PER extended-spectrum β-lactamases originate from Pararheinheimera spp

To investigate the origin of PER extended-spectrum β-lactamases, publicly available sequence databases were searched for bla_PER-like genes. Three genomes from Pararheinheimera, a genus associated with water and soil environments, were found to carry bla_PER-like genes but lacked the ISCR1/ISPa12/ISPa13 insertion sequences commonly associated with bla_PER in clinical isolates. Sequence analysis revealed 78–96% nucleotide identity and conserved synteny between the clinical mobile genetic elements (MGEs) encoding bla_PER-1 and the bla_PER locus in the Pararheinheimera genomes. Notably, bla_PER genes were only identified in 3 of 21 Pararheinheimera and Rheinheimera genomes, whereas the genetic environment of bla_PER genes as found in clinical MGEs was conserved in all Pararheinheimera and Rheinheimera genomes. These findings indicate that bla_PER genes were likely acquired by a branch of the Pararheinheimera genus long before the antibiotic era. Later, bla_PER genes were mobilised, likely through the involvement of insertion sequences, from one or several Pararheinheimera species, allowing their dissemination into human pathogens.     

Impact of the colistin resistance gene mcr-1 on bacterial fitness

A Klebsiella pneumoniae isolate harbouring a 217 kb IncHI2-type plasmid (pKP2442) encoding the colistin resistance gene mcr-1 was isolated from a leukaemia patient. pKP2442 was mobilised by intragenus and intergenus transconjugation from the clinical isolate to Escherichia coli J53 (transconjugation frequency 6.86?×?10^?8?±?5.57?×?10^?8) and K. pneumoniae PRZ (transconjugation frequency 4.04?×?10^?8?±?3.03?×?10^?8), respectively. Since acquisition of resistance determinants often results in a loss of fitness, the impact of mcr-1 on the fitness of E. coli and K. pneumoniae was investigated. Escherichia coli J53 and K. pneumoniae PRZ transformants harbouring the TOPO expression vector encoding mcr-1 displayed significantly decreased growth rates compared with isogenic parental strains and controls. In contrast, competitive growth experiments revealed equal growth rates between E. coli J53 pKP2442 transconjugants (Tc_pKP2442) and the parental strain, whereas K. pneumoniae PRZ Tc_pKP2442 showed significantly reduced growth rates compared with their parental strain (selection rate constant ?1.62?±?0.49), indicating a decrease in fitness. Infection of A549 human lung epithelial cells with Tc_pKP2442 or mcr-1 transformants and controls revealed equal lactate dehydrogenase activities, indicating no significant impact of mcr-1 on cytotoxicity. Likewise, survival of Galleria mellonella larvae infected with mcr-1-expressing strains and isogenic controls was similar. These data indicate that expression of mcr-1 is able to cause a fitness cost when encoded on expression vectors and that acquisition of natural plasmid-borne mcr-1 does not impair fitness in E. coli J53 but negatively influences growth rates in K. pneumoniae PRZ.     

Silent transmission of an IS1294b-deactivated mcr-1 gene with inducible colistin resistance

Global dissemination of the mobile colistin resistance mcr-1 is of particular concern as colistin is one of the last-resort antibiotics for the treatment of severe infections caused by carbapenem-resistant Gram-negative bacteria. In this study, an inactive form of mcr-1 in a fluoroquinolone-resistant and colistin-susceptible uropathogenic Escherichia coli isolate (ECO3347) was characterised. The mcr-1 gene was deactivated by insertion of a 1.7-kb IS1294b element flanked by two tetramers (GTTC) and located on a 62-kb pHNSHP45-like plasmid (p3347-mcr-1). Single-step and multistep selections were used to induce colistin resistance in vitro in ECO3347. ECO3347 acquired colistin resistance (MIC?=?16–32?mg/L) only after a serial passage selection with increasing concentrations of colistin (2–8?mg/L). Deactivated mcr-1 was re-activated by loss of IS1294b without any remnants in most colistin-resistant mutants. In addition, a novel amino acid variant (Leu105Pro) in the CheY homologous receiver domain of PmrA was detected in one colistin-resistant mutant. Plasmid p3347-mcr-1⁺ carrying the re-activated mcr-1 gene is transferrable to E. coli J53 recipient with a high conjugation rate (ca. 10^–1 cells per recipient cell). Transconjugants showed an identical growth status to J53, suggesting lack of a fitness cost after acquiring p3347-mcr-1⁺. These results highlight that the disrupted mcr-1 gene has the potential for wide silent dissemination with the help of pHNSHP45-like epidemic plasmids. Inducible colistin resistance may likely compromise the success of clinical treatment and infection control. Continuous monitoring of mcr-1 is imperative for understanding and tackling its dissemination in different forms.     

Co-occurrence of mcr-1 in the chromosome and on an IncHI2 plasmid: persistence of colistin resistance in Escherichia coli

Two colistin-resistant Escherichia coli strains (FS13Z2S and FS3Z6C) possessing chromosomally encoded mcr-1 isolated from swine were characterised. Whole-genome sequencing revealed that in strain FS13Z2S mcr-1 occurred in triplicate in the chromosome with another copy encoded on a pHNSHP45-2-like IncHI2 plasmid, whereas in strain FS3Z6C only one copy mcr-1 was inserted in the chromosome. It seems likely that the triplication of chromosomal copies of mcr-1 in FS13Z2S is due to intramolecular transposition events via a composite transposon containing an mcr-1 cassette bracketed by two copies of insertion sequence ISApl1, and the pap2 gene at the insertion site was truncated by an IS1294-like element. In plasmid pFS13Z2S and the chromosome of strain FS3Z6C, only a single copy of ISApl1 was present upstream of the mcr-1 cassette. The two strains exhibited similar colistin minimum inhibitory concentrations (MICs) and featured phosphoethanolamine addition to lipid A, without regard to the copy number of mcr-1. The mcr-1-harbouring plasmid was unstable in wild-type strain FS13Z2S and was quickly lost after 7 days of passage on colistin-free Luria–Bertani broth containing 0.5% SDS, but the mcr-1 copies on the chromosome persisted. These results reveal that the single copy of mcr-1 could result in modification of lipopolysaccharide (LPS) and cause colistin resistance in E. coli. Acquisition of multiple copies of mcr-1, especially on the chromosome, would facilitate stable persistence of colistin resistance in the host strain.     

Exploiting a conjugative CRISPR/Cas9 system to eliminate plasmid harbouring the mcr-1 gene from Escherichia coli

The transfer of multi-drug-resistance plasmids by bacterial conjugation is largely responsible for the development of drug resistance in bacteria, and causes serious problems in the treatment of infectious diseases. Since the first discovery of plasmid-borne colistin resistance gene mcr-1 was reported in late 2016, this gene has been found in a great number of Escherichia coli and other Gram-negative pathogens separated from different types of sources worldwide. The elimination of plasmids carrying mcr-1 and restoration of polymyxin sensitivity has very important clinical significance because polymyxins are frequently used as last-resort antibiotics to treat extensively drug-resistant Gram-negative bacterial infections. A host-independent conjugative plasmid was constructed in this study, and an engineered CRISPR/Cas9 system was used to remove plasmid harbouring mcr-1 from bacteria. This study found that this conjugative plasmid can not only be used as a new tool to remove resistance plasmids and sensitize the recipient bacteria to antibiotics, but can also make the recipient cell acquire immunity against mcr-1. This strategy provides a novel method to counteract the ever-worsening spread of mcr-1 among bacterial pathogens.     

Shewanella species as the origin of blaOXA-48 genes: insights into gene diversity,associated phenotypes and possible transfer mechanisms

Chromosome-encoded beta-lactamases of Shewanella spp. have been indicated as probable progenitors of bla_OXA-48-like genes. However, these have been detected in few Shewanella spp. and dissemination mechanisms are unclear. Thus, our main objective was to confirm the role of Shewanella species as progenitors of bla_OXA-48-like genes.In silico analysis of Shewanella genomes was performed to detect bla_OXA-48-like genes and context, and 43 environmental Shewanella spp. were characterised. Clonal relatedness was determined by BOX-PCR. Phylogenetic affiliation was assessed by 16S rDNA and gyrB sequencing. Antibiotic susceptibility phenotypes were determined. The bla_OXA-48-like genes and genetic context were inspected by PCR, hybridisation and sequence analysis. Gene variants were cloned in Escherichia coli and MICs were determined. Shewanella isolates were screened for integrons, plasmids and insertion sequences.Analysis of Shewanella spp. genomes showed that putative bla_OXA-48-like is present in the majority and in an identical context. Isolates presenting unique BOX profiles affiliated with 11 Shewanella spp. bla_OXA-48-like genes were detected in 22 isolates from 6 species. Genes encoded enzymes identical to OXA-48, OXA-204, OXA-181, and 7 new variants differing from OXA-48 from 2 to 82 amino acids. IS1999 was detected in 24 isolates, although not in the vicinity of bla_OXA-48 genes. Recombinant E. coli strains presented altered MICs.The presence/absence of bla_OXA-48-like genes was species-related. Gene variants encoded enzymes with hydrolytic spectra similar to OXA-48-like from non–shewanellae. From the mobile elements previously described in association with bla_OXA-48-like genes, only the IS1999 was found in Shewanella, which indicates its relevance in bla_OXA-48-like genes transfer to other hosts.     

Insertion sequences in the CRISPR-Cas system regulate horizontal antimicrobial resistance gene transfer in Shigella strains

Multidrug-resistant (MDR) Shigella strains are an enormous threat to public health. Antimicrobial resistance genes are frequently located on plasmids, phages and integrons, which enter bacterial cells by horizontal gene transfer (HGT). CRISPR-Cas systems are adaptive prokaryotic immune systems in bacteria that confer resistance to foreign genetic material such as phages and other mobile genetic elements. However, this may come at a cost of inhibiting the acquisition of other beneficial genes through HGT. This study investigated how Shigella strains regulate the activity of the CRISPR-Cas system spontaneously when they require an exogenous gene necessary for survival. Insertion sequence (IS) elements were identified in cas genes, such as IS600 in cse2, ISSfl2 in cas6e and IS629 in cse1–cas3. The number of spacers in CRISPR-Cas arrays in strains containing an IS was less than that for strains with no IS. Interestingly, fewer spacers were also found in MDR Shigella isolates. Furthermore, an antimicrobial-resistant strain was constructed by electrotransformation of a resistance plasmid in order to detect changes in the CRISPR-Cas system. It was found that the cse2 gene had a new IS (IS600) in the antimicrobial-resistant strain. Bioinformatics analyses showed that the IS600 insertion hotspot was TGC-GGC in the cse2 gene, and the tertiary structure of the Cse2 protein was different with IS600. IS600 caused a five-order of magnitude decrease in relative expression of the cse2 gene. This study sheds mechanistic light on CRISPR-Cas-mediated HGT of antimicrobial resistance genes in Shigella spp. isolates.     

The prevalence of colistin resistance in Escherichia coli and Klebsiella pneumoniae isolated from food animals in China: coexistence of mcr-1 and blaNDM with low fitness cost

Increasing colistin resistance is a global concern because colistin is used as a last resort for the treatment of carbapenem-resistant Enterobacteriaceae infections. The plasmid-mediated colistin resistance gene, mcr-1 was found in distinct bacterial species isolated from humans, animals, and the environment. In this study, farms in four different agricultural provinces in China were investigated to determine the occurrence of the antimicrobial resistance and related genes. A total of 373 Escherichia coli and 54 Klebsiella pneumoniae were isolated from 510 non-duplicated samples. Of the E. coli and K. pneumoniae isolates, 72.7% and 66.7%, respectively, were susceptible to colistin. Isolates resistant to colistin comprised 46.6% of the samples isolated from Shandong, and 17.8% and 16.4% of the samples from Jilin and Henan, respectively. Twenty-six carbapenem-resistant E. coli isolates were resistant to colistin, in which both mcr-1 and bla_NDM were present. Specifically, the co-existence was found in isolates from animals and sewage. Most of the resistance genes were located on plasmids and were 40–244 kilobases. Growth curves of transconjugants carrying mcr-1, bla_NDM-1, bla_NDM-4, bla_NDM-5, and bla_NDM-9 showed a low fitness cost compared with the recipient. In conclusion, mcr-1 was widespread in E. coli and K. pneumoniae isolated from farms in China. Co-existence of mcr-1 and bla_NDM-9 was identified in different sequence types of E. coli with low fitness cost from various origins, indicating an urgent need to take measures for decreasing dissemination.     

Relations between strain and gender dependencies of irinotecan toxicity and UGT1A1, CES2 and TOP1 expressions in mice

Irinotecan hydrochloride (CPT-11) can display severe toxicities in individual cancer patients. CPT-11 is bio-activated through CES, detoxified through UGT1A1 and inhibits TOP1. CPT-11 toxicity and UGT1A1, CES2 and TOP1 mRNAs and UGT1A1 protein were determined in male and female C57BL/6, B6D2F1 and B6CBAF1, as potential models for tailoring CPT-11 delivery. CPT-11 was administered intravenously (40–90 mg/kg/day for 4 days at 7 h after light onset). The relations between dose and lethal toxicity or body weight loss were steep and similar in C57BL/6 (lethality, p = 0.001; weight loss, p = 0.002) and B6D2F1 (p = 0.01; p = 0.03, respectively), but weak in B6CBAF1. Females displayed less toxicity than males (p < 0.001). Mean mRNA expression of UGT1A1 was highest in B6CBAF1 (p = 0.039) and in females (p < 0.001). Both CES2 and TOP1 varied according to strain and gender (p < 0.001). The three gene expression data explained the most severe toxicity of CPT-11 in male B6D2F1, but displayed inconsistent relations with toxicity in the other groups. Mean UGT1A1 protein expression was highest in males as compared to females, and so by ∼8-fold in C57BL/6 as compared to B6D2F1 (p < 0.0001). Genetic background and gender significantly altered the molecular prediction of irinotecan toxicity by UGT1A1, CES2 and TOP1 mRNA expressions.     

Metabolism of aflatoxin B1 (AFB1), aflatoxin G1 (AFG1) and vitamin C intake by guinea pig liver preparation in vitro

Male and female guinea pigs weighing 150–200 g were divided into three groups, with equal number of males and females in each group. They were fed an experimental diet which varied as follows: group I, 0 mg vitamin C/g of diet; group II, 1.08 mg/g and group III, 5.4 mg/g, for 28 days. Twenty-four hours after the last feeding, liver slices and 9000 g supernatant were prepared from each group, according to sex, and used for enzyme assays. For the demethylation assay, enzyme activity expressed as amount of formaldehyde produced from AFB₁, or AFG₁/hr/g fresh liver was seen to increase with the two levels of ascorbic acid intake in females. Males showed an enhancement of activity only in group II and remained with the same production of formaldehyde as above in group III. Although in each dietary group, the activity was higher in males than in females the variation in the amount of formaldehyde produced from one group to another was higher with females than with male guinea pigs. However with both sexes, the production of formaldehyde from AFG₁, was greater than from AFB₁. For the hydroxylation assay, enzyme activity was expressed as amount of metabolites (a) and (b) produced. Compared to group II, which offered a control level of ascorbic acid, group I fed without vitamin C showed a decreased production of metabolite (a) and (b) with males and females. Moreover, high intake of ascorbic acid in group III decreased the production of metabolite (a) and (b) in males, while in female guinea pigs the reduction was observed only with (b).     

Modulation of histone methylation and MLH1 gene silencing by hexavalent chromium

Hexavalent chromium [Cr(VI)] is a mutagen and carcinogen, and occupational exposure can lead to lung cancers and other adverse health effects. Genetic changes resulting from DNA damage have been proposed as an important mechanism that mediates chromate's carcinogenicity. Here we show that chromate exposure of human lung A549 cells increased global levels of di- and tri-methylated histone H3 lysine 9 (H3K9) and lysine 4 (H3K4) but decreased the levels of tri-methylated histone H3 lysine 27 (H3K27) and di-methylated histone H3 arginine 2 (H3R2). Most interestingly, H3K9 dimethylation was enriched in the human MLH1 gene promoter following chromate exposure and this was correlated with decreased MLH1 mRNA expression. Chromate exposure increased the protein as well as mRNA levels of G9a a histone methyltransferase that specifically methylates H3K9. This Cr(VI)-induced increase in G9a may account for the global elevation of H3K9 dimethylation. Furthermore, supplementation with ascorbate, the primary reductant of Cr(VI) and also an essential cofactor for the histone demethylase activity, partially reversed the H3K9 dimethylation induced by chromate. Thus our studies suggest that Cr(VI) may target histone methyltransferases and demethylases, which in turn affect both global and gene promoter specific histone methylation, leading to the silencing of specific tumor suppressor genes such as MLH1.     

Modulation of human placental P-glycoprotein expression and activity by MDR1 gene polymorphisms

The ABC transporter P-glycoprotein is a product of the MDR1 gene and its function in human placenta is to extrude xenobiotics from the tissue thus decreasing fetal exposure. The goal of this investigation was to examine the effect of three polymorphisms in the MDR1 gene on the expression and activity of placental P-gp. In 199 term placentas examined, the C1236T variant was associated with 11% lower P-gp protein expression than wild-type, while the C3435T and G2677T/A variants each were associated with a 16% reduction (p < 0.05). Homozygotes for the C1236T and C3435T variant allele (TT) were associated with 42% and 47% increase in placental P-gp transport activity, respectively (p = 0.04 and p = 0.02) of the prototypic substrate, [³H]-paclitaxel. These findings indicate that the C3435T and G2677T/A SNPs in MDR1 are significantly associated with decreased placental P-gp protein expression, while the C1236T and C3245T homozygous variants are significantly associated with an increase in its efflux activity.     

Cadmium down-regulation of kidney Sp1 binding to mouse SGLT1 and SGLT2 gene promoters: Possible reaction of cadmium with the zinc finger domain of Sp1

Cadmium (Cd) exposure causes glucosuria (glucose in the urine). Previously, it was shown that Cd exposure of primary cultures of mouse kidney cells (PMKC) decreased mRNA levels of the glucose transporters, SGLT1 and SGLT2 and that Sp1 from Cd-exposed cells displayed reduced binding to the GC boxes of the mouse SGLT1 promoter in vitro. Here, we identified a GC box upstream of mouse SGLT2 gene. ChIP assays on PMKC revealed that exposure to 5 μM Cd abolished Sp1 binding to SGLT1 GC box while it decreased Sp1 binding to SGLT2 GC sequence by 30% in vivo. The in vitro DNA binding assay, EMSA, demonstrated that binding of Sp1 from Cd (7.5 μM)-treated PMKC to the SGLT2 GC probe was 86% lower than in untreated cells. Sp1 is a zinc finger protein. Compared to PMKC exposed to 5 μM Cd alone, inclusion of 5 μM Zn restored SGLT1 and 2 mRNA levels by 15% and 30%, respectively. Cd (10 μM) decreased the binding of recombinant Sp1 (rhSp1) to SGLT1 and SGLT2 GC probes to 12% and 8% of untreated controls. Cd exerted no effect on GC-bound rhSp1. Co-treatment with Cd and Zn showed that added Zn significantly restored rhSp1 binding to the SGLT1 and SGLT2. Addition of Zn post Cd treatment was not stimulatory. We conclude that Cd can replace Zn in Sp1 DNA binding domain to reduce its binding to GC sites in mouse SGLT1 and SGLT2 promoters.     

A significantly joint effect between arsenic and occupational exposures and risk genotypes/diplotypes of CYP2E1, GSTO1 and GSTO2 on risk of urothelial carcinoma

Cigarette smoking, arsenic and occupational exposures are well-known risk factors for the development of urothelial carcinoma (UC). Therefore, the aim of this study is to investigate whether the effect of cigarette smoking, alcohol consumption, arsenic and occupational exposures on risk of UC could be modified by genetic polymorphisms of cytochrome P450 2E1 and glutathione S-transferase omega. A hospital-based case-control study consisted of 520 histologically confirmed UC cases, and 520 age- and gender-matched cancer-free controls were carried out from September 1998 to December 2007. Genotyping of CYP2E1, GSTO1 and GSTO2 was determined by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP). Subjects with both of cigarette smoking and alcohol consumption have a significantly increased UC risk (odds ratio [OR] = 2.9; 95% confidence interval [CI] = 1.9-4.4). Significantly increased UC risks of 1.5 and 1.9 were found for study subjects with high arsenic exposure and those who have been exposed to two or more occupational exposures, respectively. A significantly increased UC risk of 3.9 was observed in study subjects with H2-H2 diplotype of GSTO1 and GSTO2. The significantly highest UC risk of 9.0 was found for those with all environmental risk factors of cigarette smoking, alcohol consumption, arsenic and occupational exposures and two or more risk genotypes/diplotypes of CYP2E1, GSTO1 and GSTO2. Our findings suggest that a significantly joint effect of cigarette smoking, alcohol consumption, arsenic and occupational exposures and risk genotypes/diplotypes of CYP2E1, GSTO1 and GSTO2 on risk of UC was found.     

地尔硫卓中间体的合成工艺研究

目的 合成地尔硫卓的重要中间体d-cis -2-(4-甲氧基苯基)-3-羟基-2,3-二氢-1,5-苯并硫氮杂 。 方法 以对甲氧基苯甲醛为原料,经Darzens缩合、硫烷基化、水解、拆分、环合5步反应得到地尔硫卓的重要手性中间体。结果与结论 目标化合物的总收率为34.0 %,本法提高了收率,降低了成本,简化了操作,适于工业化生产。     

Influence of GSTs, CYP2E1 and mEH polymorphisms on 1, 3-butadiene-induced micronucleus frequency in Chinese workers

1,3-butadiene (BD) has been classified as a human carcinogen, however, the relationship between chromosomal damage and its metabolic polymorphisms is not clear. The present study used the CBMN assay to detect chromosomal damage in the peripheral lymphocytes of 166 exposed workers and 41 non-exposed healthy individuals. PCR and PCR-RFLP were applied to detect GSTT1, GSTM1, CYP2E1 c1c2 and mEH Tyr113His, His139Arg polymorphisms. The results demonstrated that the micronucleus (MN) frequency of the exposed workers was significantly higher than controls (P < 0.01). Among the exposed workers, the individuals with high BD exposures are more susceptible to chromosomal damage than those with low exposures (FR = 1.30, 95% CI 1.14-1.53; P < 0.05). Gender-difference was also found in our study: males got lower micronucleus frequency than females. Workers who carried the genotypes of GSTM1 (+), CYP2E1 (c1c2/c2c2) and mEH intermediate (I) group had significantly higher MN frequency than those carrying the genotypes of GSTM1 (−) (FR = 1.29, 95% CI 1.05-1.59; P < 0.05), CYP2E1 (c1c1) (FR = 1.55, 95% CI 1.24-1.93; P < 0.01) or mEH high (H) group (FR = 1.57, 95% CI 1.08-2.34; P < 0.05), respectively. Our data indicated that the current BD exposure level could cause significantly higher MN frequency in workers than controls. Polymorphisms of GSTM1, CYP2E1 and mEH are susceptible to altered chromosome damage.     

Induction of hsp70, hsp60, hsp83 and hsp26 and oxidative stress markers in benzene, toluene and xylene exposed Drosophila melanogaster: Role of ROS generation

Exposure to benzene, toluene and xylene in the human population may pose a health risk. We tested a working hypothesis that these test chemicals cause cellular toxicity to a non-target organism, Drosophila melanogaster. Third instar larvae of D. melanogaster transgenic for hsp70, hsp83 and hsp26 and Oregon R⁺ strain were exposed to 1.0-100.0 mM benzene, toluene and xylene for 2-48 h to examine the heat shock proteins (hsps), ROS generation, anti-oxidant stress markers and developmental end points. The test chemicals elicited a concentration- and time-dependent significant (p < 0.01) induction of the hsps in the exposed organism in the order of hsp70 > hsp83 ≥ hsp26 as evident by β-galactosidase activity after 24 h. RT-PCR amplification studies in Oregon R⁺ larvae revealed a similar induction pattern of these genes along with hsp60 in the order of hsp70 > hsp60 > hsp26 ≥ hsp83. Under similar experimental conditions, a significant induction of ROS generation and oxidative stress markers viz. superoxide dismutase, catalase, glutathione S-transferase, thioredoxin reductase, glutathione, malondialdehyde and protein carbonyl content was observed. Sub-organismal response was propagated towards organismal response i.e., a delay in the emergence of flies and their reproductive performance. While hsp70 was predominantly induced in the organism till 24 h of treatment with the test chemicals, a significant or insignificant regression of Hsp70 after 48 h was concurrent with a significant induction (p < 0.01) of hsp60 > hsp83 ≥ hsp26 in comparison to the former. A significant positive correlation was observed between ROS generation and these hsps in the exposed organism till 24 h and a negative correlation between ROS generation and hsp70 in them after 48 h indicating a modulatory role of ROS in the induction of hsps. The study suggests that among the tested hsps, hsp70 may be used as an early bioindicator of cellular toxicity against benzene, toluene and xylene and D. melanogaster as an alternative animal model for screening the risk posed by environmental chemicals.