PCB disruption of the hypothalamus-pituitary-interrenal axis involves brain glucocorticoid receptor downregulation in anadromous Arctic charr

We examined whether brain glucocorticoid receptor (GR) modulation by polychlorinated biphenyls (PCBs) was involved in the abnormal cortisol response to stress seen in anadromous Arctic charr (Salvelinus alpinus). Fish treated with Aroclor 1254 (0, 1, 10, and 100 mg/kg body mass) were maintained for 5 mo without feeding in the winter to mimic their seasonal fasting cycle, whereas a fed group with 0 and 100 mg/kg Aroclor was maintained for comparison. Fasting elevated plasma cortisol levels and brain GR content but depressed heat shock protein 90 (hsp90) and interrenal cortisol production capacity. Exposure of fasted fish to Aroclor 1254 resulted in a dose-dependent increase in brain total PCB content. This accumulation in fish with high PCB dose was threefold higher in fasted fish compared with fed fish. PCBs depressed plasma cortisol levels but did not affect in vitro interrenal cortisol production capacity in fasted charr. At high PCB dose, the brain GR content was significantly lower in the fasted fish and this corresponded with a lower brain hsp70 and hsp90 content. The elevation of plasma cortisol levels and upregulation of brain GR content may be an important adaptation to extended fasting in anadromous Arctic charr, and this response was disrupted by PCBs. Taken together, the hypothalamus-pituitary-interrenal axis is a target for PCB impact during winter emaciation in anadromous Arctic charr.     

Genomic approaches to detecting thermal stress in Calanus finmarchicus (Copepoda: Calanoida)

Zooplankton may be subjected to physiological stress as they encounter rapid and large changes in temperature through vertical migration or transfer into different water masses. Induction of one or more heat shock proteins (hsp) is a common protective response to thermal stress in organisms. We looked for evidence for such a response in Calanus finmarchicus. We compared hsp70 expression in copepods exposed to temperature stress with that for non-stressed controls. Partial sequences of the amplified cDNA product were obtained and aligned with known hsp70 sequences to establish the identity of the heat shock protein. In one experiment, animals were transferred from their collection temperature (8 °C) to 20 °C for 30 min, and then returned to 8 °C for 4 h before sampling for gene expression levels. In another, the animals were exposed to 18 °C over 48 h before sampling for molecular analysis. A four-fold induction of hsp70 was measured in both groups of heat shocked animals using quantitative real time polymerase chain reaction (PCR). The experimental temperatures, although high for C. finmarchicus, are within the range of temperatures experienced by this species in their habitat. In addition to confirming an hsp70-mediated response in C. finmarchicus, the findings suggest that a recent history of thermal stress may be assessed in natural populations through a routine molecular assay.     

Dechlorination of Four Commercial Polychlorinated Biphenyl Mixtures (Aroclors) by Anaerobic Microorganisms from Sediments

The rate, extent, and pattern of dechlorination of four Aroclors by inocula prepared from two polychlorinated biphenyl (PCB)-contaminated sediments were compared. The four mixtures used, Aroclors 1242, 1248, 1254, and 1260, average approximately three, four, five, and six chlorines, respectively, per biphenyl molecule. All four Aroclors were dechlorinated with the loss of meta plus para chlorines ranging from 15 to 85%. Microorganisms from an Aroclor 1242-contaminated site in the upper Hudson River dechlorinated Aroclor 1242 to a greater extent than did microorganisms from Aroclor 1260-contaminated sediments from Silver Lake, Mass. The Silver Lake inoculum dechlorinated Aroclor 1260 more rapidly than the Hudson River inoculum did and showed a preferential removal of meta chlorines. For each inoculum the rate and extent of dechlorination tended to decrease as the degree of chlorination of the Aroclor increased, especially for Aroclor 1260. The maximal observed dechlorination rates were 0.3, 0.3, and 0.2 μg-atoms of Cl removed per g of sediment per week for Aroclors 1242, 1248, and 1254, respectively. The maximal observed dechlorination rates for Hudson River and Silver Lake organisms for Aroclor 1260 were 0.04 and 0.21 μg-atoms of Cl removed per g of sediment per week, respectively. The dechlorination patterns obtained suggested that the Hudson River microorganisms were more capable than the Silver Lake organisms of removing the last para chlorine. These results suggest that there are different PCB-dechlorinating microorganisms at different sites, with characteristic specificities for PCB dechlorination.     

Stress- and Growth Phase-Associated Proteins of Clostridium acetobutylicum

The response of Clostridium acetobutylicum ATCC 4259 to the stresses produced by a temperature upshift from 28°C to 45°C and by exposure of the organisms to 0.1% n-butanol or to air was examined by analysis of pulse-labeled proteins. The stress response was the induction of the synthesis of a number of proteins, some of which were elicited by the three forms of stress. Eleven heat shock proteins were identified by two-dimensional electrophoresis, as were two proteins whose synthesis was heat sensitive. In the absence of applied stress, the synthesis of four proteins was found to be associated with the growth phase in batch culture; three of these proteins had a higher rate of de novo synthesis when the cells entered the solvent production phase. One of the stress-induced proteins, hsp74, was partially purified an found to be immunologically related to Escherichia coli heat shock protein Dnak. The similarities of the proteins induced at the onset of solventogenesis and by stress suggest a relationship between the two processes.     

Lipid and fatty acid biomarkers as proxies for environmental contamination in caged mussels Mytilus galloprovincialis

Mussels (Mytilus galloprovincialis) were transplanted from a reference site (Syracuse harbour) to an impacted site (Augusta Bay) from January to July 2013 to assess the biochemical response of caged mussels to high trace element and polycyclic aromatic hydrocarbon (PAH) contamination, using lipid and fatty acid (FA) biomarkers. Sediment and mussels were analysed to assess contaminant bioavailability in the study sites and bioaccumulation in mussel tissue. Trace elements (As, Cd, Co, Cr, Cu, Hg, Mn, Ni, Pb, V, Zn) and PAHs were significantly higher in mussels from Augusta than in those from Syracuse, mirroring the different environmental contamination. The biological impact quotient (BIQs), which indicates the potential biological impact of mussel-accumulated contaminants, reflected the highest contaminant concentrations found in Augusta and their temporal trend, which increased from the start of the experiment to 3–4 months after transplanting, followed by a decrease, as indication of mussel detoxification processes. Lower condition index (CI) and phospholipids (PL), as well as higher total (TL) and neutral lipids (NL) in mussels from Augusta, indicated the occurrence of a physiological and biochemical stress response to pollutant exposure and accumulation. Differences in FA composition, especially polyunsaturated (PUFA), essential (EFA) and non-methylene interrupted dienoic (NMID) FAs between the study sites revealed the occurrence of stress-induced lipid peroxidation, followed by compensatory/adaptive processes in Augusta mussels. The marked increase in bacterial biomarkers, mainly cyclopropyl (CY) FAs, reflecting the greater bioaccumulation of chemicals in the Augusta mussels, may be the result of bacterial infections or symbiosis with bacteria involved in detoxification processes.     

Heat shock protein response to thermal stress in the Asiatic clam,Corbicula fluminea

A recent approach to evaluate environmenta induced damages has been damages has been suggested, based on the stress response. The approach involves the detection of stress protein induction in organisms to infer about environmental conditions in their surroundings. However, to be an indicator of adverse biological effects in the environment, the elevation of stress proteins should be compared to a response pattern for the experimental species. JuvenileCorbicula fluminea, collection from a control site, were submited to heat-shock stress in the laboratory to obtain the stress response pattern under normal and extreme conditions. Acclimated to 26°C, the specimens were submited to 29, 32, 35 and 38°C, for 96 h. After 1, 2, 4, 8, 24, 48, 72 and 96 h of exposure, clams were removed from each vial and prepared for stress protein analysis. Animals from the control site were frozen in liquid nitrogen at the time of collection, and prepared for stress protein analysis. Hsp60 and 70 were detected by immunoreactivity after separation on 12.5% polyacrylamide gels and transference to nitrocellulose by western blotting, to determine the stress protein concentrations. The result showed that hsp70 increased at 4h from the beginning of the experiment and progressed over the 96 h experimental period in animals exposed to 35°C. However hsp70 levels decreased between 4 h and 24 h for the clams stressed at their lethal temperature of 38°C. Immunoblotting with hsp60 showed similar reactivity. At 38°C there was an increase in the amount of hsp60 at 4h, reaching a maximum eight-fold level at 8h. By 96h, the amount decreased to levels lower than those observed at 4h. At 38°C the level of hsp60 began to decrease at 8 h and continue to decline to 24 h when the clams died. The data support the hypothesis of increasing concentrations of stress protein until the heat shock approaches the thermal limits for the species. The results of this research suggest the usefulness of using the stress response as a diagnostic in environmental toxicology. They confirm that the sps response may serve as a valid biomonitoring tool under chronic, sublethal exposures when it is still possible to prevent effects at organismal or higher organizational levels.     

The heat shock response in hydra: immunological relationship of hsp60, the major heat shock protein of Hydra vulgaris,to the ubiquitous hsp70 family

The major heat shock protein (hsp) of Hydra vulgaris has recently been found to be a 60 kDa protein. Since in all organisms studied so far, the major heat shock protein is a 70 kDa protein, we have analyzed the relationship of hydra hsp60 to the highly conserved 70 kDa heat shock protein family. Genes and proteins related to the 70 kDa class of stress proteins are present in hydra. However, antibodies known to cross-react with hsp70 proteins in several different organisms do not cross-react with hydra hsp60 suggesting that hsp60 is not related to the conserved hsp70 proteins.     

Field validation of hsp70 stress proteins as biomarkers in Asian clam (Potamocorbula amurensis): is downregulation an indicator of stress?

The focus of this paper is to consider the applicability of the hsp70 stress protein response as a biomarker in field studies. Stress proteins (or heat shock proteins, hsp) of the hsp70 family are induced by sublethal concentrations of a variety of environmental pollutants. However, few studies have applied these proteins as biomarkers of environmental stress under field conditions. Our laboratory is investigating hsp70 proteins and other responses of Asian clam (Potamocorbula amurensis) as potential biomarkers in laboratory and field studies. Our efforts include two studies presently being conducted in northern San Francisco Bay: (1) monthly collection of clams from four sites along a cadmium contamination gradient; (2) 7 day in situ exposure of clams at two selected sites at Mare Island Naval Shipyard. Here we present results on hsp70 proteins in P. amurensis in field-collected and outplanted clams. Both field projects are ongoing, therefore the results presented here do not represent completed studies; rather, they illustrate a portion of our experience. For this workshop, we illustrate weaknesses and strengths of these proteins as biomarkers, and we underscore where additional work is needed. In field-collected clams (study no. 1), site-specific differences in levels of two hsp70 proteins, hsp70 and hsp76, were measured in May and June 1997. Although an inverse correlation exists between cadmium tissue concentrations and hsp70 protein levels, differences detected may be reflective of a salinity gradient. Results from recent laboratory exposures to cadmium and a range of salinities are discussed. After in situ exposure for 7 days (study no. 2), both hsp70 and hsp76 levels were significantly reduced in clams from site R. However, given a brief heat-shock in the laboratory, hsp70 protein levels were significantly higher in clams from this site than in controls. Results indicate that downregulation as well as upregulation of hsp70 proteins may be indicators of stress in P. amurensis.     

Field validation of hsp70 stress proteins as biomarkers in Asian clam (Potamocorbula amurensis): is downregulation an indicator of stress?

The focus of this paper is to consider the applicability of the hsp70 stress protein response as a biomarker in field studies. Stress proteins (or heat shock proteins, hsp) of the hsp70 family are induced by sublethal concentrations of a variety of environmental pollutants. However, few studies have applied these proteins as biomarkers of environmental stress under field conditions. Our laboratory is investigating hsp70 proteins and other responses of Asian clam (Potamocorbula amurensis) as potential biomarkers in laboratory and field studies. Our efforts include two studies presently being conducted in northern San Francisco Bay: (1) monthly collection of clams from four sites along a cadmium contamination gradient; (2) 7 day in situ exposure of clams at two selected sites at Mare Island Naval Shipyard. Here we present results on hsp70 proteins in P. amurensis in field-collected and outplanted clams. Both field projects are ongoing, therefore the results presented here do not represent completed studies; rather, they illustrate a portion of our experience. For this workshop, we illustrate weaknesses and strengths of these proteins as biomarkers, and we underscore where additional work is needed. In field-collected clams (study no. 1), site-specific differences in levels of two hsp70 proteins, hsp70 and hsp76, were measured in May and June 1997. Although an inverse correlation exists between cadmium tissue concentrations and hsp70 protein levels, differences detected may be reflective of a salinity gradient. Results from recent laboratory exposures to cadmium and a range of salinities are discussed. After in situ exposure for 7 days (study no. 2), both hsp70 and hsp76 levels were significantly reduced in clams from site R. However, given a brief heat-shock in the laboratory, hsp70 protein levels were significantly higher in clams from this site than in controls. Results indicate that downregulation as well as upregulation of hsp70 proteins may be indicators of stress in P. amurensis.     

Biomarker responses and accumulation of hazardous substances in mussels (Mytilus trossulus) transplanted along a pollution gradient close to an oil terminal in the Gulf of Finland (Baltic Sea)

Baltic Sea blue mussels (Mytilus trossulus) were used as sentinel organisms to detect the biological effects of chemical contamination in the low salinity environment. Mussels naturally adapted to a salinity of ca. 6.0 PSU were caged for 30 days at four sites along an assumed pollution gradient (salinity ca. 4.5 PSU) in the vicinity of Finland's largest oil refinery and harbor Kilpilahti in the Gulf of Finland. Tissue concentrations and accumulation rates of especially organic contaminants (PAHs, PCBs and organotins) were clearly elevated at the innermost coastal stations near the harbor area. Biological effects of contaminant exposure on caged mussels were evaluated by measuring a suite of biomarkers including catalase, glutathione S-transferase, superoxide dismutase, glutathione reductase, lipid peroxidation, acetylcholinesterase activity and lysosomal membrane stability. Mussels transplanted near the harbor area were able to elevate their antioxidant defense in response to environmental contamination. Reduced morphometric condition index and soft tissue growth rate together with increased lipid peroxidation and low lysosomal membrane stability were also observed at the most contaminated site. The results suggest that caging of M. trossulus for four weeks at lower salinity is a feasible method for the detection of environmental pollution also in low salinity areas of the Baltic Sea.     

Archaebacterial heat-shock proteins

The response to heat shock was examined in seven archaebacterial strains from the genus Halobacterium. Upon heat shock each strain preferentially synthesized a limited number of proteins which fell into three narrow mol. wt. ranges. Further examination of the heat-shock response in H. volcanii revealed that heat-shock protein (hsp) synthesis was greatest at 60°C. Synthesis of hsps at this induction temperature was both rapid and transient. Cells recovered their normal protein synthesis patterns rapidly upon returning to their normal growth temperature following heat shock. H. volcanii cells also responded with a `heat shock-like' response to salt dilution, a natural environmental stress for these organisms. These results indicate that the heat shock or stress response which is charactertistic of eukaryotic and eubacterial cells is also present among members of the archaebacterial genus Halobacterium.     

Lack of physiological responses to hydrocarbon accumulation by Mytilus trossulus after 3–4 years chronic exposure to spilled Exxon Valdez crude oil in Prince William Sound

Mussels, Mytilus trossulus, were sampled in 1992 and 1993 from beaches in Prince William Sound that had been oiled by the Exxon Valdez spill of March, 1989. At some of the oiled beaches, mussels were collected from beds overlying oiled sediments, and from bedrock adjacent to these beds. Mussels were also collected from beaches within the Sound that had not been impacted by the spill. Polynuclear aromatic hydrocarbon (PAH) concentrations in mussel tissue, physiological responses (byssal thread production, condition index, clearance rate, and glycogen content), were determined for each group of mussels. Total PAH concentrations in mussel tissue ranged from 0 to 6 μg g⁻¹, and were significantly greater in mussels from oiled beds than those from reference beds. No significant differences were noted in byssal thread production, condition index, clearance rate, or glycogen content between oiled sample sites and reference sites. The lack of physiological response was surprising because mussels in this study were chronically exposed to PAH for 3–4 years, and none of the physiological responses measured appeared to be affected by that exposure. The lack of a physiological response suggests that chronically exposed mussels may develop a physiological tolerance to PAH, but we recognize that these measures may not have been sensitive enough to discriminate response from background noise.     

Pathogenesis and stress related,as well as metabolic proteins are regulated in tomato stems infected with Ralstonia solanacearum

A comparative proteome analysis was initiated to systematically investigate the physiological response of tomato (Solanum lycopersicum) to infection with Ralstonia solanacearum, causal agent of bacterial wilt. Plants of the susceptible tomato recombinant inbred line NHG3 and the resistant NHG13 were either infected or not infected with R. solanacearum and subsequently used for proteome analysis. Two-dimensional isoelectric focussing/sodium dodecyl-sulphate polyacrylamide gel electrophoresis (2-D IEF/SDS-PAGE) allowed the separation of about 650–690 protein spots per analysis. Twelve proteins were of differential abundance in susceptible plants in response to bacterial infection, while no differences were observed in the resistant genotype. LC-MS/MS analysis of these spots revealed 12 proteins, six of which were annotated as plant and six as bacterial proteins. Among the plant proteins, two represent pathogenesis related (PR) proteins, one stress response protein, one enzyme of carbohydrate and energy metabolism, and one hypothetical protein. A constitutive difference between resistant and susceptible lines was not found.     

Effect of oxidative stress on protein thiols in the blue mussel Mytilus edulis: proteomic identification of target proteins

Protein thiols are targets of oxidative stress. Their modification was analysed in gill extracts of the mussel Mytilus edulis, exposed to menadione. Diagonal gel electrophoresis revealed two clusters of carbonylated proteins involved in interchain disulphide linkages. Immunoblotting identified these as being associated with protein disulphide isomerase (PDI) and actin and this was confirmed by immunoprecipitation. Protein free thiols (-SH) were identified in 2-DE separations by labelling with 5-iodoacetamidofluorescein (IAF). Cysteines involved in disulphide bridges were identified by blocking free -SH with N-ethylmaleimide, reducing disulphides with DTT and IAF labelling. Several protein spots containing free thiols disappeared on exposure to menadione. Conversely, new protein spots containing disulphides appeared in response to menadione which may be protective against oxidative stress. In-gel tryptic digestion followed by LC/MS-MS and database searching identified some of the free thiol targets: PDI; hsp gp96; calreticulin; heavy metal binding protein. Tubulin, PDI, enolase and gelsolin contained new disulphide bridges in response to menadione. Our findings indicate a protein level response to oxidative stress principally involving PDI, chaperone-like and cytoskeletal proteins. Since many environmental pollutants cause oxidative stress, studies on PDI and structural proteins may be particularly relevant to understanding toxicity in this popular sentinel species.