and the nucleoli, -2.53 µm/s/V/cm. The citric acid nuclei and the nucleoli contained no measurable sialic acid. The sucrose-CaCl₂ nuclei contained 0.7 nmol of sialic acid/mg nuclear protein; this was essentially located in the nuclear envelope. Treatment of these nuclei with 50 µg neuraminidase/mg protein resulted in release of 0.63 nmol of sialic acid/mg nuclear protein; treatment with 1 % trypsin caused release of 0.39 nmol of the sialic acid/mg nuclear protein. The pH-mobility curves for the particles indicated the sucrose-CaCl₂ nuclei surface had an acid-dissociable group of pK. ~2.7 while the pK for the nucleoli was considerably lower. Nucleoli treated with 50 µg neuraminidase/mg particle protein had a mobility of -2.53 µm/s/V/cm while sucrose-CaCl₂ nuclei similarly treated had a mobility of -1.41 µm/s/V/cm. Hyaluronidase at 50 µg/mg protein had no effect on nucleoli mobility but decreased the sucrose-CaCl₂ nuclei mobility to -1.79 µm/s/V/cm. Trypsin at 1 % elevated the electrophoretic mobility of the sucrose-CaCl₂ nuclei slightly but decreased the mobility of the nucleoli to -2.09 µm/s/V/cm. DNase at 50 µg/mg protein had no effect on the mobility of the isolated sucrose-CaCl₂ nuclei but decreased the electrophoretic mobility of the nucleoli to -1.21 µm/s/V/cm. RNase at 50 µg/mg protein also had no effect on the electrophoretic mobility of the sucrose-CaCl₂ nuclei but decreased the nucleoli mobility to -2.10 µm/s/V/cm. Concanavalin A at 50 µg/mg protein did not alter the nucleoli electrophoretic mobility but decreased the sucrose-CaCl₂ nuclei electrophoretic mobility to -1.64 µm/s/V/cm. The results are interpreted to mean that the sucrose-CaCl₂ nuclear external surface contains terminal sialic acid residues in trypsin-sensitive glycoproteins, contains small amounts of hyaluronic acid, is completely devoid of nucleic acids, and binds concanavalin A. The nucleolus surface is interpreted to contain a complex made up of protein, RNA, and primarily DNA, to be devoid of sialic acid and hyaluronic acid, and not to bind concanavalin A.     

Cultural characteristics of the marine ciliated protozoan, Uronema marinum Dujardin

The marine hymenostome ciliate Uronema marinum Dujardin was isolated from sediment from Robin Hood's Bay, Yorkshire. Experiments on the growth of U. marinum were carried out in batch cultures in which the ciliate was maintained on a diet of Vibrio sp. The duration of the lag phase varied directly with the age of the inoculum. Factorially designed experiments were used to investigate the effects of salinity and temperature on the rate of logarithmic growth of the ciliate. A response surface analysis of the data indicated that there was interaction between salinity and temperature. Regression equations predicted a minimum doubling time of 2.5 h at 32‰ and 25 °C. The cell volume of U. marinum varied during growth; it reached a maximum at the end of the lag phase and decreased during the logarithmic phase to become minimal in the stationary phase.     

Cephalexin-Induced Morphological Alterations in the Surface Structures of Staphylococcus aureus and Escherichia coli Demonstrated by Scanning Electron Microscopy

The scanning electron microscope was used to investigate the alterations in surface morphology of Staphylococcus aureus 209P and Escherichia coli NIH induced by the action of cephalexin known to interfere with cell-wall synthesis. Exposure to cephalexin produced a series of changes on the surface morphology in proportion to the concentrations of cephalexin added. Untreated S. aureus cells had smooth contours. Exposure to 1 μg/ml of cephalexin during the logarithmic phase of growth in S. aureus did not produce any detectable changes. Upon exposure of S. aureus to 5 μ/ml or 10 μg/ml, some cells were larger than normal and showed abnormal cell division-like structures in part. When S. aureus was exposed to 50 μg/ml, cell division was completely inhibited, and no formation of grape-like clusters was observed. Untreated E. coli cells appeared to have smooth and regular contours. E. coli propagated almost normally upon exposure of the organisms to 1 μg/ml of cephalexin. Filamentous structures were observed with the exposure of E. coli to 12.5 μg/ml or 25 μg/ml, but spheroplast-like structures were not observed. Exposure to 100 μg/ml of cephalexin resulted in the formation of marked filamentous cells and spheroplast-like structures having multiple small saccular outpouchings. Scanning electron microscope demonstrated more completely the morphological abnormalities induced by cephalexin.     

The Mechanism of Onset of the Stationary Phase in Euglena gracilis Grown with 10 mM Succinate: Intracellular pH Values*

SYNOPSIS. When Euglena gracilis were grown with 10mM succinate at pH 3.5 the extracellular pH averaged 3.62 and the cultures had produced 6 × 10⁵ cells/ml when the stationary phase began. Oxygen consumption values reached a maximum of 30 μliters/10⁶ cells/hr. Total protein and dry weights per cell remained constant during the logarithmic phase and began to decline when the late logarithmic phase was reached. Added succinate caused the cultures in stationary phase to commence logarithmic growth once more. Onset of the stationary phase in cultures grown at pH 3.5 was due to depletion of succinate. When cultures were grown at pH 6.9 the extracellular pH averaged 7.62 and the cultures produced 3 × 10⁵ cells/ml when the stationary phase began. Oxygen consumption values reached a maximum of 20 μliters/10⁶ cells/hr during the logarithmic phase. The decline in total protein and dry weights per cell began at the beginning of the logarithmic phase and continued into the stationary phase of growth. Cultures grown at pH 3.5 should produce a larger number of cells/ml than cultures grown at pH 6.9 if the cells are responding to the unionized moiety of succinate and not the ionized moiety. At pH 3.5 83% of the succinate is unionized, whereas at pH 6.9 0.20% of the succinate is unionized. The onset of the stationary phase in cultures grown at pH 3.5 and pH 6.9 is due to lack of an adequate amount of extracellular unionized succinate. Intracellular pH values were determined in cultures grown at pH 6.9 using the weak acid DMO (5.5-dimethyl-2,4-oxazolidinedione). As the extracellular pH increased from 6.90 to 7.62, the intracellular pH increased from 5.89 to 6.89. As the extracellular pH increased from 7.62 to 8.44, the intracellular pH increased from 6.89 to 7.50.     

Changes of Saccharomyces cerevisiae cell membrane components and promotion to ethanol tolerance during the bioethanol fermentation

During bioethanol fermentation process, Saccharomyces cerevisiae cell membrane might provide main protection to tolerate accumulated ethanol, and S. cerevisiae cells might also remodel their membrane compositions or structure to try to adapt to or tolerate the ethanol stress. However, the exact changes and roles of S. cerevisiae cell membrane components during bioethanol fermentation still remains poorly understood. This study was performed to clarify changes and roles of S. cerevisiae cell membrane components during bioethanol fermentation. Both cell diameter and membrane integrity decreased as fermentation time lasting. Moreover, compared with cells at lag phase, cells at exponential and stationary phases had higher contents of ergosterol and oleic acid (C_18:1) but lower levels of hexadecanoic (C_16:0) and palmitelaidic (C_16:1) acids. Contents of most detected phospholipids presented an increase tendency during fermentation process. Increased contents of oleic acid and phospholipids containing unsaturated fatty acids might indicate enhanced cell membrane fluidity. Compared with cells at lag phase, cells at exponential and stationary phases had higher expressions of ACC1 and HFA1. However, OLE1 expression underwent an evident increase at exponential phase but a decrease at following stationary phase. These results indicated that during bioethanol fermentation process, yeast cells remodeled membrane and more changeable cell membrane contributed to acquiring higher ethanol tolerance of S. cerevisiae cells. These results highlighted our knowledge about relationship between the variation of cell membrane structure and compositions and ethanol tolerance, and would contribute to a better understanding of bioethanol fermentation process and construction of industrial ethanologenic strains with higher ethanol tolerance.     

Effects of water conductivity on electrocommunication in the weak-electric fish Brienomyrus niger (Mormyriformes)

A characteristic electric organ discharge display in social encounters between mormyrid fish is a temporary discharge cessation. Using this response, we have investigated the useful range of electrocommunication under different water conductivity conditions in the mormyrid Brienomyrus niger. An individual fish was confined to a porous ceramic shelter tube and moved from a starting distance of 380 cm toward a similarly confined conspecific until discharge, cessation occurred. The moved fish was subsequently returned to its original, position. Water conductivity affects the peak-to-peak source voltage of the electric organ and the sensitivity of the fish's electroreceptors. Within a range of 10 to 36 000 μS/cm, the peak-to-peak amplitude of the electric organ discharge declined as a power function. At 120 μS/cm, the amplitude was 50%, and at 300μS/cm, 30% of the 10 μS/cm value. The interfish distance at which discharge cessation occurred and the associated electric field gradients were dependent on water conductivity and upon the spatial orientation of the two fish (end-to-end or parallel orientations of their shelter tubes). The respective ranges were from 135 cm and 0.02 mV/cm at 52 μS/cm (parallel orientation) to 22 cm and 0.36 mV/cm at 678 μS/cm (end-to-end orientation). When the data for both tube orientations were combined, the relationship between water conductivity (x) and the distance at which discharge cessation occurred (y) could be expressed by a power function, y=K·x^a (with K=10^2.97 and a=?0.56). When an electrically ‘silent’ fish was moved away from its conspecific, a discharge resumption in the form of a high-frequency rebound occasionally effected changes in the other fish's discharge activity at distances up to 157 cm (with an associated electric, field gradient of 0.01 mV/cm under the lowest conductivity condition).     

Alteration of Bacteriolytic Enzyme Profile of Staphylococcus aureus during Growth

Profiles of cell-associated bacteriolytic activities and those in the culture supernatant of Staphylococcus aureus FDA209P at various stages of growth were analyzed using sodium dodecyl sulfate-polyacrylamide gels containing Micrococcus luteus or S. aureus. In the logarithmic growth phase, the cell-associated bacteriolytic activities extracted with Triton X-100 contained a number of bacteriolytic proteins, the profiles of which were similar to those we reported elsewhere (Sugai, M., Akiyama, T., Komatsuzawa, H., Miyake, Y., and Suginaka, H.(1990) J. Bacteriol., 172, 6494-6498). The proteins include P1, P2, P7, P9, PX, P13, P18 and other minor components. At the stationary growth phase, the bacteriolytic band-profile of the Triton X-100 extract changed dramatically. P1, P7 and P9 disappeared, and the other minor bands had markedly decreased band intensities. On the other hand, P2, PX, P13, and P18 retained their band intensities during the stationary growth phase. The band intensities of P7, P13, PX, and P18 increased in the supernatant during the logarithmic growth phase. These results indicated that the bacteriolytic band-profile changes during growth.     

Changes in the lipid composition and maximisation of the polyunsaturated fatty acid content of three microalgae grown in mass culture

Three species of microalgae were grown in mass culture to investigate the influence of culture technique and growth phase on the production of 20:5(n?3) and 22:6(n?3). These polyunsaturated fatty acids (PUFA) are considered to be essential in many marine animals diets for high growth and survival rates. The species of microalgae examined wereNannochloropsis oculata, Pavlova lutheri andIsochrysis sp. (clone T.Iso). All batch cultures (logarithmic and stationary phase) and semi-continuous cultures (logarithmic phase) examined contained high levels of the long-chain (n?3) PUFA, but production could be maximised by harvesting at specific times and growth phases. Maximum cellular content (pg cell^-1) of long-chain PUFA was found in logarithmic phase batch cultures ofN. oculata and in stationary phase cultures ofP. lutheri. The cellular content of PUFA in cultures ofIsochrysis sp. did not change significantly with culture technique or growth phase. Alternatively, stationary phase cultures of all three species showed increased proportions (%) and cellular contents of triacylglycerols, and saturated and monounsaturated fatty acids with correspondingly decreased proportions of polar lipids and most PUFA relative to logarithmic phase cultures. The exception was the proportion and cellular content of 22:6(n?3) inP. lutheri which increased with triacylglycerol content. The mass of long-chain (n?3) PUFA per volume of culture was significantly higher in stationary phase cultures due to the higher cell counts per volume. These findings indicate that the opportunity exists to maximise PUFA production by microalgae with the potential to improve animal growth and reduce production costs in mariculture operations and may be of use in the large scale culture and harvesting of microalgae for the biotechnology industry.     

Evaluation of total reducing capacity in three Dunaliella salina (Dunal) Teodoresco isolates

To evaluate reducing capacity of the halophilic green alga Dunaliella salina, total reducing substances together with total carotenoids were extracted from three D. salina isolates at both the logarithmic and the stationary growth phases. Extractions were performed using hexane (H), ethyl acetate (EA), methanol (M), and water (W). Total reducing capacities of the extracts were determined by ferric ion reducing antioxidant power (FRAP), 2, 2-diphenyl-1-picrylhydrazyl (DPPH), and Folin-Cioculteu (F-C) assay methods. As the best solvent, ethyl acetate was more efficient in extracting total carotenoids and total reducing substances, as is evident by the higher total reducing capacities measured by the FRAP, the DPPH, and the F-C assays. Isolate difference in reducing capacity was noticeable in the isolate MSI-2 with significantly higher extractable total reducing substances and total carotenoids. In the stationary growth phase, total reducing capacity was higher compared with the logarithmic growth phase; in particular, with water as the solvent, fivefold increase in total reducing capacity was observed. As a result, solvent extracting efficiency changed from EA?>?H, M, W at the logarithmic phase to EA?>?W?>?H, M at the stationary phase with the F-C assay, and from EA?>?H?>?M?>?W to EA?>?W?>?M?>?H (P?<?0.05) when the FRAP and the DPPH assays were used. Patterns of changes in total reducing capacity were similar in the three assays with highest correlations of 0.940 and 0.916 at P?<?0.05 between the F-C and the FRAP assays at the logarithmic and at the stationary growth phases, respectively. Weakest correlation (R ²?=?0.518, P?<?0.05) was observed between total carotenoids and the DPPH assay at the stationary growth phase. It is concluded that D. salina not only is a good source of β-carotene, but also, its reducing substances may contribute to the antioxidant capacity of this microalga.     

γ-Heptalactone is an endogenously produced quorum-sensing molecule regulating growth and secondary metabolite production by Aspergillus nidulans

Microbes monitor their population density through a mechanism termed quorum sensing. It is believed that quorum-sensing molecules diffuse from the microbial cells and circulate in the surrounding environment as a function of cell density. When these molecules reach a threshold concentration, the gene expression of the entire population is altered in a coordinated manner. This work provides evidence that Aspergillus nidulans produces at least one small diffusible molecule during its growth cycle which accumulates at high cell density and alters the organism's behaviour. When added to low-density cell cultures, ethyl acetate extracts from stationary phase culture supernatants of A. nidulans resulted in the abolition of the lag phase, induced an earlier deceleration phase with 16.3?% decrease in the final cell dry weight and resulted in a 37.8?% increase in the expression of ipnA::lacZ reporter gene construct, which was used as a marker for penicillin production compared to non-treated controls. The bioactive molecule present in the stationary phase extract was purified to homogeneity and was identified by liquid chromatography-mass spectrometry and nuclear magnetic resonance spectroscopy to be ??-heptalactone. This study provides the first evidence that A. nidulans produces ??-heptalactone at a high cell density and it can alter the organism's behaviour at a low cell density. ??-Heptalactone hence acts as a quorum-sensing molecule in the producing strain.     

Rapid high-pressure liquid chromatographic determination of methotrexate and its metabolites 7-hydroxymethotrexate and 2,4-diamino-N10-methylpteroic acid in biological fluids

A rapid and sensitive high-pressure liquid chromatographic method for determination of methotrexate and its metabolites 7-hydroxymethotrexate and 2,4-diamino-N¹⁰-methylpteroic acid has been developed. The assay is based on isocratic reversed-phase chromatography with siliceous microparticulate Spherisorb (5 μm, ODS, 15 × 0.4 cm i.d.) as stationary phase and a ternary solvent mixture of citrate-phosphate (0.05 m, pH 3.2)/methanol/tetrahydrofurane (80:16:4, v/v) as eluant. A precolumn of Perisorb (RP2, 30–40 μm, 3 × 0.4 cm i.d.) reasonably protects the analytical column against deterioration by the components of plasma or other biological fluids. Since the samples of plasma, urine, or cerebrospinal fluid are directly injected into the chromatographic system, the method is very rapid. Within 8 min as little as 50 ng of methotrexate and its metabolites per milliliter (10^?7m) can be measured with a precision better than 7%. Structural analogs of methotrexate do not interfere with the determination. There is a good correlation with the results of other methods, e.g., enzyme immunoassay or radioimmunoassay. The applicability for clinical monitoring in patient's plasma and urine is demonstrated.     

Occurrence of Staphylococcus aureus and evaluation of anti-staphylococcal activity of Lactococcus lactis subsp. lactis in ready-to-eat poultry meat

A total of 181 ready-to-eat poultry meat samples were examined for the presence of Staphylococcus aureus, and 11 (6 %) were found to have S. aureus contamination. Of 11 S. aureus isolates, 10 (91 %) were resistant to at least one antibiotic used in this study, and 2 were resistant to oxacillin. Lactococcus lactis subsp. lactis was tested as a bio-control agent. All the S. aureus isolates were found to be sensitive to antimicrobial products in L. lactis subsp. lactis supernatants; the zones of inhibition were in the range of 5.0 mm?±?0.70 mm to 19.8 mm?±?0.83 mm with the majority of isolates. As a competitive flora in mixed culture (LAPTg broth) and protective culture in poultry meat, L. lactis subsp. lactis was effective against S. aureus isolates; the growth of S. aureus isolates was almost negative after 32 h incubation in mixed culture. The population of S. aureus was reduced substantially to almost log 1 CFU/g after 25 days of incubation in protective culture. The pH of the test cultures also decreased sharply with time.     

Variations in carotenoid content and acyl chain composition in exponential,stationary and biofilm states of Staphylococcus aureus,and their influence on membrane biophysical properties

Bacteria are often found in close association with surfaces, resulting in the formation of biofilms. In Staphylococcus aureus (S. aureus), biofilms are implicated in the resilience of chronic infections, presenting a serious clinical problem world-wide. Here, S. aureus biofilms are grown under flow within clinical catheters at 37 °C. The lipid composition and biophysical properties of lipid extracts from these biofilms are compared with those from exponential growth and stationary phase cells. Biofilms show a reduction in iso and anteiso branching compensated by an increase in saturated fatty acids compared to stationary phase. A drastic reduction in carotenoid levels is also observed during biofilm formation. Thermotropic measurements of Laurdan GP and DPH polarization, show a reduction of lipid packing at 37 °C for biofilms compared to stationary phase. We studied the effects of carotenoid content on DMPG and DPPG model membranes showing trends in thermotropic behavior consistent with those observed in bacterial isolates, indicating that carotenoids participate in modulating lipid packing. Additionally, bending elastic constant (k_c) measurements using vesicle fluctuation analysis (VFA) show that the presence of carotenoids can increase membrane bending rigidity. The antimicrobial peptide Magainin H2 was less activity on liposomes composed of stationary phase compared to biofilms or exponential growth isolates. This study contributes to an understanding of how Staphylococcus aureus modulates the composition of its membrane lipids, and how those changes affect the biophysical properties of membranes, which in turn may play a role in its virulence and its resistance to different membrane-active antimicrobial agents.     

New electrophoretic information on the surface composition of the rat erythrocyte

Microelectrophoretic determinations of erythrocyte surface charge at low pH conducted in different laboratories have given conflicting results with regard to the existence of a positive mobility branch in the mobility-pH curve. The electrokinetic properties of glutaraldehyde-fixed rat erythrocytes below their isoelectric point (pl ≈ 2) have, therefore, been studied by means of an independent method—stable-flow free boundary (STAFLO) electrophoresis. All experiments were conducted in NaClHCl solutions adjusted to pH 1.2 and ionic strength 0.145. Using transverse scattered light to view the migration pattern of the single-cell sample band, the electrophoretic mobilities for single cells were found to be in the range +0.96 to +1.01 μm/sec/V/cm. This was in good agreement with the value +0.84 ± 0.21 (SD) μm/sec/ V/cm measured by conventional microelectrophoresis using a laterally oriented rectangular chamber. The existence of a large positive surface charge was confirmed by two additional STAFLO optical methods. From the measured STAFLO migration pattern, cellular sedimentation velocities were also calculated and found to be in the range 1.05–1.12μm/sec.     

Individual Predisposition to Staphylococcus aureus Colonization in Pigs on the Basis of Quantification,Carriage Dynamics,and Serological Profiles

Previous research on Staphylococcus aureus in pigs focused on livestock-associated methicillin-resistant S. aureus (MRSA) and had a qualitative cross-sectional design. This study aimed to elucidate the frequency, load, and stability of S. aureus nasal carriage in pigs over time and investigated possible associations between carriage and immune response. Nasal swabs were collected three times weekly from 480 tagged adult pigs in 20 Danish production farms. S. aureus and MRSA were quantified on selective media by the most-probable-number method. The levels of IgG against 10 S. aureus antigens in serum were quantified in selected pigs by a Luminex assay. All the farms were positive for S. aureus and 15 for MRSA, leading to overall prevalences of persistent and intermittent carriers and noncarriers of 24, 52, and 23%, respectively. Carriage frequency and nasal loads were significantly higher on MRSA-positive farms. Logistic-regression modeling revealed the presence of individual pigs characterized by high nasal loads (≥10,000 CFU per swab) and stable carriage regardless of farm- and pen-associated factors. On the other hand, the humoral response was strongly influenced by these environmental factors. The existence of a minority of shedders contributing to maintenance of S. aureus within farms opens up new perspectives on the control of MRSA in pig farming.     

Design and synthesis of biaryloxazolidinone derivatives containing amide or acrylamide moiety as novel antibacterial agents against Gram-positive bacteria

A series of novel biaryloxazolidinone derivatives containing amide and acrylamide structure were designed, synthesized and evaluated for their antibacterial activity. Most compounds generally exhibited potent antibacterial activity with MIC values of 1 μg/mL against S. aureus, MRSA, MSSA, LREF and VRE pathogens, using linezolid and radezolid as positive controls. Compound 17 exhibited good antibacterial activity with MIC values of 0.5 μg/mL against S. aureus, MRSA, MSSA and VRE and 0.25 μg/mL against LREF. The results indicated that compound 17 might serve as a potential hit-compound for further investigation.     

Eravacycline activity against clinical <Emphasis Type="Italic">S. aureus</Emphasis> isolates from China: in vitro activity,MLST profiles and heteroresistance

Background

Mortality rates for patients with Staphylococcus aureus (S. aureus) infections have improved only modestly in recent decades and S. aureus infections remain a major clinical challenge This study investigated the in vitro antimicrobial activity of erevacycline (erava) against clinical S. aureus isolates from China, as well as the heteroresistance frequency of erava and sequence types (STs) represented in the sample.

Results

A sample of 328 non-duplicate clinical S. aureus isolates, including 138 methecillin-resistant (MRSA) and 190 methecillin-sensitive (MSSA) isolates, were collected retrospectively in China. Erava exhibited excellent in vitro activity (MIC₅₀ ≤?0.25?mg/L) against MRSA and MSSA, including isolates harboring Tet specific resistance genes. The frequency of erava heteroresistance in MSSA with erava MICs?=?0.5?mg/L was 13.79% (4/29); no MRSA with erava MICs ≤0.5?mg/L exhibited heteroresistance. Heteroresistance- derived clones had no 30S ribosome subunit mutations, but their erava MICs (range, 1–4?mg/L) were suppressed dramatically in the presence of efflux protein inhibitors.

Conclusions

Conclusively, erava exhibited excellent in vitro activity against S. aureus, however hints of erava heteroresistance risk and MIC creep were detected, particularly among MSSA with MICs of 0.5?mg/L.