Biomarkers inRuditapes decussatus: a potential bioindicator species

The clam Ruditapes decussatus is distributed worldwide and due to its ecological and economical interest has been proposed as a bioindicator in areas where mussels are not available. The accumulation of several anthropogenic compounds in their tissues suggests that they possess mechanisms that allow them to cope with the toxic effects of these contaminants. Besides pollutant uptake, the use of biomarkers is pointed out in this paper since it is a promising approach to monitor the effect of these contaminants in the marine environment. Biomarkers complement the information of the direct chemical characterization of different types of contaminants. Therefore, the aim of this paper is to review the role of several biomarkers: (metallothioneins (MT), superoxide dismutase (SOD), catalase (CAT), glutathione peroxidases (GPx) (total and selenium-dependent), lipid peroxidation (measured as MDA, one of the final products of lipid peroxidation), glutathione S-transferase (GST) and acetylcholinesterase (AChE), measured in different tissues of the clam R. decussatus, in laboratory conditions and under various environmental stresses, in two ecosystems (Ria Formosa lagoon- Portugal) and Bizerta lagoon (Tunisia) in a perspective of a multibiomarker approach to assess environmental changes. Experiment and field studies are in good agreement since MT levels, especially in the gills, the first target tissue of these contaminants, can be used as biomarker of exposure to Cd. GPx and MDA may also be determined in this respect. AChE activity is inhibited by pesticide and, to a less extent, by metal exposure in the gills and whole soft body of clams. However, the induction of GST isoforms experimentally demonstrated is not observed in the field because only global GST activity was determined. The whole set of results opens new research perspectives for the use of this species to assess the effect of mixtures of pollutants in the aquatic environment.

Effect of Increased Expression of Protein Disulfide Isomerase and Heavy Chain Binding Protein on Antibody Secretion in a Recombinant CHO Cell Line

Previous work has shown that a human-antibody-producing recombinant CHO cell line did not increase its intracellular content of protein disulfide isomerase (PDI) and heavy chain binding protein (BIP) according to the increasing expression of antibody. It was also found that the intracellular assembly of light and heavy chain is a major limiting factor for overall cell specific productivity, as secretion rates improve with higher light chain expression levels and heavy chain accumulates intracellularly when too little light chain is present. As these CHO cells had a significantly lower intracellular PDI content compared to that of hybridoma cells, these results have led us to try to overcome the limitation in the posttranslational assembly in the endoplasmatic reticulum. Recombinant CHO cells were transfected with PDI or BIP alone or in combination, and the effect on intracellular light and heavy chain content and specific production rate was determined. Overexpression of BIP, both alone and in combination with PDI, reduced the specific secretion rate, whereas PDI, when overexpressed alone, caused an increase of product secretion rate.

Effect of pioglitazone treatment on endoplasmic reticulum stress response in human adipose and in palmitate-induced stress in human liver and adipose cell lines

Obesity and elevated cytokine secretion result in a chronic inflammatory state and may cause the insulin resistance observed in type 2 diabetes. Recent studies suggest a key role for endoplasmic reticulum stress in hepatocytes and adipocytes from obese mice, resulting in reduced insulin sensitivity. To address the hypothesis that thiazolidinediones, which improve peripheral insulin sensitivity, act in part by reducing the endoplasmic reticulum stress response, we tested subcutaneous adipose tissue from 20 obese volunteers treated with pioglitazone for 10 wk. We also experimentally induced endoplasmic reticulum stress using palmitate, tunicamycin, and thapsigargin in the human HepG2 liver cell line with or without pioglitazone pretreatment. We quantified endoplasmic reticulum stress response by measuring both gene expression and phosphorylation. Pioglitazone significantly improved insulin sensitivity in human volunteers (P = 0.002) but did not alter markers of endoplasmic reticulum stress. Differences in pre- and posttreatment endoplasmic reticulum stress levels were not correlated with changes in insulin sensitivity or body mass index. In vitro, palmitate, thapsigargin, and tunicamycin but not oleate induced endoplasmic reticulum stress in HepG2 cells, including increased transcripts CHOP, ERN1, GADD34, and PERK, and increased XBP1 splicing along with phosphorylation of eukaryotic initiation factor eIF2alpha, JNK1, and c-jun. Although patterns of endoplasmic reticulum stress response differed among palmitate, tunicamycin, and thapsigargin, pioglitazone pretreatment had no significant effect on any measure of endoplasmic reticulum stress, regardless of the inducer. Together, our data suggest that improved insulin sensitivity with pioglitazone is not mediated by a reduction in endoplasmic reticulum stress.

Tryptophan free diet delays healing of chronic gastric ulcers in rat

Melatonin (MT) is an ubiquitous molecule, representing one of the phylogenetically oldest signaling mechanisms. Our previous studies demonstrated that MT and its precursor L-tryptophan (L-Trp) show strong protective effect on gastric mucosa. The aim of the present study was: 1) to assess the effect of MT and L-Trp on healing of chronic gastric ulcer and accompanying changes in gastric mucosal blood flow (GBF); 2) to study the effect of MT and L-Trp on expression of iNOS. cNOS and HSP70 in ulcerated mucosa; 3) to compare the effect of L-Trp free and L-Trp rich diet on ulcer healing and gene expression of proinflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha), superoxide dismutase (SOD), cyclooxygenase-2 (COX-2) and NFkappaB-p65 protein expression in ulcer area and intact non-ulcerated. Chronic ulcers were induced in Wistar rats by Okabe's modification of acetic acid method. Rats with chronic gastric ulcers were divided in following treatment groups: 1) vehicle (saline); 2) MT (20mg/kg-d i.p.) and 3) L-Trp (100 mg/kg i.p.). The expression of iNOS, cNOS and HSP70 protein was measured by Western blot. In separate experiments, the influence of commercially available (Bio-Serv, USA) L-Trp free diet (TFD) was compared to the L-Trp rich diet (TRD) on the course of ulcer healing was assessed. The ulcer area was measured by planimetry. The expression of TNFalpha, COX-2 and SOD mRNA in ulcerated mucosa was analyzed by RT-PCR method. MT and its precursor L-Trp significantly accelerated ulcer healing. Healing ulcerated mucosa showed increased protein expression of iNOS and HSP70 as compared to intact gastric mucosa. TFD in contrast to normal diet significantly attenuated the ulcer healing, whereas the TRD exerted opposite effects and significantly accelerated ulcer healing. This last effect was accompanied by significant decrease of TNF-alpha mRNA expression and expression of NFkB-p65 in gastric mucosa. We conclude that: 1) MT and its precursor L-Trp significantly accelerate healing of gastric ulcer; 2) L-Trp free diet significantly attenuates experimental ulcer healing and this is due to decreased synthesis of MT from L-Trp by EE cells in gastric mucosa and 3) MT shows strong anti-inflammatory effects due to inhibition of NFkappaB and TNF-alpha expression.

[Expression of COP9, JAK2, HSP and NADH in ovarian carcinoma tissues after taxol-chemotherapy and their significance]

OBJECTIVE

To study the expression of COP9, JAK2, HSP and NADH genes in ovarian carcinoma tissues after taxol-chemotherapy and their significance.

METHODS

The up-regulated genes of JAK2, HSP, NADH and the down-regulated gene of COP9, which were revealed by micro-array from our previous study were examined by RT-PCR and real-time-PCR in 33 cases of ovarian cancer who previously received taxol-based chemotherapy (group 1), and 21 cases of ovarian cancer who never received chemotherapy before operation (group 2).

RESULTS

The expression rate of COP9 gene in group 1 was detected markedly lower than that in group 2 (39% vs 95%, P < 0.01); whereas the expression rates of JAK2, HSP and NADH in group 1 were significantly higher that those in group 2 (91%, 97%, 94% vs 29%, 48%, 43%; all P < 0.05). And the expression of COP9, HSP and NADH genes had no significant differences among histological grades. However, a significantly higher expression of JAK2 gene was seen in grade 3 than in grade 1-2 (P < 0.01). No significant difference in the expression rates of the 4 genes was seen among various tumor types or chemotherapy courses (P > 0.05). Real-time PCR showed that the level of COP9 gene copies of group 1 was significantly lower than that of group 2 (568, 1866 respectively; P < 0.05). However, HSP, JAK2 and NADH genes had significantly higher copy numbers in group 1 than in group 2 (5766, 7653, 3200 in group 1 and 3341, 3094, 1522 in group 2, respectively; all P < 0.05). In the subgroup that received 6-10 chemotherapy courses, the copy concentrations of JAK2, HSP, NADH genes were higher than those in the subgroup that received 2-4 chemotherapy courses (all P < 0.05). In addition, we found a higher copy concentrations of JAK2, HSP, NADH genes in grade 3 than in grade 1-2 (all P < 0.05). Though no significant differences in gene copy concentrations of the 4 genes were seen among variable tumor types. In stage IV, the copy concentrations of HSP and NADH genes were higher than those in stage III (P < 0.01, P < 0.05 respectively), but the copy concentrations of COP9, JAK2 genes had no significant differences (both P > 0.05). There were positive correlations among JAK2, HSP and NADH genes (r = 0.56, 0.44, 0.57 respectively, all P < 0.01). COP9 gene was found to have a negative correlation with JAK2 gene (r = -0.48; P < 0.01), but not with HSP and NADH genes (r = -0.18, -0.06, respectively; both P > 0.05).

CONCLUSION

The down-regulation of COP9 gene and up-regulation of JAK2, HSP, and NADH genes are related to the mechanism of drug-resistance in ovarian cancer.

[Effect of thymopentin on production of cytokines, heat shock proteins, and NF-kappaB signaling proteins]

In vivo effects of thymopentin, an active fragment of the naturally occurring thymic hormone thymopoietin, on the production of cytokines, nitric oxide, heat shock proteins, and signal proteins NF-kappaB, phNF-kappaB, and IkappaB-alpha in lymphoid cells of male NMRI mice was studied. Activation of production of several cytokines (IL-1alpha, IL-2, IL-6, IL-10, and IFN-gamma), nitric oxide, and heat shock proteins (HSP70 and HSP90) was observed in peritoneal macrophages and spleen lymphocytes of mice that received intraperitoneal injections of thymopentin (15 microg per 100 g body weight). Thymopentin apparently produces stress-like rather than damaging effects. A probable action mechanism of this hormone is activation of the NF-kappaB signaling pathway, which is most pronounced at the NF-kappaA phosphorylation stage.

Heat acclimation and cross-tolerance against anoxia in Arabidopsis

Arabidopsis seedlings are highly sensitive to low oxygen and they die rapidly when exposed to anoxia. Tolerance to anoxia depends on the ability to efficiently use carbohydrates through the fermentative pathway, as highlighted by the lower tolerance displayed by a mutant devoid of alcohol dehydrogenase. Other mechanisms of tolerance are also possible and may include a role for heat-induced genes. In fact, heat shock proteins (HSPs) are induced by anoxia. This suggests that there may be a cross-adaptation mechanism between heat and anoxic stress, and in this work, we studied the acclimation of Arabidopsis seedlings both to low oxygen and heat. The results show that seedlings subjected to hypoxia or heat pretreatment survive anoxia much better. Interestingly, we also observed an increased anoxia tolerance in heat-treated alcohol dehydrogenase (adh) mutant plants. On the other hand, anoxic pretreatment does not confer tolerance to heat stress. The success of the induction of HSPs by anoxia is in direct relation to the amount of sucrose available, and this in turn relates to how well seedlings will survive under anoxia. HSP transcripts were also detected during seed development and germination, two hypoxia-prone processes, suggesting that hypoxia-induced HSP expression is physiologically relevant.

The role of Ca2+ in baicalein-induced apoptosis in human breast MDA-MB-231 cancer cells through mitochondria- and caspase-3-dependent pathway

Baicalein was investigated for tumor cell-specific cytotoxicity, apoptosis-inducing activity and signal pathway against the MDA-MB-231 human breast cancer cell line. After the MDA-MB-231 cells had been treated with baicalein, trypan blue exclusion, propidium iodide (PI) assay and 4',6-diamidino-2-phenylindole (DAPI) were used to stain the dead cells and detect apoptosis, respectively. The effects of baicalein on the levels of reactive oxygen species (ROS), Ca2+ and mitochondrial membrane potential (deltapsim) on MDA-MB-231 cells were examined by flow cytometric assays. The ROS caused endoplasmic reticulum (ER) stress, confirmed by the increase of GADD153 and GRP78 in the examined cells. GADD153 and GRP78 increases were also confirmed by confocal laser microscopy examination and indicated that both proteins translocated to the nucleus. The effects of baicalein on the expression of apoptotic-regulated genes, such as Bcl-2 family and caspase, were detected by Western blotting. To further investigate the apoptotic pathway and the role of Ca2+ induced by baicalein, a caspase-3 inhibitor and Ca2+ chelator were used to block caspase-3 activity and Ca2+ in MDA-MB-231 cells. Baicalein induced apoptosis in a time-dependent effect through the inhibition of Bcl-2 expression, increased the levels of Bax, reduced the level of deltapsim, and promoted the cytochrome c release and caspase-3 activation. MDA-MB-231 cells were pretreated with BAPTA which reduced the levels of Ca2+, deltapsim and apoptosis. In conclusion, baicalein induced apoptosis via Ca2+ production, mitochondria-dependent and caspase-3 activation in MDA-MB-231 cells.

Organic compounds in tire particle induce reactive oxygen species and heat-shock proteins in the human alveolar cell line A549

Debris produced from the attrition of tires of motor vehicles constitutes 5-7% of the atmospheric particulate matter (PM10). Debris particles are indeed small enough to enter human lung and thus morphological and chemical characterization has been performed. We demonstrated that the organic fraction of tire debris induces a dose-dependent increase in cell mortality, DNA damage, as well as a significant modification of cell morphology at the dose of 60 microg/ml, which may correspond to the quantity present in the air humans inhale daily. The present research aims at investigating if reactive oxygen species (ROS) production and Hsp70 expression are involved in the cascade of toxic effects produced on the A549 cell line, as it has been suggested for the ultrafine atmospheric particles and diesel exhaust. To this end, cells were exposed at the doses of 10, 50, 60, 75 microg/ml of TD organic extract (TDOE) and analyzed at different exposure time. ROS were detected by the oxidation of 2'7'-dichlorodihydrofluorescein diacetate to dichlorofluorescein, and fluorescence was measured by flow cytometry. Hsp70 protein expression was determined by immunochemical analysis, and protein expression quantification performed by optical densitometry. ROS production was analysed after 2 h of treatment. A statistically significant increase in fluorescence was observed and the intensity of the stress response was parallel to the increasing concentrations used. An evident increase of Hsp70 expression at lower doses (10, 50 microg/ml) and at longer exposure times (72 h) was observed, during the time that our previous studies showed that cell viability, plasma membrane integrity, and DNA molecules were not affected. Thus it can be deduced that the increase in Hsp70 expression protected the cells from those damages, which became evident at the higher doses, and that this parameter might be used as a sensitive indicator of exposure. These data suggest that ROS production may be the first event caused by A549 exposure to TDOE and this result is in line with other evidences provided for the role of ROS generation in ultrafine PM toxicity. It can be suggested that this event induces an overexpression of Hsp70 only at the lower doses and longer exposure time, when cells still appear unaffected. Subsequently when ROS generation reaches high levels, a general inhibition of protein synthesis probably occurs, culminating in cell toxicity.

Forced, not voluntary, exercise effectively induces neuroprotection in stroke

Previous treadmill exercise studies showing neuroprotective effects have raised questions as to whether exercise or the stress related to it may be key etiologic factors. In this study, we examined different exercise regimens (forced and voluntary exercise) and compared them with the effect of stress-only on stroke protection. Adult male Sprague-Dawley rats (n = 65) were randomly assigned to treatment groups for 3 weeks. These groups included control, treadmill exercise, voluntary running wheel exercise, restraint, and electric shock. Levels of the stress hormone, corticosterone, were measured in the different groups using ELISA. Animals from each group were then subjected to stroke induced by a 2-h middle cerebral artery (MCA) occlusion followed by 48-h reperfusion. Infarct volume was determined in each group, while changes in gene expression of stress-induced heat shock proteins (Hsp) 27 and 70 were compared using real-time PCR between voluntary and treadmill exercise groups. The level of corticosterone was significantly higher in both stress (P < 0.05) and treadmill exercise (P < 0.05) groups, but not in the voluntary exercise group. Infarct volume was significantly reduced (P < 0.01) following stroke in rats exercised on a treadmill. However, the amelioration of damage was not duplicated in voluntary exercise, even though running distance in the voluntary exercise group was significantly (P < 0.01) longer than that of the forced exercise group (4,828 vs. 900 m). Furthermore, rats in the electric shock group displayed a significantly increased (P < 0.01) infarct volume. Expression of both Hsp 27 and Hsp 70 mRNA was significantly increased (P < 0.01) in the treadmill exercise group as compared with that in the voluntary exercise group. These results suggest that exercise with a stressful component, rather than either voluntary exercise or stress alone, is better able to reduce infarct volume. This exercise-induced neuroprotection may be attributable to up-regulation of stress-induced heat shock proteins 27 and 70.

[Influence of heat shock preconditioning on structure and function of mitochondria in gastric mucosa of severely burned animals: experiment with rats]

OBJECTIVE

To investigate the influence of heat shock (HS) preconditioning on the ultra-structure of gastric mucosal cells and the activity of cytochrome oxidase (CCO) and superoxide dismutase (SOD) in mitochondria isolated from gastric mucosa of burned rats in order to investigate its protective mechanism on burn-induced acute gastric mucosal lesion.

METHODS

Ninety-six Wistar rats were divided randomly into two groups:(1) burn model group (n =40) undergoing burning and made into model of acute gastric mucosal lesion; and then subdivided into 5 equal subgroups: 3, 6, 12, 24, and 48 h after burning; (2) normal control group (n = 8); (3) HS preconditioning + burn group (n = 40), undergoing burning 24 h after HS preconditioning; and (4) HS preconditioning group (n = 8), without burn as experimental control A number of rats were sacrificed and laparotomized before and 3, 6, 12, 24, and 48 h after the burning. Specimens were obtained from the gastric antrum, bodies if stomach and gastric lesion to undergo microscopy and determination of the ulcer index ( UI ). Streptavidin-peroxidase immunohistochemistry was used to detect the protein expression of heat shock protein (HSP)-60 and HSP-70. Mitochondria were isolated and the activities of CCO and SOD in mitochondria were measured. The dynamic postburn changes in micro and ultra structure of gastric mucosal cells of scalded rats were observed.

RESULTS

The rats of the burn group showed conspicuous gastric mucosal lesions. The UI levels at every time point of the HS group were all the lowest in comparison with other groups. The expression levels of HSP70 and HSP60 of the HS group, especially those at the time points 3, 6, 12, and 24 h were significantly higher than those of the burn group (P <0.05 or P <0.01). The activities of mCCO and mSOD of the HS group did not decrease remarkably at any time point in comparison with the control groups, and the activities of mCCO and mSOD at the time points 6, 12, and 24 h of the HS group were all significantly higher than those of the burn group (P <0.05 of P <0.01). Electron microscopy showed that the ultrastructural lesion was mild and alteration of gastric mucosal mitochondria was not significant in the HS group compared with those of the burn group. A positive correlation was shown between SOD and HSP70 (r = 0.436, P <0.05) and also between CCO and HSP60 (r =0.679, P <0.05).

CONCLUSION

HS preconditioning ameliorates the burn-induced acute gastric mucosal lesion and has a protective role to gastric mucosal mitochondria. The role of HS preconditioning on mitochondria is associated with the protection of the activity of antioxidase and CCO by HSP60 and 70.

Proteasome function is required to maintain muscle cellular architecture

BACKGROUND INFORMATION

Protein degradation via the UPS (ubiquitin-proteasome system) plays critical roles in muscle metabolism and signalling pathways. The present study investigates temporal requirements of the UPS in muscle using conditional expression of mutant proteasome beta subunits to cause targeted inhibition of proteasome function.

RESULTS AND CONCLUSIONS

The Drosophila GeneSwitch system was used, with analyses of the well-characterized larval somatic body wall muscles. This method acutely disrupts proteasome function and causes rapid accumulation of polyubiquitinated proteins, specifically within the muscle. Within 12 h of transgenic proteasome inhibition, there was a gross disorganization of muscle architecture and prominent muscle atrophy, progressing to the arrest of all co-ordinated movement by 24 h. Progressive muscle architecture changes include rapid loss of sarcomere organization, loss of nuclei spacing/patterning, vacuole formation and the accumulation of nuclear and cytoplasmic aggregates at the ultrastructural level. At the neuromuscular junction, the highly specialized muscle membrane folds of the subsynaptic reticulum were rapidly lost. Within 24 h after transgenic proteasome inhibition, muscles contained numerous autophagosomes and displayed highly elevated expression of the endoplasmic reticulum chaperone GRP78 (glucose-regulated protein of 78 kDa), indicating that the loss of muscle maintenance correlates with induction of the unfolded protein response. Taken together, these results demonstrate that the UPS is acutely required for maintenance of muscle and neuromuscular junction architecture, and provides a Drosophila genetic model to mechanistically evaluate this requirement.

Antarctic marine molluscs do have an HSP70 heat shock response

The success of any organism depends not only on niche adaptation but also the ability to survive environmental perturbation from homeostasis, a situation generically described as stress. Although species-specific mechanisms to combat "stress" have been described, the production of heat shock proteins (HSPs), such as HSP70, is universally described across all taxa. Members of the HSP70 gene family comprising the constitutive (HSC70) and inducible (HSP70) members, plus GRP78 (glucose-regulated protein, 78 kDa), a related HSP70 family member, were cloned using degenerate polymerase chain reaction (PCR) from two evolutionary divergent Antarctic marine molluscs (Laternula elliptica and Nacella concinna), a bivalve and a gastropod, respectively. The expression of the HSP70 family members was surveyed via quantitative PCR after an acute 2-h heat shock experiment. Both species demonstrated significant up-regulation of HSP70 gene expression in response to increased temperatures. However, the temperature level at which these responses were induced varied with the species (+6-8 degrees C for L. elliptica and +8-10 degrees C for N. concinna) compared to their natural environmental temperature). L. elliptica also showed tissue-specific expression of the genes under study. Previous work on Antarctic fish has shown that they lack the classical heat shock response, with the inducible form of HSP70 being permanently expressed with an expression not further induced under higher temperature regimes. This study shows that this is not the case for other Antarctic animals, with the two molluscs showing an inducible heat shock response, at a level probably set during their temperate evolutionary past.

Changes in the regulation of heat shock gene expression in neuronal cell differentiation

Neuronal differentiation of the NG108-15 neuroblastoma-glioma hybrid cells is accompanied by a marked attenuation in the heat shock induction of the Hsp70-firefly luciferase reporter gene activity. Analysis of the amount and activation of heat shock factor 1, induction of mRNA(hsp), and the synthesis and accumulation of heat shock proteins (HSPs) in the undifferentiated and differentiated cells suggest a transcriptional mechanism for this attenuation. Concomitant with a decreased induction of the 72-kDa Hsp70 protein in the differentiated cells, there is an increased abundance of the constitutive 73-kDa Hsc70, a protein known to function in vesicle trafficking. Assessment of sensitivity of the undifferentiated and differentiated cells against stress-induced cell death reveals a significantly greater vulnerability of the differentiated cells toward the cytotoxic effects of arsenite and glutamate/glycine. This study shows that changes in regulation of the HSP and HSC proteins are components of the neuronal cell differentiation program and that the attenuated induction of HSPs likely contributes to neuronal vulnerability whereas the increased expression of Hsc70 likely has a role in neural-specific functions.

Prevention of chemotherapy-induced alopecia in rodent models

Alopecia (hair loss) is experienced by thousands of cancer patients every year. Substantial-to-severe alopecia is induced by anthracyclines (e.g., adriamycin), taxanes (e.g., taxol), alkylating compounds (e.g., cyclophosphamide), and the topisomerase inhibitor etoposide, agents that are widely used in the treatment of leukemias and breast, lung, ovarian, and bladder cancers. Currently, no treatment appears to be generally effective in reliably preventing this secondary effect of chemotherapy. We observed in experiments using different rodent models that localized administration of heat or subcutaneous/intradermal injection of geldanamycin or 17-(allylamino)-17-demethoxygeldanamycin induced a stress protein response in hair follicles and effectively prevented alopecia from adriamycin, cyclophosphamide, taxol, and etoposide. Model tumor therapy experiments support the presumption that such localized hair-saving treatment does not negatively affect chemotherapy efficacy.

Reverse regulation of endothelial cells and myointimal hyperplasia on cell proliferation by a heatshock protein-coinducer after hypoxia

BACKGROUND AND PURPOSE

Myointimal hyperplasia (MIH) cells are related to permanent upregulated proliferation as tumor-like cells. The aim of this study is to assess whether treatment of cells after hypoxia by Iroxanadine heat-shock protein (HSP-coinducer) predicts recovery through cell proliferation.

METHODS

Vascular smooth muscle cells (VSMC) and brain capillary endothelial cells (HBEC) were isolated from human origin and MIH-cells from early carotid restenosis after surgery. Cell proliferation was quantified by bromuridine (BrdU) incorporation after hypoxia/reoxygenation. HSP72 and cyclin-dependent kinase (CDKN1A) mRNA expression was assessed by reverse transcription-polymerase chain reaction (PCR) and cell cycle distribution by flow cytometry (FACS) analysis.

RESULTS

After hypoxia/reoxygenation, the proliferation of MIH-cells increased, whereas endothelial cells decreased (MIH: 0.266+/-0.016 versus 0.336+/-0.024; P<0.05; HBEC: 1.249+/-0.10 versus 0.878+/-0.11; P<0.05). Whereas augmented proliferation of MIH-cells was reduced (40% to 45%) by HSP-coinducer, diminished HBEC proliferation increased (46.2%). Stress-activated-protein-kinase (SAPK)p38-dependent cell cycle redistribution was generated by an increase in HSP72 and CDKN1A mRNA levels in MIH-cells.

CONCLUSIONS

The 2 key players of early restenosis (MIH, EC) were oppositely regulated and correspondingly after treatment by HSP-coinducer reverse recovered. Drug candidate may have therapeutic potential in (re)restenosis.

Effects of hyperthermia on heat shock protein expression, alkaline phosphatase activity and proliferation in human osteosarcoma cells

Hyperthermia can be used as a possible adjuvant therapy in treatment of cancer patients. In this study, the direct effect of hyperthermia on osteosarcoma derived cell lines HOS85, MG-63 and SaOS-2 was investigated. Heat shock at 42 degrees C inhibited proliferation significantly in all three cell lines tested. Furthermore a sub-lethal heat shock (42 degrees C, 1 h) decreases alkaline phosphatase activity, the absolute marker for osteoblast-like cells, in all of the three cell lines. Hsp70 was expressed constitutively and was found to be upregulated in a time-dependent manner; by up to 150% in Western blot analysis. The results of this study indicate that heat shock has an inhibitory effect on human osteosarcoma cells. These data suggest that hyperthermia has an anti-tumour effect on cancers of the bone and might, therefore, become an adjuvant treatment option.

Human cytomegalovirus specifically controls the levels of the endoplasmic reticulum chaperone BiP/GRP78, which is required for virion assembly

The endoplasmic reticulum (ER) chaperone BiP/GRP78 regulates ER function and the unfolded protein response (UPR). Human cytomegalovirus infection of human fibroblasts induces the UPR but modifies it to benefit viral replication. BiP/GRP78 protein levels are tightly regulated during infection, rising after 36 h postinfection (hpi), peaking at 60 hpi, and decreasing thereafter. To determine the effects of this regulation on viral replication, BiP/GRP78 was depleted using the SubAB subtilase cytotoxin, which rapidly and specifically cleaves BiP/GRP78. Toxin treatment of infected cells for 12-h periods beginning at 36, 48, 60, and 84 hpi caused complete loss of BiP but had little effect on viral protein synthesis. However, progeny virion formation was significantly inhibited, suggesting that BiP/GRP78 is important for virion formation. Electron microscopic analysis showed that infected cells were resistant to the toxin and showed none of the cytotoxic effects seen in uninfected cells. However, all viral activity in the cytoplasm ceased, with nucleocapsids remaining in the nucleus or concentrated in the cytoplasmic space just outside of the outer nuclear membrane. These data suggest that one effect of the controlled expression of BiP/GRP78 in infected cells is to aid in cytoplasmic virion assembly and egress.

[Effect of geldanamycin on the expression of signal proteins and heat shock proteins in normal mice lymphocytes]

The effects of geldanamycin, which is known as inhibitor of heat shock protein 90 activities, on expression of several signal and heat shock proteins were studied by Western blot analysis in cultivated spleen lymphocytes isolated from male NMRI mice. It has been revealed that cultivating the cells with geldanamycin resulted in decrease in transcription factor NF-kappaB amount, as well as decrease in its phosphorylated form, pNF-kappaB, and lowering in its suppressor, IkappaB-alpha. Besides, cells cultivated with geldanamycin demonstrated significant decrease in the amount of protein kinase SAPK(JNK). The modifications in signal pathways, which had been induced by geldanamycin, pointed to direct influence of the antibiotics on cellular stress response to damaging impact. This assumption was examined with the model of cellular stress response induced by low-level laser radiation. It was proved that Hsp90-binding drug, geldanamycin, significantly decreased in vitro stress response to laser light via lowering the production of heat shock proteins, Hsp70 and Hsp25, both in irradiated lymphocytes and in theirs intracellular structures. These findings show the prospect for using of geldanamycin in various therapies that are compromised with objectionable side effects manifested as heightened stress response in immune cells.

[The protein oxidative damage level and lifespan modulation by xenobiotics in Drosophila melanogaster]

The effect of xenobiotics on protein oxidative damage and lifespan of Drosophila melanogaster Meig., line Oregon-R, was studied. Addition of the uncoupler 2,4-dinitrophenol (DNP) to the nutritional mixture results in an induction of synthesis of heat shock proteins and increase of lifespan of insects, whereas sodium nitroprusside (SNP) has negative effect on flies viability connected, probably, with activation of processes of proteins oxidative damage. It is shown that DNP essentially corrects the SNP negative action on insects' survival rates and this "normalizing" action is revealed both at a level of sensitivity of flies to exogenic stresses and protein carbonils level and at a level of insects lifespan as a whole. It is supposed that DNP protects from SNP negative action on flies viability by reduction of intensity of free radicals production and/or induction of heat shock proteins synthesis. Consequence of that is reduction of oxidative proteins damage degree and increase of survival rate (life span) of flies.

Efficacy of remote ischaemic preconditioning for spinal cord protection against ischaemic injury: association with heat shock protein expression

INTRODUCTION

We aimed to determine the efficacy of remote ischaemic preconditioning in the hind limb of rats for ischaemic damage of the spinal cord through neurological and histological investigation and examination of heat shock proteins (HSP).

MATERIAL AND METHODS

Thirty male Sprague-Dawley rats were divided into three groups as Group 1 (control group, n=10), Group 2 (ischaemia control group, n=10), and Group 3 (remote ischaemia preconditioning group, n=10). The right lower limb of the rats in the study group was compressed with a tourniquet for three cycles of ten-minute ischaemia followed by ten-minute reperfusion. After a period of 8 hours, the peritoneal cavity was accessed through a midline vertical incision. The abdominal aorta was clamped between the origin of the renal arteries and the iliac arteries for 45 minutes and spinal cord ischaemia was induced. The same procedure of abdominal aorta clamping was performed in the control group without creating leg ischaemia. The rats were evaluated for neurological parameters at 24 and 48 hours. At the end of this time period, all rats were sacrificed and the spinal cords were stained for determination of HSP and histopathological classification. For immunohistochemical evaluation, the samples were analyzed according to the degree of staining with HSP70 rabbit antibody.

RESULTS

After completing the neurological examinations and histological evaluations, we determined the spinal cords of the animals in the sham group to be completely normal. The post-operative neurological examination scores of Group 3 at 24 and 48 hours were significantly higher than scores measured in the other two groups. There were seven rats with HSP expression and this was detected in animals pretreated with remote ischaemic preconditioning. There were also two rats in Group 2 with HSP expression.

CONCLUSION

Our results show that production of transient remote ischaemia preconditioning in the lower extremities reduces damage in the spinal cord secondary to ischaemia probably by the increase of HSP.

Stress proteins HSP27 and HSP70i predict survival in non-small cell lung carcinoma

BACKGROUND

The expression pattern of stress (heat shock) proteins (HSPs) in cancer cells is frequently different from that observed in normal cells; most often some stress-inducible HSPs are constitutively and highly expressed. The objective of this study was to determine the prognostic significance of stress proteins HSP70i and HSP27 in non-small cell lung carcinoma (NSCLC).

MATERIALS AND METHODS

An immunohistochemical procedure that enables unambiguous detection of HSP70i protein was used.

RESULTS

Strong HSP70i staining showed a survival advantage, although multivariate analysis did not confirm this result. There was an evident correlation between HSP27 overexpression and survival of patients and the results were confirmed by multivariate analysis: 70% of patients with HSP27-negative tumors died within one year after the surgery.

CONCLUSION

Our data suggest that HSP27 and HSP70i positivity may represent a favorable prognostic factor in NSCLC.

Cocaine increases immunoglobulin heavy chain binding protein and caspase-12 expression in the rat dorsal striatum

RATIONALE

Cocaine increases endoplasmic reticulum (ER) stress protein expression via glutamate and dopamine receptor activation in the dorsal striatum.

OBJECTIVES

The present study was performed to investigate ER stress response in the dorsal striatum in response to acute or repeated cocaine stimulation. It was hypothesized that cocaine upregulates the ER stress protein immunoglobulin heavy chain binding protein (BiP) and the ER stress-associated protein caspase-12 via N-methyl-D-aspartate (NMDA) and D1 dopamine receptor activation.

MATERIALS AND METHODS

Western immunoblot and immunohistochemical analyses were mainly performed to test this hypothesis in the rat dorsal striatum.

RESULTS

The results showed that BiP and caspase-12 immunoreactivities were significantly increased at 30, 60, and 120 min after acute or repeated intraperitoneal (i.p.) injections of three doses (10, 20, 40 mg/kg) of cocaine for seven consecutive days. Intrastriatal (i.s.) infusion of the selective NMDA antagonist MK801 (2 nmol) or AP5 (2 nmol) significantly attenuated the increase in the immunoreactivity of caspase-12 in the dorsal striatum induced by repeated, but not acute, cocaine (20 mg/kg) administration. However, i.p. injection of the selective D1 antagonist SCH23390 (0.1 mg/kg) significantly attenuated the increase in the immunoreactivity of caspase-12 in the dorsal striatum induced by both acute and repeated cocaine (20 mg/kg) stimulation.

CONCLUSION

These findings suggest that acute or repeated cocaine administration can cause ER stress response in the dorsal striatum in which NMDA and D1 dopamine receptors participate in the mediation of the process.

Analysis of the AAA+ chaperone clpB gene and stress-response expression in the halophilic methanogenic archaeon Methanohalophilus portucalensis

ClpB is a member of the protein-disaggregating chaperone machinery belonging to the AAA+ superfamily. This paper describes a new clpB gene from the halophilic methanoarchaeon Methanohalophilus portucalensis, which has not been reported previously in Archaea. The partial sequence of clpB was identified from the investigation of the salt-stress response of Meh. portucalensis by differential-display RT-PCR (DDRT-PCR). Furthermore, the complete clpB sequence (2610 nt) and its upstream genes encoding the type I chaperonin GroEL/ES were obtained through inverse PCR, Southern hybridization and sequencing. The G+C ratio of clpB is 49.6 mol%. The predicted ClpB polypeptide contains 869 aa and possesses a long central domain and a predicted distinctly discontinuous coiled-coil motif separating two nucleotide-binding domains (NBD1 and NBD2). NBD1 has a single Walker A and two Walker B motifs and NBD2 has only one of each Walker motif, a characteristic of HSP100 proteins. Two repeated Clp amino-terminal domain motifs (ClpN) were identified in ClpB. The putative amino acid sequence shared 75.6 % identity with the predicted clpB homologue annotated as ATPase AAA-2 of Methanococcoides burtonii DSM 6242. Preliminary phylogenetic analysis clustered Meh. portucalensis ClpB (MpClpB) with the low G+C Gram-positive bacteria. Stress response analysis of clpB by Northern blotting showed up to 1.5-fold increased transcription levels in response to both salt up-shock (from 2.1 to 3.1 M NaCl) and down-shock (from 2.1 to 0.9 M NaCl). Both clpB and groEL/ES transcript levels increased when the temperature was shifted from 37 degrees C to 55 degrees C. Under heat stress clpB transcription was repressed by the addition of the osmolyte betaine (1 mM). In conclusion, a novel AAA+ chaperone clpB gene from a halophilic methanogen that responded to the fluctuations in temperature, salt concentration and betaine has been identified and analysed for the first time.

Glutamine: mode of action in critical illness

A recent editorial in Critical Care Medicine was titled "Glutamine, a life-saving nutrient, but why?" (2003; 31:2555-2556). This review will attempt to utilize new understanding of gene-nutrient interactions and molecular medicine to address potential mechanisms by which glutamine may be lifesaving after critical illness and injury. Recent meta-analysis data reveal that glutamine seems to exert a beneficial effect on mortality in critically ill patients. However, this effect seems to be dose and route dependent. The questions that remain to be answered are in what settings and via what method of administration does this phamaconutrient show optimal benefit? It is likely that examination of the molecular mechanisms by which glutamine exerts its effects will lead to an understanding of how best to utilize glutamine as both a pharmacologic and a nutritional agent. Clearly, clinical critical illness leads to a marked deficiency in glutamine that is correlated with mortality in the intensive care unit setting. It makes obvious sense that the deficiency of this vital stress nutrient should be replaced. In addition, recent laboratory data reveal glutamine may act via mechanisms independent of its role as a metabolic fuel. These include enhanced stress protein response, attenuation of the inflammatory response, improved tissue metabolic function, and attenuation of oxidant stress. Present data indicate that glutamine functions as a metabolic fuel and "stress-signaling molecule" after illness and injury. Thus, deficiencies observed in critical illness demand replacement for both pharmacologic and metabolic optimization. Presently, randomized, multicenter, clinical trials utilizing glutamine as a pharmacologic and a nutritional agent are ongoing.