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1.
Certain specific aspects of cellular structure-linked functions can be used as rapid and sensitive indicators of cellular responses to environmental stimuli such as chemical contaminants.1 It is possible to observe structural-functional alterations in lysosomal membrane stability in the cells of some marine organisms at an early stage of such a response to cell injury,1,2 thus providing an early-warning signal of a potentially deleterious environmental situation. In order to further investigate lysosomal membrane disturbances, mechanisms of injury and capacity for cellular regeneration, the marine snail Littorina littorea was exposed to phenanthrene, which was used as an environmentally widespread and representative polynuclear aromatic hydrocarbon. Lysosomal membrane stability was measured using cytochemical determination of hydrolase latency,2 and lysosomal lipofuscin was measured as a possible indicator of enhanced lipid peroxidative damage.3 相似文献
2.
Holth TF Beckius J Zorita I Cajaraville MP Hylland K 《Marine environmental research》2011,72(3):127-134
There is a need for sensitive biological effect methods by which to detect impacts of chronic exposure to low concentrations of contaminants. Two methods shown to be potentially useful for monitoring purposes in fish include lysosomal membrane stability and peroxisome proliferation. These biological endpoints were assessed in Atlantic cod (Gadus morhua) head kidney following exposure to a mixture of produced water components including polycyclic aromatic hydrocarbons, phenol, and alkylphenols. Lysosomal damage of head kidney cells occurred within the first two weeks and did not recover during the entire exposure period (32 weeks). Lysosomal membrane stability was not affected by gender and was responsive at low concentrations of contamination, indicating that lysosomal membrane stability measured in the head kidney could be a useful biomarker for effects of offshore pollution. Peroxisome proliferation, measured as acyl-CoA oxidase activity in the head kidney, appeared to be a potential biomarker in male cod exposed less than 16 weeks. 相似文献
3.
A. Viarengo M.N. Moore G. Mancinelli A. Mazzucotelli R.K. Pipe 《Marine environmental research》1985,17(2-4)
Metallothioneins and lysosomes are known to be involved in cellular detoxication and sequestration of certain metals1–3 and both have been identified in this role in elimination of copper from marine mussels (Mytilus edulis/galloprovincialis).3 Cadmium (Cd), however, has been shown to persist in the cells of the digestive gland for long periods with only minimal elimination. An experiment was designed to test the effects of Cd on the fragility of lysosomal membranes in the digestive cells as a measure of cellular injury,4,5 metallothionein content of the digestive gland and cadmium concentration in this organ. Phenanthrene was used also to destabilise lysosomal membranes6 in order to test if increased lysosomal fragility interfered with cadmium metabolism and detoxication. The results demonstrated that Cd induced metallothionein synthesis and that elimination of Cd was minimal after 28 days in clear seawater. Lysosomal fragility was initially increased but this effect was soon reversed, even with continued exposure to Cd. The lysosomal destabiliser, phenanthrene, did not appear to affect accumulation of Cd or levels of metallothionein. 相似文献
4.
The stability of lysosomes in the digestive cells of Mytilus edulis is affected by changes in both the chemical and physical conditions of the environment.1 This type of response must reflect, at least in part, some change in the organisation of the lysosomal membrane, which is a structure which can be resolved by the electron microscope. However, conventional methods of tissue preparation have produced low contrast images of the digestive gland and damage to the lysosomal membranes. Recently a cryopreparation technique2 has produced lysosomal membrane preparations in the digestive cells of the digestive gland of Mytilus which have high contrast and structural integrity (Fig. 1) in control animals. This method has been used to demonstrate pathological alterations in the lysosomal membrane induced by the polynuclear aromatic hydrocarbon (PNAH) phenanthrene. Anthracene, an isomeric PNAH, had no effect on the morphology of the lysosomal membrane. Phenanthrene also induced apparent proliferation of smooth endoplasmic reticulum in the digestive cells. 相似文献
5.
Flounder (Platichthys flesus L.), 18–48 cm total length were sampled in the mouth of the Elbe River during a 3-year interdisciplinary project ‘Fish Diseases in the Wadden Sea’. Lysosomal changes (lysosomal membrane stability) and the activity of biotransforming enzymes (MFOs/EROD) were measured parallel to investigations of ultrastructural changes in liver cells, tissue pathologies and macroscopically visible changes. The aim of the study was to investigate if these cyto- and biochemical parameters were able to reflect contaminant induced biological effects. Interlinking of the results of the MFO activity to the pathological alterations observed at the electron- and light-microscopic levels as well as during macroscopic inspection of identical individuals evidenced that the activity of the biotransformation enzymes (EROD) was not induced in healthy livers, increased considerably with the onset of liver changes and dropped again in those livers with degenerative, preneoplastic and neoplastic lesions. In contrast, concurrent studies of lysosomal membrane stability measured in parallel showed a decrease with the onset and progression of liver lesions from reversible to irreversible, neoplastic change. 相似文献
6.
This study was conducted to investigate the adaptability of marine mussels Mytilus edulis of increasing age to induced stress and subsequent recovery. Lysosomes, present in large numbers in the molluscan digestive gland, play a major role in intracellular digestion, and the stability of their membranes provides a sensitive biomarker for generalised cell injury which is correlated with the stress response of the whole animal. Lysosomal stability was measured in mussels of three age groups (2–4, 6–8 and ≥ 10 years) during exposure to hypoxia/hyperthermia and, in a separate experiment, to copper (50 ppb: where billion = 109). The lysosomal reactions of all three age groups to both experimental stressors were similar. However, recovery from the induced pathological reactions was most pronounced in the youngest animals and least apparent in the oldest group. These findings indicate that the stress reaction is independent of age but that the potential for recovery of lysosomal integrity is age-related. 相似文献
7.
A field study was carried out in the Lagoon of Venice (north-east Italy) with the aim of evaluating the potential use of lysosomal destabilisation as a biomarker of anthropogenic stress in the autochthonous mussel Mytilus galloprovincialis. Two different approaches were adopted in biomonitoring six sites in the Lagoon, evaluating indigenous populations of mussels and organisms transplanted from a reference site and checked at several points in time. Lysosomal membrane stability was investigated by means of two tests: neutral red retention assay (NRRA) for evaluating haemocyte lysosomes and lysosomal latency test (LLT) for digestive cell lysosomes. Results indicate that the lysosomal response measured in haemocytes according to NRRA is a more valuable biomarker of anthropogenic stress in the framework both of passive and active biomonitoring in marine coastal environments. 相似文献
8.
M.N. Moore J. Widdows J.J. Cleary R.K. Pipe P.N. Salkeld P. Donkin S.V. Farrar S.V. Evans P.E. Thomson 《Marine environmental research》1984,14(1-4)
Most investigations of the responses of marine organisms to xenobiotics have concentrated on single contaminants and little is known of possible interactive effects of different classes of xenobiotics. As these latter seldom occur in environmental isolation, it is important to understand any interactions (synergistic or antagonistic) which may occur. This problem has been approached in the mussel Mytilus edulis by exposing estuarine mussels to copper (20 μg litre−1) and phenanthrene (100 μg litre−1) both individually and in combination, and measuring cytochemical subcellular and physiological responses after 3 days exposure and 3 days and 12 days recovery period. Results showed that mussels accumulated both xenobiotics during 3 days exposure. Depuration of copper was complete in 3 days recovery period, while loss of phenanthrene ranged from 30% to 70% of the concentration reached after 3 days exposure. There were no interactive effects on depuration.Both copper and phenanthrene reduced lysosomal hydrolase latency in digestive cells, and copper appeared to have a synergistic effect in preventing recovery of latency of lysosomal N-acetyl-β-hexosaminidase during the recovery period. There was evidence, in the digestive cells, of an antagonistic effect of copper on stimulation of activity of the microsomal respiratory chain (measured as NADPH-neotetrazolium reductase) by phenanthrene. Stimulation of this system by phenanthrene persisted after 12 days recovery period. There was a synergistic interaction of copper and phenanthrene on elevation of oxygen consumption and ammonium excretion. Clearance rates and scope for growth (physiological condition) were depressed by copper but not by phenanthrene after 3 days exposure.These findings are discussed in terms of known effects of copper and phenanthrene and the interactions are considered in terms of environmental effects measurements. 相似文献
9.
Environmental prognostics: an integrated model supporting lysosomal stress responses as predictive biomarkers of animal health status 总被引:1,自引:0,他引:1
The potential prognostic use of lysosomal reactions to environmental pollutants is explored in relation to predicting animal health in marine mussels, based on diagnostic biomarker data. Cellular lysosomes are already known to accumulate many metals and organic xenobiotics and the lysosomal accumulation of the carcinogenic polycyclic aromatic hydrocarbon 3-methylcholanthrene (3-MC) is demonstrated here in the hepatopancreatic digestive cells and ovarian oocytes of the blue mussel. Lysosomal membrane integrity or stability appears to be a generic indicator of cellular well-being in eukaryotes; and in bivalve molluscs it is correlated with total oxygen and nitrogen radical scavenging capacity (TOSC), protein synthesis, scope for growth and larval viability; and inversely correlated with DNA damage (micronuclei), as well as lysosomal swelling (volume density), lipidosis and lipofuscinosis, which are all characteristic of failed or incomplete autophagy. Integration of multiple biomarker data is achieved using multivariate statistics and then mapped onto "health status space" by using lysosomal membrane stability as a measure of cellular well-being. This is viewed as a crucial step towards the derivation of explanatory frameworks for prediction of pollutant impact on animal health; and has facilitated the development of a conceptual mechanistic model linking lysosomal damage and autophagic dysfunction with injury to cells, tissues and the whole animal. This model has also complemented the creation and use of a cell-based bioenergetic computational model of molluscan hepatopancreatic cells that simulates lysosomal and cellular reactions to pollutants. More speculatively, the use of coupled empirical measurements of biomarker reactions and modelling is proposed as a practical approach to the development of an operational toolbox for predicting the health of the environment. 相似文献
10.
Biomarker responses in Macoma nasuta (Bivalvia) exposed to sediments from northern San Francisco Bay
Ingeborg Werner Swee J. Teh Seema Datta XiaoQiao Lu Thomas M. Young 《Marine environmental research》2004,58(2-5):299
Our study investigates biomarker responses and survival of Macoma nasuta exposed to sediments collected from six locations in northern San Francisco Bay. Biomarkers analyzed were stress proteins (hsp70) in gill, mantle and digestive gland, lysosomal membrane damage and histopathologic lesions. Sediments and clam tissues were analyzed for a comprehensive suite of heavy metals and trace organic pollutants. Sediment grain size and organic carbon content were determined. Clams accumulated metals, polyaromatic hydrocarbons (PAHs) and organochlorine pesticides (aldrin and p,p′-DDT and its metabolites p,p′-DDD and p,p′-DDE). Pearson and Spearman correlation analysis revealed that mortality, hsp70 in gill and histopathologic lesion scores in gonads, and lysosomal membrane damage were significantly correlated with tissue concentrations of DDT and/or its metabolites. Tissue concentrations of metals, in particular nickel, chromium, and copper, were associated with macrophage aggregates in digestive gland and germ cell necrosis. Cadmium was linked to mortality and lysosomal membrane damage. 相似文献
11.
J. Wedderburn V. Cheung S. Bamber M. Bloxham M. H. Depledge 《Marine environmental research》1998,46(1-5)
Biomarkers are useful diagnostic tools for identifying exposure to physical, chemical, and environmental stresses. In this study a suite of techniques—measurements of metallothionein, lysosomal integrity, and osmoregulatory ability—have been used in an attempt to provide an in situ assessment of environmental quality. Five estuarine sites were studied, two clean sites, two urban sites, and one intermediate. Shore crabs, Carcinus maenas, were collected and haemolymph taken for the lysosomal and osmoregulatory assays. Animals were killed and tissue preserved for metallothionein analysis. Lysosomal integrity was significantly different in crabs from clean sites and the urban sites (n = 40, p < 0.05). The potential value of the biomarker approach is that it could provide data for impact assessment and is applicable in the field. 相似文献
12.
Many cellular and sub-cellular biomarkers associated with mussel (Mytilus edulis) digestive gland and kidney have been characterised. The lysosomal compartment of these tissues have been recognised as being particularly sensitive, exhibiting pollutant induced responses which could be potentially used as a ‘biomarker’. However, relatively few studies have investigated the lysosomal response within molluscan hemocytes. This study was conducted to test whether lysosomal reactions, in live hemocytes isolated from mussels, can be used as a biomarker of pollutant exposure and deleterious effect. Lysosomal responses to a number of hydrocarbons, including anthracene and phenanthrene, and to the amphiphilic heterocylic chemical, chlorpromazine, were examined. The supravital dye neutral red (NR) was used to examine lysosomal membrane fragility, following xenobiotic exposure. NR was also used to verify the lysosomal compartment as the reported accumulation site of a new molecular probe, BODIPY-FL-verapamil (BFLV). The use of BFLV, with confocal laser microscopy and image analysis enabled visualisation and quantification of lysosomal distribution and perturbation. BFLV showed that exposure of molluscan hemocytes to xenobiotics (20 ppb–10 ppm) induced the formation of pathologically enlarged lysosomes. The internal trafficking of lysosomes was shown to be severely compromised after exposure to chlorpromazine. Exposed molluscan hemocytes exhibited significantly reduced lysosomal retention times, for neutral red. Preliminary data is presented demonstrating the opportunity for these non-destructive biomarker techniques to detect pollution gradients in situ. 相似文献
13.
Every day new extraordinary properties of nanoparticles (a billionth of a meter) are discovered and worldwide millions are invested into nanotechnology and nanomaterials. Risks to marine organisms are still not fully understood and biomarkers to detect health effects are not implemented, yet. We used the filter feeding blue mussel as a model to analyse uptake and effects of nanoparticles from glass wool, a new absorbent material suggested for use in floating oil spill barriers. In both, gills and hepatopancreas we analysed uptake of nanomaterials by transmission electronmicroscopy (TEM) in unstained ultrathin sections over a period of up to 16 days. Lysosomal stability and lipofuscin content as general indicators of cellular pathology and oxidative stress were also measured. As portals of uptake, diffusion and endocytosis were identified resulting in nanoparticle accumulation in endocytotic vesicles, lysosomes, mitochondria and nuclei. Dramatic decrease of lysosomal membrane stability occurred after 12h of exposure. Lysosomal damage was followed by excessive lipofuscin accumulation indicative of severe oxidative stress. Increased phagocytosis by granulocytes, autophagy and finally apoptosis of epithelial cells of gills and primary and secondary digestive tubules epithelial cells indicated progressive cell death. These pathological responses are regarded as general indices of toxic cell injury and oxidative stress. By the combinational use of biomakers with the ultrastructural localisation of nanoparticle deposition, final evidence of cause-effect relationships is delivered. 相似文献
14.
溶酶体生物标志物是环境污染引起生物效应的早期预警信号。石油类污染物对菲律宾蛤仔(Ruditapes philippinarum)溶酶体完整性的影响尚未研究。本研究以0号柴油的水溶性成分(WSF)为污染物,以养殖的菲律宾蛤仔为受试生物,测试3种溶酶体生物标志物对柴油WSF胁迫应答的剂量-效应关系和时间-效应关系。采用室内模拟暴露实验,将菲律宾蛤仔置于添加不同浓度(0.1~1.6 mg/L)柴油WSF的海水中5 d,结果显示:不同浓度的暴露组血细胞溶酶体中性红保留时间(NRRT)值比对照组低23.1%~48.5%(p<0.05或p<0.01)。而各浓度暴露组的鳃和内脏团酸性磷酸酶(ACP)活性均与对照组无显著差异。选取柴油WSF为0.8 mg/L进行污染的时间-效应实验,于第0、1、3、7、11天取样测定,结果显示:暴露组NRRT值始终低于对照组,且在第1、3天差异显著(p<0.05)。暴露组鳃和内脏团ACP活性都是先逐步升高到第7天达最大值后迅速下降,鳃ACP活性从第3天到第11天与对照组差异显著(p<0.01),内脏团ACP活性从第7天到第11天与对照组差异显著(p<0.05)。本研究未能获得基于N-乙酰-β-氨基己糖苷酶的组织化学染色反应上的溶酶体膜稳定性(LMS)应答。研究表明,菲律宾蛤仔血细胞NRRT和鳃ACP活性可作为海洋污染生物效应监测的潜在生物标志物。 相似文献
15.
The purpose of these studies was to evaluate if there were relationships between lysosomal destabilization or glutathione concentrations and gamete viability of oysters, Crassostrea virginica. Oysters were collected from field sites during the peak spawning period (May–June) during 2001 and 2002. Lysosomal destabilization rates and glutathione concentrations of hepatopancreas tissues (e.g. digestive gland) were determined. Eggs and sperm from the same adults were also used to conduct embryo development assays with reference seawater collected from a clean site, site water, and also a range of Cd concentrations (the Cd exposures were used to determine if there were differences in susceptibility to pollutants). Baseline embryo development success (e.g. percent normal development when the assays were conducted with reference seawater or site water) was related to lysosomal destabilization, but not glutathione status. However, the susceptibility of embryos to metal toxicity was related to glutathione status, i.e., sensitivity to Cd exposures increased with decreasing glutathione levels. These studies support the hypotheses that there are linkages between embryo development success and susceptibility to pollutant stress and cellular biomarker responses. These kinds of effects on reproductive success could lead to subtle but significant long-term effects on recruitment and viability of oyster populations. 相似文献
16.
Protein expression and lysosomal stability were observed in Mytilus edulis exposed to 0, 20, 40, 60, and 80 ppb copper sulfate for 24 h in a static exposure system. Haemolymph was removed from each mussel and analyzed for lysosomal damage using the Neutral Red retention assay expressed as the ratio of lysosomal size to cell area, the lysosomal destabilization ratio. Gill tissue from the same individuals was dissected, homogenized and the proteins extracted and then separated using two-dimensional gel electrophoresis. Two-dimensional protein maps from each concentration were analyzed using MELANIE II 2D gel analysis software (Biorad). Lysosomal damage increased with each dosage, with LDRs ranging from 0.18 +/- 0.01 at 0 ppb copper sulfate to 0.32 +/- 0.11 at 80 ppb copper sulfate. Orthogonal comparisons showed that the control, 20 and 40 ppb classes together differed significantly (P < 0.05) from the 60 and 80 ppb classes together. Specific protein expression signatures were identified at each dosage. 相似文献
17.
Lysosomal destabilization assays have been used as valuable biomarkers of pollutant exposures in a variety of bivalve and fish species. The responses of oysters, Crassostrea virginica, deployed at and native to various reference and degraded sites were evaluated for lysosomal destabilization during both summer and winter seasons. In both native and deployed oysters, lysosomal destabilization rates tended to be higher during the winter at both reference and polluted sites. There are at least two hypothetical explanations. Greater lysosomal destabilization rates may be related to physiological changes associated with mobilization of nutrient reserves during the winter and gametogenesis. However, lysosomal destabilization in deployed oysters was correlated with tissue metal concentrations. These data also support a second hypothesis that seasonal differences in physico-chemical factors (such as reduced levels of acid volatile sulfides) may increase the bioavailability of metals during the winter so that adverse effects are more pronounced. 相似文献
18.
Collapse of zooplankton stocks during Liriope tetraphylla (Hydromedusa) blooms and dense mucilaginous aggregations in a thermohaline stratified basin 
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下载免费PDF全文 Izzet Noyan Yilmaz 《Marine Ecology》2015,36(3):595-610
A growing number of studies report an increase in jellyfish populations worldwide that may have consequences for marine planktonic food web dynamics. The principal objective of this study was to understand the changes in a zooplankton community during blooms of Liriope tetraphylla and subsequent mucilage events in the Sea of Marmara, a small highly stratified transitional basin between the Black and Aegean Seas. Liriope blooms observed in 2006 and 2007 reached a maximum abundance of 2978 ind.·m?3, following the species' first observation in 2005. Jellyfish species are known to play a key guild role by restructuring plankton communities and in the Sea of Marmara Liriope caused a temporal regime shift from a crustacean‐ to a jellyfish‐controlled system. A rapid decline in abundance of most important zooplankton species followed the Liriope increase, together with a drastic shift in community structure. The dominant summer–autumn species Penilia avirostris (Cladocera) vanished in the autumn of 2006 and was diminished ~30‐fold in 2007 when compared with years without Liriope. The decline in zooplankton and the devastating effects of mucilage on pelagic ecosystem and socio‐economics through restricting commercial fisheries implied sensitivity of the already perturbed Marmara ecosystem to changes in predator densities and environmental stability. 相似文献
19.
L Camus B E Gr?svik J F B?rseth M B Jones M H Depledge 《Marine environmental research》2000,50(1-5):325-329
Expanding industrial activities in the Arctic require an urgent assessment of the toxicity of chemicals at low temperatures. Organisms acclimatized to low temperature exhibit specific adaptations. For example, the amount of unsaturated lipids is increased to maintain the fluidity of the cell membranes. It has been hypothesized that such temperature-induced alterations in membrane lipid composition may affect the stability of lysosomal and cell membranes in the common mussel, Mytilus edulis, an organism exposed to seasonal temperature extremes. As mussels may be exposed to petroleum compounds along industrialized coastlines, we tested the combined effects of exposure to low temperature and the petroleum compound, phenanthrene, on haemocyte membrane stability. Test animals, acclimated to either 0 or 10 degrees C, were exposed to phenanthrene (0 = control or 500 micrograms l-1) and haemocytes were examined using the neutral red retention assay (lysosomal stability) and a fluorescence assay (cell membrane stability). At 0 degree C, lysosomal and cell membranes from uncontaminated mussels were destabilized compared with 10 degrees C (P = 0.0005). No significant effects (P > 0.05) of phenanthrene were detected at either temperature. Possible mechanisms underlying membrane destabilization include a weaker physical resistance of the membrane due to a higher amount of unsaturated lipids, a potentially higher level of reactive oxygen radicals at low temperature and the higher susceptibility of unsaturated lipids to oxidative stress. More work is required to better understand the consequences of this membrane destabilization at low temperature on the susceptibility of the organism to pollutants. 相似文献
20.
基于延绳钓观察员数据的热带太平洋中东部食物网拓扑结构分析 总被引:1,自引:0,他引:1
热带太平洋是金枪鱼类、旗鱼类等渔业的主要作业海域,但目前针对此海域食物网的研究仍十分缺乏。本文根据2017年6月-11月中国金枪鱼科学观察员在热带太平洋中东部海域(13°09''N -34°27''S, 100°03''-176°17''W)采集的鱼类样品,结合胃含物及其他分析方法以35个物种间的摄食关系为基础对此海域的食物网结构进行了分析。拓扑学指标(节点强度,D;中心性指数,BC和CC;拓扑重要性指数,TI1和TI3;关键性指数,K、Kt和Kb)和Key-Player算法(KPP-1和KPP-2)用来筛选关键种,并结合体长数据建立了基于关键种的简化食物网。肯德尔相关性分析和聚类分析结果表明,不同拓扑学指标筛选出的关键种是一致的。大多数关键种与太平洋其他海域的研究结果是相同的,如剑鱼(Xiphias gladius)、长鳍金枪鱼(Thunnus alalunga)、小吻四鳍旗鱼(Tetrapturus angustirostris)头足类和鲭属。移除5个关键种后,食物网将被离散为许多互不连接的部分(F=0.632,FD=0.795,RD=0.957),表明这些物种在维持食物网结构和稳定性中的必要性。物种体长是本研究构建简化食物网时的决定性因素。研究结果有助于提高对热带太平洋食物网结构的认识,同时为进一步的生态系统动力学研究提供科学依据。 相似文献