Cell surface hydrophobicity of colistin-susceptible vs resistant Acinetobacter baumannii determined by contact angles: methodological considerations and implications

Contact angle analysis of cell surface hydrophobicity (CSH) describes the tendency of a water droplet to spread across a lawn of filtered bacterial cells. Colistin‐induced disruption of the Gram‐negative outer membrane necessitates hydrophobic contacts with lipopolysaccharide (LPS). We aimed to characterize the CSH of Acinetobacter baumannii using contact angles, to provide insight into the mechanism of colistin resistance. Contact angles were analysed for five paired colistin‐susceptible and resistant Ac. baumannii strains. Drainage of the water droplet through bacterial layers was demonstrated to influence results. Consequently, measurements were performed 0·66 s after droplet deposition. Colistin‐resistant cells exhibited lower contact angles (38·8±2·8–46·8±1·3°) compared with their paired colistin‐susceptible strains (40·7±3·0–48·0±1·4°; anova ; P < 0·05). Contact angles increased at stationary phase (50·3±2·9–61·5±2·5° and 47·4±2·0–50·8±3·2°, susceptible and resistant, respectively, anova ; P < 0·05) and in response to colistin 32 mg l^?1 exposure (44·5±1·5–50·6±2·8° and 43·5±2·2–48·0±2·2°, susceptible and resistant, respectively; anova ; P < 0·05). Analysis of complemented strains constructed with an intact lpxA gene, or empty vector, highlighted the contribution of LPS to CSH. Compositional outer‐membrane variations likely account for CSH differences between Ac. baumannii phenotypes, which influence the hydrophobic colistin–bacterium interaction. Important insight into the mechanism of colistin resistance has been provided. Greater consideration of contact angle methodology is necessary to ensure accurate analyses are performed.     

Comparison of disc diffusion, Etest and agar dilution for susceptibility testing of colistin against Enterobacteriaceae

Aims: In this study, we compared different methods of colistin susceptibility testing, disc diffusion, agar dilution and Etest using a set of Enterobacteriaceae isolates that included colistin‐resistant strains. Methods and results: Susceptibility of 200 clinical isolates of Enterobacteriaceae to colistin was tested to compare agar dilution (reference method), disc diffusion (50 and 10 μg) and Etest. MICs (minimum inhibitory concentrations) were interpreted using the criteria established by the European Committee on Antimicrobial Susceptibility Testing (EUCAST). Colistin exhibited excellent activity against Escherichia coli and E. cloacae (MIC₉₀ = 0·5 mg l^?1). In contrast, colistin was less active against Klebsiella pneumoniae (MIC₉₀ = 16 mg l^?1). Resistance rates varied from 0% in E. coli to 1·8% in E. cloacae and 13% in K. pneumoniae. High rates of very major errors were observed in the disc diffusion test using either the criteria of the Comité de l’antibiogramme de la Société Française de Microbiologie (CA‐SFM) or the criteria of the Clinical and Laboratory Standards Institute (CLSI), respectively, 3·5 and 2·5%. When the criteria of Gales et al. were applied, the number of very major errors was reduced to one (0·5%). The Etest showed good concordance with agar dilution method. Conclusion: Disc susceptibility testing methods are unreliable on detecting colistin resistance. MIC should be determined to confirm the susceptibility results by disc diffusion. Significance and Impact of the study: We recommend the determination of MIC by Etest for all multidrug‐resistant Enterobacteriaceae when colistin is required for the treatment.     

Haloferax volcanii archaeosortase is required for motility,mating, and C‐terminal processing of the S‐layer glycoprotein

Cell surfaces are decorated by a variety of proteins that facilitate interactions with their environments and support cell stability. These secreted proteins are anchored to the cell by mechanisms that are diverse, and, in archaea, poorly understood. Recently published in silico data suggest that in some species a subset of secreted euryarchaeal proteins, which includes the S‐layer glycoprotein, is processed and covalently linked to the cell membrane by enzymes referred to as archaeosortases. In silico work led to the proposal that an independent, sortase‐like system for proteolysis‐coupled, carboxy‐terminal lipid modification exists in bacteria (exosortase) and archaea (archaeosortase). Here, we provide the first in vivo characterization of an archaeosortase in the haloarchaeal model organism Haloferax volcanii. Deletion of the artA gene (HVO_0915) resulted in multiple biological phenotypes: (a) poor growth, especially under low‐salt conditions, (b) alterations in cell shape and the S‐layer, (c) impaired motility, suppressors of which still exhibit poor growth, and (d) impaired conjugation. We studied one of the ArtA substrates, the S‐layer glycoprotein, using detailed proteomic analysis. While the carboxy‐terminal region of S‐layer glycoproteins, consisting of a putative threonine‐rich O‐glycosylated region followed by a hydrophobic transmembrane helix, has been notoriously resistant to any proteomic peptide identification, we were able to identify two overlapping peptides from the transmembrane domain present in the ΔartA strain but not in the wild‐type strain. This clearly shows that ArtA is involved in carboxy‐terminal post‐translational processing of the S‐layer glycoprotein. As it is known from previous studies that a lipid is covalently attached to the carboxy‐terminal region of the S‐layer glycoprotein, our data strongly support the conclusion that archaeosortase functions analogously to sortase, mediating proteolysis‐coupled, covalent cell surface attachment.     

Contribution of quorum‐sensing system to hexadecane degradation and biofilm formation in Acinetobacter sp. strain DR1

Aims: To investigate roles of quorum‐sensing (QS) system in Acinetobacter sp. strain DR1 and rifampicin‐resistant variant (hereinafter DR1R). Methods and Results: The DR1 strain generated three putative acyl homoserine lactones (AHLs), while the DR1R produced only one signal and QS signal production was abrogated in the aqsI (LuxI homolog) mutant. The hexadecane‐degradation and biofilm‐formation capabilities of DR1, DR1R, and aqsI mutants were compared, along with their proteomic data. Proteomics analysis revealed that the AHL lactonase responsible for degrading QS signal was highly upregulated in both DR1R and aqsI mutant, also showed that several proteins, including ppGpp synthase, histidine kinase sensors, might be under the control of QS signalling. Interestingly, biofilm‐formation and hexadecane‐biodegradation abilities were reduced more profoundly in the aqsI mutant. These altered phenotypes of the aqsI mutant were restored via the addition of free wild‐type cell supernatant and exogenous C₁₂‐AHL. Conclusions: The QS system in strain DR1 contributes to hexadecane degradation and biofilm formation. Significance and Impact of the Study: This is the first report to demonstrate that a specific QS signal appears to be a critical factor for hexadecane degradation and biofilm formation in Acinetobacter sp. strain DR1.     

Heteroresistance to the model antimicrobial peptide polymyxin B in the emerging Neisseria meningitidis lineage 11.2 urethritis clade: mutations in the pilMNOPQ operon

Clusters of Neisseria meningitidis (Nm) urethritis among primarily heterosexual males in multiple US cities have been attributed to a unique non‐encapsulated meningococcal clade (the US Nm urethritis clade, US_NmUC) within the hypervirulent clonal complex 11. Resistance to antimicrobial peptides (AMPs) is a key feature of urogenital pathogenesis of the closely related species, Neisseria gonorrhoeae. The US_NmUC isolates were found to be highly resistant to the model AMP, polymyxin B (PmB, MICs 64–256 µg ml^–1). The isolates also demonstrated stable subpopulations of heteroresistant colonies that showed near total resistant to PmB (MICs 384–1024 µg ml^–1) and colistin (MIC 256 µg ml^–1) as well as enhanced LL‐37 resistance. This is the first observation of heteroresistance in N. meningitidis. Consistent with previous findings, overall PmB resistance in US_NmUC isolates was due to active Mtr efflux and LptA‐mediated lipid A modification. However, whole genome sequencing, variant analyses and directed mutagenesis revealed that the heteroresistance phenotypes and very high‐level AMP resistance were the result of point mutations and IS1655 element movement in the pilMNOPQ operon, encoding the type IV pilin biogenesis apparatus. Cross‐resistance to other classes of antibiotics was also observed in the heteroresistant colonies. High‐level resistance to AMPs may contribute to the pathogenesis of US_NmUC.     

Understanding resistant germplasm‐induced virulence variation through analysis of proteomics and suppression subtractive hybridization in a maize pathogen Curvularia lunata

Curvularia lunata is an important pathogen causing Curvularia leaf spot in maize. Significant pathogenic variation has been found in C. lunata. To better understand the mechanism of this phenomenon, we consecutively put the selective pressures of resistant maize population on C. lunata strain WS18 (low virulence) artificially. As a result, the virulence of this strain was significantly enhanced. Using 2DE, 12 up‐regulated and four down‐regulated proteins were identified in virulence‐increased strain compared to WS18. Our analysis revealed that melanin synthesis‐related proteins (Brn1, Brn2, and scytalone dehydratase) and stress tolerance‐related proteins (HSP 70) directly involved in the potential virulence growth as crucial markers or factors in C. lunata. To validate 2DE results and screen differential genes at mRNA level, we constructed a subtracted cDNA library (tester: virulence‐increased strain; driver: WS18). A total of 188 unigenes were obtained this way, of which 14 were indicators for the evolution of pathogen virulence. Brn1 and hsp genes exhibited similar expression patterns corresponding to proteins detected by 2DE. Overall, our results indicated that differential proteins or genes, being involved with melanin synthesis or tolerance response to stress, could be considered as hallmarks of virulence increase in C. lunata.     

Role of an endogenous nitric oxide burst in the resistance of wheat to stripe rust

The stripe rust (or yellow rust) disease caused by Puccinia striiformis Westend is a serious disease of wheat in many areas of the world. The role of NO, which is an important redox‐active signalling molecule in plants, was investigated in the wheat‐stripe rust system. The phenotypes from interactions of the same wheat variety, Lovrin10, with two different clones of stripe rust strains (P. striiformis Westend), namely China yellow rust (CY)22‐2 and CY29‐1, which are immune and susceptible reaction types, respectively. The time course of host endogenous NO detected by electron spin resonance indicated that recognition of an avirulent strain was associated with two peaks of NO production. The first peak of NO accumulated in the early infection stage whereas the second peak accumulated in the latent period; however, only a single peak of NO was observed in the latent period for the virulent strain. Furthermore, the activity of pathogen‐related protein‐phenylalanine ammonia‐lyase was higher in the resistant system than in the susceptible system, which suggested that the first NO production was associated with resistance. Exogenous NO improved the activity of phenylalanine ammonia‐lyase and induced a resistant response of Lovrin10 to the virulent strain CY29‐1, thereby providing further evidence that the first peak of NO production was associated with resistance. These results indicate that the first NO burst in the immune system plays an important role in the resistant reaction of wheat to strip rust.     

Synergistic activity of 1-(1-naphthylmethyl)-piperazine with ciprofloxacin against clinically resistant Staphylococcus aureus, as determined by different methods

Aims: To evaluate the interaction of 1‐(1‐naphthylmethyl)‐piperazine (NMP) and ciprofloxacin (CPFX) in vitro against fluoroquinolone (FQ)‐resistant clinical isolates of methicillin‐resistant Staphylococcus aureus (MRSA). Methods and Results: The in vitro interaction of NMP and CPFX in 12 FQ‐resistant clinical isolates of MRSA was assessed using a checkerboard microdilution method. In the study, a synergistic antimicrobial effect between NMP and CPFX was observed in all 12 FQ‐resistant strains tested, as determined by the fractional inhibitory concentration index (FICI), and in 10 strains using ΔE models. No antagonistic activity was observed in any of the strains tested. These positive interactions were also confirmed using the time–killing test and agar diffusion assay for the selected strain, MRSA 1862; synergistic activity was observed when NMP was combined with the first‐line antimicrobial agent CPFX against Staph. aureus. Conclusions: Synergistic activity between NMP and CPFX against clinical isolates of FQ‐resistant Staph. aureus was observed in vitro. Significance and Impact of the Study: This report might provide alternative methods to reduce the resistance of Staph. aureus to CPFX.     

Mass spectrometry‐based secretome analysis of non‐small cell lung cancer cell lines

Tyrosine kinase inhibitors, such as erlotinib, display reliable responses and survival benefits for the treatment of human non‐small cell lung cancer (NSCLC) patients. However, primary or acquired resistance limits their therapeutic success. In this study, we conducted in‐depth mass spectrometric analyses of NSCLC cell secretomes. To identify secreted proteins that are differentially regulated in erlotinib‐sensitive (PC‐9) and ‐resistant (PC‐9ER) NSCLC cell lines, SILAC experiments were performed. On average, 900 proteins were identified in each sample with low variations in the numbers of identified proteins. Fourteen proteins were found to be differently regulated among erlotinib‐sensitive and ‐resistant NSCLC cell lines, with five proteins (tissue‐type plasminogen activator, epidermal growth factor receptor, urokinase‐type plasminogen activator, platelet‐derived growth factor D, and myeloid‐derived growth factor) showing the most prominent regulation. Tissue‐type plasminogen activator (t‐PA) was up to 10‐times upregulated in erlotinib‐resistant NSCLC cells compared with erlotinib‐sensitive cells. T‐PA is an established tumor marker for various cancer types and seems to be a promising prognostic marker to differentiate erlotinib‐sensitive from erlotinib‐resistant NSCLC cells. To gain further insights into t‐PA‐regulated pathways, a t‐PA variant was expressed in E. coli cells and its interactions with proteins secreted from erlotinib‐sensitive and ‐resistant NCSLC cells were studied by a combined affinity enrichment chemical cross‐linking/mass spectrometry (MS) approach. Fourteen proteins were identified as potential t‐PA interaction partners, deserving a closer inspection to unravel the mechanisms underlying erlotinib resistance in NSCLC cells.     

Warfarin resistance in a French strain of rats

A warfarin‐resistant strain and a warfarin‐susceptible strain of wild rats (Rattus norvegicus) maintained in enclosures of the National Veterinary School of Lyon (France) were studied to determine the mechanism of the resistance to anticoagulant rodenticides. A low vitamin K epoxide reductase (VKOR) activity has been reported for many resistant rat strains. As recently suggested, mutations in the vitamin K epoxide reductase subunit 1 (VKORC1) gene are the genetic basis of anticoagulant resistance in wild populations of rats from various locations in Europe. Here we report, for our strain, one of the seven described mutations (Tyr139Phe) for VKORC1 in rats. In addition, a low expression of mRNA encoding VKORC1 gene is observed in resistant rats, which could explain their low VKOR activity. We calculated kinetic parameters of VKOR in the warfarin‐resistant and warfarin‐susceptible rats. The V_max and the K_m of the VKOR obtained in resistant rats were lowered by 57 and 77%, respectively, compared to those obtained in susceptible rats. As a consequence, the enzymatic efficiency (V_m/K_m) of the VKOR was similar between resistant and susceptible rats. This result could be a good explanation to the observation that no clinical signs of vitamin K deficiency was observed in the warfarin‐resistant strain, while a low VKOR activity was found. VKOR activity in warfarin‐resistant rats was poorly inhibited by warfarin (K_i for warfarin is 29 μM and 0.72 μM for resistant and susceptible rats, respectively). © 2005 Wiley Periodicals, Inc. J Biochem Mol Toxicol 19:379‐385, 2005; Published online in Wiley InterScience ( www.interscience.wiley.com ). DOI 10.1002/jbt.20104     

MOLECULAR CLONING AND SEQUENCE ANALYSIS OF THREE NEW FULL‐LENGTH cDNAs OF CYTOCHROME P450 (CYP6N3v1‐v3)*FROM AEDES ALBOPICTUS**

Abstract The three new full‐length cDNA sequences including the complete 5′‐and 3′‐ untranslated regions (UTR) coding for cytochrome P450s from Aedes albopictus have been obtained. The P450 proteins deduced from the nucleotide sequences shared 58.6% ‐ 62.4% amino acid identity with CYP6N1 and CYP6N2 from Anopheles gambiae, and 99% with each other. The three new complete sequences have been submitted and named as CYP6N3v1, CYP6N3v2 and CYP6N3v3 by the P450 Nomenclature Committee. The original cDNAs were obtained by rapid amplification of cDNA ends (RACE) approach with several pairs of gene specific primers based on the cDNA fragment previously obtained from deltamethrin‐resistant strain of Ae. albopictus. Further analysis showed that the three new sequences are present in both resistant strain and susceptible strain and might be effectively translated. In addition, the 5′‐ and 3′‐UTRs were compared between the CYP6N3vl‐v3 and other known insect P450s. The multiplicity of trans‐lational control of insect P450 genes was discussed.     

Functional and genetic characteristics of Chlorantraniliprole resistance in the diamondback moth,Plutella xylostella (Lepidoptera: Plutellidae)

The diamondback moth (Plutella xylostella) is a globally distributed and important economic pest, and it has developed resistance to all conventional insecticide classes used in the field. Chlorantraniliprole is a new chemical class of insecticide that acts as a conformation‐sensitive activator of the insect ryanodine receptor (RyR). In the present study, a field strain (16.3‐fold resistance to chlorantraniliprole) was collected in Korea and lab‐selected with chlorantraniliprole for more than one year. The resulting strain presented 2,157‐fold resistance to chlorantraniliprole. A point mutation (G4946E) in the RyR gene was observed at a high frequency in the resistant strain. Enzyme assays indicated that glutathione S‐transferase (GST) and P450 activity in the resistant strain were 2.4‐ and 1.96‐times higher than that of the susceptible strain, respectively. The expression of the RyR, GST (sigma, omega, and zeta) and CYP321E1 gene was higher in the resistant strain than in the susceptible strain. The F₁ progeny resulting from reciprocal crosses did not reveal maternal effects or a diamide‐susceptible phenotype, which suggests an autosomal nearly recessive mode of inheritance. In addition, we surveyed the susceptibility to 13 insecticides (3 diamides, 2 synthetic pyrethroids, 2 spinosyns, 1 organophosphate, 1 oxadiazine, 1 avermectin, and 3 others) in the chlorantraniliprole‐resistant strain. The resistant strain exhibited high cross‐resistance to flubendiamide (5,910 fold) and showed no cross‐resistance to spinetoram, spinosad, indoxacarb, and metaflumizone. These results can serve as an important basis for guiding the use of insecticides in the field.     

相对定量分析异烟肼、链霉素单耐药与多耐药结核分枝杆菌临床分离株的蛋白质组差异

【目的】探讨异烟肼(isoniazid,INH)、链霉素(streptomycin,SM)单耐药结核分枝杆菌(Mycobacterium tuberculosis,MTB)与INH/SM多耐药MTB蛋白质组差异。【方法】应用i TRAQ结合Nano LC-MS/MS定量蛋白质组学技术,分析临床分离INH、SM或INH/SM耐药MTB与H37Rv标准株间均表达差异蛋白;并以INH/SM耐药MTB与H37Rv比值为对照,相对定量分析单耐药与多耐药MTB蛋白表达差异倍数;运用DAVID 6.7分析差异蛋白生物功能;STITCH 5.0分析差异蛋白与INH和SM相互作用。【结果】与H37Rv标准株比较,58个蛋白在INH、SM耐药与INH/SM耐药MTB间均有表达差异,共同差异蛋白生物功能主要为氧化还原酶活性和转移酶活性;主要参与丙酸代谢信号通路。共同差异蛋白中,与INH/SM耐药MTB比较,Rv2986c和Rv1908c在INH、SM耐药MTB均表达上调1.25倍;Rv3133c和Rv0577则均表达下调0.7倍;生物信息学预测发现以上4种蛋白可直接或间接与INH、SM进行相互作用。【结论】INH、SM单耐药和INH/SM多耐药MTB蛋白表达谱有较大差异,蛋白Rv2986c、Rv1908c、Rv3133c和Rv0577表达水平及相互作用可能与INH和SM耐药有关。     

Resistance system of Mycobacterium bovis B.C.B. to aminoglycoside- and peptide-antibiotics. Comparison of resistant phenotypes between Mycobacterium tuberculosis and Mycobacterium bovis

The resistance system of Mycobacterium bovis (B.C.G.) to aminoglycoside-and peptide-antibiotics has been studied. The phenotype of mutants isolated from the parent B.C.G. strain by a single-step selection with an antibiotic were classified into the following three types: (1) resistant only to a low concentration (200 μg/ml) of kanamycin in Ogawa egg medium (k1R); (2) resistant to a low concentration (200 μg/ml) of viomycin and of capreomycin (2R); and (3) resistant to a high concentration (1,000 μg/ml or more) of kanamycin and low concentrations (100 to 200 μg/ml) of lividomycin and of paromomycin (KR). The mutants showing these phenotypes, k1R, 2R, and KR, were isolated from the parent strain by inoculating the strain into media containing 100 μg/ml of kanamycin, and 100 μ/g/ml of viomycin or capreomycin, and 1,000 μg/ml of kanamycin, respectively, at rates of 10^?5-10^?6, 10^?5-10^?6, and 10^?6-10^?7, respectively, in a total viable population of the parent strain. Unlike in the case of M. tuberculosis, no mutant could be isolated from the parent strain by use of enviomycin, lividomycin, and/or paromomycin. In contrast to the fact that quadruply resistant mutants were isolated directly from the parent H37Rv strain of M. tuberculosis, such mutants could be isolated only by two-step selections. Furthermore, the phenotypes of the quadruply resistant mutants were those showing a higher resistance or a broader spectrum than expected by the addition of phenotypes of individual mutations. In addition, it was shown that, in contrast to the fact that hextuply resistant mutants could be isolated directly from the parent strain of M. tuberculosis, such mutants were not isolated directly from the parent B.C.G. strain, but could be isolated only after pre-incubation of the strain on a medium containing Tween 80.     

Directed mutagenesis of Mycobacterium smegmatis 16S rRNA to reconstruct the in vivo evolution of aminoglycoside resistance in Mycobacterium tuberculosis

Drug resistance in Mycobacterium tuberculosis is a global problem, with major consequences for treatment and public health systems. As the emergence and spread of drug‐resistant tuberculosis epidemics is largely influenced by the impact of the resistance mechanism on bacterial fitness, we wished to investigate whether compensatory evolution occurs in drug‐resistant clinical isolates of M. tuberculosis. By combining information from molecular epidemiology studies of drug‐resistant clinical M. tuberculosis isolates with genetic reconstructions and measurements of aminoglycoside susceptibility and fitness in Mycobacterium smegmatis, we have reconstructed a plausible pathway for how aminoglycoside resistance develops in clinical isolates of M. tuberculosis. Thus, we show by reconstruction experiments that base changes in the highly conserved A‐site of 16S rRNA that: (i) cause aminoglycoside resistance, (ii) confer a high fitness cost and (iii) destabilize a stem‐loop structure, are associated with a particular compensatory point mutation that restores rRNA secondary structure and bacterial fitness, while maintaining to a large extent the drug‐resistant phenotype. The same types of resistance and associated mutations can be found in M. tuberculosis in clinical isolates, suggesting that compensatory evolution contributes to the spread of drug‐resistant tuberculosis disease.     

粘菌素对耐碳青霉烯类抗生素鲍曼不动杆菌的抗菌作用

感染耐碳青霉烯的鲍曼不动杆菌(CR-Ab)常与高发病率和死亡率相关联,而可供选择的治疗方案有限,大多基于与粘菌素联用。长期用药导致CR-Ab对粘菌素也产生一定抗性。为了评估含有或不含有粘菌素的不同抗菌组合对从CR-Ab感染患者收集的CR-Ab临床分离株的体外抗菌活性,本研究从本院就诊的患者中收集CR-Ab菌株,通过常量肉汤稀释法(MBD)测定最低抑菌浓度(MICs),通过定性(棋盘法)和定量(即杀菌测试)方法评估各组药物协同活性。结果发现所有菌株均是碳青霉烯类抗性的,且其中两株菌对粘菌素有抗性。棋盘法结果表明含粘菌素的组合在不同处理时间下具有完全协同作用,粘菌素+万古霉素和粘菌素+利福平表现出最高的协同增效作用;不含粘菌素的组合则在35.7%的菌株中观察到完全协同作用。杀菌测试表明粘菌素+美罗培南、粘菌素+替加环素和美罗培南+替加环素组合对粘菌素敏感和低粘菌素抗性的菌株具有杀菌和协同作用,而只有粘菌素+万古霉素和粘菌素+利福平组合表现出持久的杀菌活性。     

In vitro bactericidal activity of the N-terminal fragment of the frog peptide esculentin-1b (Esc 1–18) in combination with conventional antibiotics against Stenotrophomonas maltophilia

In this study the bactericidal effect of the N-terminal fragment of the frog skin peptide esculentin-1b [Esc(1–18)] in combination with clinically used antimicrobial agents was evaluated against Stenotrophomonas maltophilia, either in standard conditions (phosphate buffer) or in the presence of human serum. A synergistic bactericidal effect was observed after a 24 h incubation when combinations of Esc(1–18) and amikacin or colistin were used against clinical strains of S. maltophilia with or without resistance to these antibiotics, both in buffer and in the presence of serum. An indifferent effect was observed when the peptide was combined with levofloxacin or ceftazidime. A synergistic effect was also observed at earlier time points when the peptide was used in combination with colistin. Sequential exposure of bacterial cells to Esc(1–18) and amikacin or colistin, or vice versa, indicated that while Esc(1–18) and colistin cooperated in enhancing the bactericidal effect of their combination, when Esc(1–18) was combined with amikacin, the peptide had a major role in initiating the bactericidal effect, while amikacin was required for the subsequent effector phase. Altogether, the results obtained indicate that exposure of S. maltophilia to sub-bactericidal concentrations of Esc(1–18) increases its susceptibility to amikacin or colistin and may also render resistant strains susceptible to these antibiotics.     

Toxicological and biochemical characterizations of GSTs in Liposcelis bostrychophila Badonnel (Psocop., Liposcelididae)

Abstract: The toxicological and biochemical characteristics of glutathione S‐transferases (GSTs) in the resistant and susceptible strains of Liposcelis bostrychophila were investigated. The two resistant strains were the dichlorvos‐resistant strain (DDVP‐R) and PH₃‐resistant strain (PH₃‐R), and the resistance factors were 22.36 and 4.51, respectively. Compared with their susceptible counterparts, the activities per insect and specific activities of GSTs in DDVP‐R and PH₃‐R were significantly higher. The apparent Michaelis–Menten constant values (K_m) for 1‐chloro‐2,4‐dinitrobenzene (CDNB) were obviously lower in DDVP‐R and PH₃‐R (i.e. lower K_m values, 1.5625 mm for DDVP‐R and 0.6230 mm for PH₃‐R) when compared with their susceptible counterpart (K_m = 3.5520), indicating a higher affinity to the substrate CDNB in resistant strains. In contrast, the catalytic activity of GSTs towards CDNB in the susceptible strain was significantly higher than those in resistant strains. It was noticeable that when reduced glutathione (GSH) was used as substrate, GSTs from resistant strains both indicated a significantly declined affinity. For the catalytic activity of GSTs towards GSH, only the V_max value in DDVP‐R increased significantly compared with that from the susceptible strain, suggesting an overexpression of GST in this resistant strain. The inhibition kinetics of insecticides to GSTs in vitro revealed that dichlorvos and paraoxon possessed excellent inhibition effects on GSTs. The susceptible strain showed higher sensitivity (I₅₀ = 0.9004 mm ) to dichlorvos than DDVP‐R and PH₃‐R (higher I₅₀s, 8.0955 mm for DDVP‐R and 9.3346 mm for PH₃‐R). As for paraoxon, there was a similar situation. The resistant strains both suggested a higher I₅₀ (1.8735 mm for DDVP‐R, and 0.4291 mm for PH₃‐R) compared with the susceptible strain (0.2943 mm ). These suggested that an elevated detoxification ability of GSTs developed in the resistant strains.     

Isolation and characterization of multidrug‐resistant Leclercia species from animal clinical case

Leclercia adecarboxylata, a Gram‐negative bacillus of family Enterobacteriaceae, is an uncommonly identified pathogen isolated from environmental and clinical specimens. Most of the human infections are polymicrobial and commonly occur in immunocompromised hosts, although nosocomial infections in immunocompetent hosts have been documented. Here, we describe the case of isolation of Leclercia species as polymicrobial infection from bovine suffering from respiratory distress in Chhattisgarh state of India. The isolates were identified by their phenotypes, 16S rDNA sequencing and MALDI‐TOF‐MS. The isolate was found to be resistant to aminoglycosides and fluoroquinolone antibiotics and intermediate resistant to cephalosporins and evidenced for uncertain clinical relevance and could act as hidden source of public health hazard.

Significance and Impact of the Study

Leclercia adecarboxylata is a rarely reported human pathogen. We report here the case from bovine suffering from respiratory distress; the sample yielded Leclercia species as polymicrobial culture. The isolate was found to be multidrug resistant and evidenced for uncertain clinical relevance and could act as hidden source of public health hazard. The limited literature available on this organism is reviewed, and the potential implications of findings are discussed. To the best of our knowledge, this is the first report of isolation and characterization of multidrug‐resistant Leclercia species from animal clinical case from India.     

Abamectin resistance in strains of vegetable leafminer,Liriomyza sativae (Diptera: Agromyzidae) is linked to elevated glutathione S‐transferase activity

Abamectin resistance was selected in the vegetable leafminer, Liriomyza sativae (Blanchard) (Diptera: Agromyzidae) under laboratory conditions, and cross‐resistance patterns and possible resistance mechanisms in the abamectin‐resistant strains (AL‐R, AF‐R) were investigated. Compared with the susceptible strain (SS), strain AL‐R displayed 39‐fold resistance to abamectin after 20 selection cycles during 25 generations, and strain AF‐R exhibited 59‐fold resistance to abamectin after 16 selection cycles during 22 generations. No cross‐resistance to cyromazine was found in both abamectin‐resistant strains. However, we failed to select for cyromazine resistance in L. sativae under laboratory conditions by conducting 17 selection cycles during 22 generations. However, moderate levels of cross‐resistance to abamectin (6–9 fold) were observed in strains which received cyromazine treatments. Biochemical analysis showed that glutathione S‐transferase (GST) activity in both abamectin‐resistant strains (AL‐R, AF‐R) was significantly higher than in the susceptible strain (SS), suggesting metabolically driven resistance to abamectinin L. sativae. Recommendations of mixtures or rotation of cyromazine and abamectin should be considered carefully, as consecutive cyromazine treatments may select for low‐level cross‐resistance to abamectin.