The Chloride Intracellular Ion Channel (CLIC) family consists of six evolutionarily conserved proteins in humans. Members of this family are unusual, existing as both monomeric soluble proteins and ...as integral membrane proteins where they function as chloride selective ion channels, however no function has previously been assigned to their soluble form. Structural studies have shown that in the soluble form, CLIC proteins adopt a glutathione S-transferase (GST) fold, however, they have an active site with a conserved glutaredoxin monothiol motif, similar to the omega class GSTs. We demonstrate that CLIC proteins have glutaredoxin-like glutathione-dependent oxidoreductase enzymatic activity. CLICs 1, 2 and 4 demonstrate typical glutaredoxin-like activity using 2-hydroxyethyl disulfide as a substrate. Mutagenesis experiments identify cysteine 24 as the catalytic cysteine residue in CLIC1, which is consistent with its structure. CLIC1 was shown to reduce sodium selenite and dehydroascorbate in a glutathione-dependent manner. Previous electrophysiological studies have shown that the drugs IAA-94 and A9C specifically block CLIC channel activity. These same compounds inhibit CLIC1 oxidoreductase activity. This work for the first time assigns a functional activity to the soluble form of the CLIC proteins. Our results demonstrate that the soluble form of the CLIC proteins has an enzymatic activity that is distinct from the channel activity of their integral membrane form. This CLIC enzymatic activity may be important for protecting the intracellular environment against oxidation. It is also likely that this enzymatic activity regulates the CLIC ion channel function.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Widespread resistance to chemotherapeutic agents is one of the biggest challenges facing human health and the agricultural industry, with resistance to all current anthelmintics now recorded and few ...new agents or vaccines available. Understanding the development of drug resistance in parasitic nematodes is critical to prolonging the efficacy of current anthelmintics, developing markers for monitoring drug resistance and is beneficial in the design of new chemotherapeutic agents or targets. This study describes the development of ivermectin-resistant strains of the model nematode Caenorhabditis elegans through step-wise exposure to increasing doses of ivermectin commencing with a non-toxic dose of 1ng/ml. Resistant strains were developed that displayed a multidrug resistance phenotype with cross-resistance to the related drug moxidectin and to other anthelmintics, levamisole and pyrantel, but not albendazole. Resistance was associated with increased expression of the multidrug resistance proteins (MRPs) and P-glycoproteins. Resistance to ivermectin was reversible by the co-administration of MRP, P-glycoprotein and glutathione biosynthesis inhibitors, confirming the involvement of these proteins in resistance. In our model, resistance to low levels of ivermectin (⩽6ng/ml) was associated with increased expression of mrp-1 and pgp-1 and decreased glutathione, while higher level resistance (10ng/ml) was primarily associated with the increased expression of P-glycoproteins. Importantly, resistance was stable after 3 months without ivermectin treatment. This clearly demonstrates the involvement of transport proteins in ivermectin resistance and provides a model to understand drug resistance and its reversal.
Development of resistance to anthelmintic drugs is an increasing problem that decreases the productivity of livestock and threatens the success of treatment in humans. It is essential to understand ...the mechanisms in the development of resistance so that alternative treatment strategies can be developed. Changes in genes or in gene expression in response to drugs enable the organism to survive treatment and might reflect evolution in a toxic environment in which drug resistance leads to ‘survival of the fittest’. Here, we review knowledge of resistance mechanisms, focusing on changes in drugs (identified by single-nucleotide polymorphisms), the involvement of transport proteins and drug efflux that prevent the drug from reaching the target, and the role of detoxification mechanisms that modify the drug.
The functions of nine ATP-binding cassette (ABC) transporter genes, mrp-1, mrp-4, mrp-6, pgp-2, pgp-3, pgp-4, pgp-5, haf-2 and haf-9, in an ivermectin (IVM) resistant strain of Caenorhabditis elegans ...were screened by comparing transcription levels between the resistant (IVR10) and wild-type (Bristol N2) strains, and by measuring the effects of RNA interference (RNAi) on the IVM resistant strain, on motility, pharyngeal pumping, egg production and death in the presence or varying concentrations of IVM (0–20ng/ml). mRNA levels of mrp-1, 2, 4, 5, 6, 7, pgp-1, 2, 4, 12, 14, haf-1, 2 and 3 were significantly increased in IVR10 compared with the N2 strain. At 15 or 20ng/ml IVM, down regulation of mrp-1, pgp-4, haf-2 and haf-9 significantly increased the effect of IVM to reduce egg production. At low to moderate IVM concentrations, down regulation of mrp-1 and haf-2 reduced the motility of C. elegans. However, at high IVM concentrations motility was increased by down regulation of transcription of pgp-3, pgp-4 and haf-9. Down regulation of expression of mrp-1, pgp-2 and pgp-5 resulted in reduced pharyngeal pumping in the presence of varying concentrations of IVM, while down regulation of mrp-6 and haf-2 increased pharyngeal pumping of the resistant strain irrespective of the IVM concentration used. Although the IVR10 strain was markedly resistant to IVM, compared with the unselected N2 strain, IVM led to the death of the C. elegans in a concentration dependent manner. However, differences in the IVM induced death rate, following RNAi, were not significantly different from the IVR10 strain without RNAi. The study shows that different ABC transporter genes may play a role in modulating the effects of IVM on pharyngeal pumping, motility and egg production, with down regulation of mrp-1 and haf-2 perhaps having the greatest effects. However, down regulation of expression of no individual ABC transporter gene profoundly affected the effect of IVM on mortality in the IVR10 strain. This suggests that some of these ABC transporter genes and their products may play a role in modulating the effects of IVM, but are not, individually, the critical gene responsible for IVM resistance. This study provides a model that may help to understand drug resistance in parasitic nematodes.
Cisplatin produces good responses in solid tumours including small cell lung cancer (SCLC) but this is limited by the development of resistance. Oxaliplatin is reported to show activity against some ...cisplatin-resistant cancers but there is little known about oxaliplatin in SCLC and there are no reports of oxaliplatin resistant SCLC cell lines. Studies of drug resistance mainly focus on the cellular resistance mechanisms rather than how the cells develop resistance. This study examines the development of cisplatin and oxaliplatin resistance in H69 human SCLC cells in response to repeated treatment with clinically relevant doses of cisplatin or oxaliplatin for either 4 days or 2 h. Treatments with 200 ng/ml cisplatin or 400 ng/ml oxaliplatin for 4 days produced sublines (H69CIS200 and H69OX400, respectively) that showed low level (approximately two-fold) resistance after eight treatments. Treatments with 1,000 ng/ml cisplatin or 2,000 ng/ml oxaliplatin for 2 h also produced sublines, however, these were not stably resistant suggesting shorter treatment pulses of drug may be more effective. Cells survived the first five treatments without any increase in resistance, by arresting their growth for a period and then regrowing. The period of growth arrest was reduced after the sixth treatment and the H69CIS200 and H69OX400 sublines showed a reduced growth arrest in response to cisplatin and oxaliplatin treatment suggesting that 'regrowth resistance' initially protected against drug treatment and this was further upregulated and became part of the resistance phenotype of these sublines. Oxaliplatin dose escalation produced more surviving sublines than cisplatin dose escalation but neither set of sublines were associated with increased resistance as determined by 5-day cytotoxicity assays, also suggesting the involvement of regrowth resistance. The resistant sublines showed no change in platinum accumulation or glutathione levels even though the H69OX400 subline was more sensitive to buthionine sulphoximine treatment. The H69CIS200 cells were cross-resistant to oxaliplatin demonstrating that oxaliplatin does not have activity against low level cisplatin resistance. Relative to the H69 cells, the H69CIS200 and H69OX400 sublines were more sensitive to paclitaxel and taxotere suggesting that the taxanes may be useful in the treatment of platinum-resistant SCLC. These novel cellular models of cisplatin and oxaliplatin resistant SCLC will be useful in developing strategies to treat platinum-resistant SCLC.
With increasing drug resistance in gastrointestinal parasites, identification of new anthelmintics is essential. The non-parasitic nematode Caenorhabditis elegans is used extensively as a model to ...identify drug targets and potential novel anthelmintics because it can be readily cultured in vitro. Traditionally, the assessment of worm viability has relied on labour-intensive developmental and behavioral assays. The 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide-formazan (MTT-formazan) colorimetric assay uses metabolic activity as a marker of viability in mammalian cell culture systems and has been applied for use with filarial nematodes. In the present study, this assay has been optimized and validated to rapidly assess the viability of C. elegans after drug treatment. Living, but not dead, C. elegans take up MTT and reduce it to the blue formazan, providing visual, qualitative, and quantitative assessment of viability. MTT at a concentration of 5 mg/ml with 3 h incubation was optimal for detecting changes in viability with drug treatment. We have applied this assay to quantitate the effects of ivermectin and short-chain alcohols on the viability of C. elegans. This assay is also applicable to first-stage larvae of the parasitic nematode Haemonchus contortus. The advantage of this assay is the rapid quantitation in screening drugs to identify potential anthelmintics.
H. contortus has two Prxs, a mitochondrial enzyme HcPrx1, and a cytoplasmic enzyme HcPrx2, which is also secreted by the nematode. Display omitted
▶ Two typical 2-Cys peroxiredoxins have been ...identified in Haemonchus contortus. ▶ The activity of both peroxiredoxins was specific for the thioredoxin system. ▶ Both peroxiredoxins could utilise the glutathione system when coupled with HcTrx5. ▶ Both peroxiredoxins were stable to high concentrations of hydrogen peroxide. ▶ The cytoplasmic and secreted HcPrx2 protects against external oxidant attack.
The requirement of aerobic organisms to control damage caused by reactive oxygen species has led to the evolution of the antioxidant systems. Peroxiredoxins are a large family of peroxidases which detoxify hydrogen peroxide at the expense of thiols. The parasitic nematode Haemonchus contortus contains two peroxiredoxins, HcPrx1 a mitochondrial protein and HcPrx2 a cytoplasmic protein. Although both peroxiredoxins contain the conserved eukaryotic motifs ‘GGLG’ and ‘YF’, identified as critical for hydrogen peroxide instability, both were stable to high concentrations of hydrogen peroxide, demonstrating different functions to their mammalian counterparts. H. contortus also contains two thioredoxin reductases and five different thioredoxin-like proteins. The activity of both peroxiredoxins was specific for the thioredoxin system; however, both could also be regenerated by the glutathione system when coupled to the nematode specific thioredoxin HcTrx5. Analysis of homologous genes in Caenorhabditis elegans showed that only CePrx2, which is secreted, was sensitive to the external oxidant hydrogen peroxide. However, both peroxiredoxins KO C. elegans were sensitive to intracellular free radicals and both peroxiredoxins protected DNA from free radical attack. The results demonstrate that the hydrogen peroxide detoxification and the antioxidant activity of the peroxiredoxins are separate activities that are independent of the ‘GGLG’ and ‘YF’ motifs.
The dependency of parasites on the cellular redox systems has led to their investigation as novel drug targets. Defence against oxidative damage is through the thioredoxin and glutathione systems. ...The classic thioredoxin is identified by the active site Cys-Gly-Pro-Cys (CGPC). Here we describe the identification of a unique thioredoxin in the parasitic nematode, Haemonchus contortus. This thioredoxin-related protein, termed HcTrx5, has an arginine in its active site (Cys-Arg-Ser-Cys; CRSC) that is not found in any other organism. Recombinant HcTrx5 was able to reduce the disulfide bond in insulin, and be regenerated by mammalian thioredoxin reductase with a Km 2.19±1.5 μM, similar to the classic thioredoxins. However, it was also able to reduce insulin when glutathione and glutathione reductase replaced the thioredoxin reductase. When coupled with H. contortus peroxiredoxin, HcTrx5 was active using either the thioredoxin reductase or the glutathione and glutathione reductase. HcTrx5 is expressed through the life cycle, with highest expression in the adult stage. The unique activity of this thioredoxin makes it a potential drug target for the control of this parasite.
After standard treatment with chemotherapy and radiotherapy, small-cell lung cancer (SCLC) often develops resistance to both treatments. Our aims were to establish if fractionated radiation treatment ...alone would induce radiation and drug resistance in the H69 SCLC cell line, and to determine the mechanisms of resistance.
H69 SCLC cells were treated with fractionated X-rays to an accumulated dose of 37.5 Gy over 8 months to produce the H69/R38 subline. Drug and radiation resistance was determined using the MTT (3,-4,5 dimethylthiazol-2,5 diphenyltetrazolium bromide) cell viability assay. Protein expression was analyzed by Western blot.
The H69/R38 subline was resistant to radiation (2.0 +/- 0.2-fold, p < 0.0001), cisplatin (14 +/- 7-fold, p < 0.001), daunorubicin (6 +/- 3-fold, p < 0.05), and navelbine (1.7 +/- 0.15-fold, p < 0.02). This was associated with increased expression of the multidrug resistance-associated proteins, MRP1 and MRP2, and topoisomerase IIalpha and decreased expression of glutathione-S-transferase pi (GSTpi) and bcl-2 and decreased cisplatin accumulation. Treatment with 4 Gy of X-rays produced a 66% decrease in MRP2 in the H69 cells with no change in the H69/R38 cells. This treatment also caused a 5-fold increase in topoisomerase IIalpha in the H69/R38 cells compared with a 1.5-fold increase in the H69 cells.
Fractionated radiation alone can lead to the development of stable radiation and drug resistance and an altered response to radiation in SCLC cells.
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