Structure-function relationships in cellular copper control

Zhang, Limei

09 June 2009

X-ray absorption spectroscopy and computational chemistry have been used to probe the structure of biomolecules involved in cellular copper homeostasis. X-ray absorption spectroscopy shows that copper chaperones involved in cytochrome c oxidase assembly bind Cu(I) with trigonal coordination environments in poly-copper thiolate clusters, but the number of coppers in these clusters remains unclear. X-ray absorption spectroscopy of the metal-sensing transcription factor-1 from Drosophila melanogaster and metallothionein from Saccharomyces cerevisiae with stoichiometries of four or less shows a tetracopper cluster in an all-or-none manner in these molecules. These results suggest that cooperative binding of copper to form tetracopper clusters may be a common mechanism employed by copper control molecules. The active site structure of the novel copper-sensitive repressor CsoR in Mycobacterium tuberculosis binds copper in a trigonal coordination geometry with two sulfur and one nitrogen donors according to X-ray absorption spectroscopy results. Molecular dynamics simulations of both apo- and Cu-bound CsoR reveal local conformational changes in CsoR upon copper binding, which suggests multiple possible mechanisms of Cu-dependent transcriptional regulation by CsoR. Finally, X-ray absorption spectroscopy and X-ray fluorescence imaging have been used to understand the molecular basis of a promisng new treatment for Wilsons disease (a genetic disorder of Cu homeostasis) using tetrathiomolybdate. Overall, the results presented provide an essential structural basis for understanding copper homeostasis in living cells.

density functional theory

X-ray absorption spectroscopy

cellular Cu control

molecular dynamics

metallothionein

Cu chapterone

CsoR

MTF-1

Secreted Factors from Human Umbilical Cord Blood Cells Protect Oligodendrocytes from Ischemic Insult

Rowe, Derrick

01 January 2011

Oligodendrocytes (OL)s are the dominant cell type in the white matter and are integral for synaptic transmission essential for proper neuronal communication between brain areas. Previous studies have shown that intravenous administration of the mononuclear fraction of human umbilical cord blood (HUCB) cells in rat models of stroke reduced white matter injury, gray matter injury and behavioral deficits. Yet the mechanisms used by HUCB cells remain unknown in ischemic injury. These studies will investigate both in vitro and in vivo approaches to elucidate this mechanism in OLs. When mature primary OLs were coincubated with HUCB cells, HUCB cells secreted soluble factors that reduced cell death in OLs exposed to OGD. Microarray analysis revealed that HUCB cell treatment induced OL gene changes. These changes included genes involved in cell proliferation, signaling, anti-oxidant activity, and myelination. To extend these findings, the middle cerebral artery occlusion (MCAO) model was used to assess the expression profile of protein products of gene changes observed in vitro. The in vivo data mirrored in vitro data in that metallothionein 3 (Mt3), peroxiredoxin 4 (Prdx4), myelin oligodendrocyte glycoprotein (Mog), U2AF homology kinase 1(Uhmk1), and insulin induce gene 1(Insig1) were upregulated in OLs of the white matter tract adjacent to the infarct. Furthermore, double immunofluorescence staining determined that OLs expressed these proteins. Other reports have shown that HUCB cells secrete soluble factors related to cellular protection, including interleukin 6 (IL-6), interleukin 8 (IL-8), and interleukin 10 (IL-10). Other factors are known for their proliferative actions, such as vascular endothelial growth factor (VEGF), BDNF, platelet derived growth factor B (PDGF-B), leukemia inhibitory factor (LIF), and granulocyte colony stimulating factor (GCSF) all of which converge on the Akt survival pathway. Given these findings we hypothesize that Akt activation is integral to HUCB cell mediated OL protection. In models of excitotoxicity, the addition of Akt inhibitor IV blocked HUCB cell mediated protection in OL cultures exposed to 24 hrs OGD. In vivo, HUCB cell treatment increased Akt activation, antioxidant protein expression and decreased caspase 3 cleavage in the external capsule in a time dependent manner. The next series of experiments determine whether the soluble factors secreted by HUCB cells could replace HUCB cells as treatment. LIF expression is increased in HUCB cells as compared to peripheral blood and as previously mentioned, LIF is secreted by HUCB cells. Additionally, LIF rescued OLs from spinal cord and experimental autoimmune encephalomyelitis injury. Thus LIF was investigated. LIF protected OL subjected to 24 hr OGD, increased antioxidant Prdx4 gene expression and reduced reactive oxygen species production. Additionally the inclusion of Akt inhibitor IV blocked LIF induced OL protection. Similar results were obtained when GCSF was evaluated. All these findings indicate that HUCB cell mediated OL/white matter protection is due to the soluble factors secreted by the mononuclear population of these cells. These soluble factors including LIF activate cellular machinery leading to enhanced cellular survival. Here we found a specific survival pathway activated by soluble factors released from HUCB cells, leading to Akt activation. Akt activation arrests stroke induced apoptosis and reduced the expansion of the infarct, promoting functional recovery from acute ischemic injury.

Hypoxia

Leukemia Inhibitory Factor

Metallothionein 3

Oxidative Stress

Peroxiredoxin 4

Stroke

American Studies

Arts and Humanities

Neurosciences

Pharmacology

Physiology

Metal-specific high performance liquid chromatography detection approaches for the characterization of metallothionein-like proteins from freshwater mussels

High, Kim.

January 1997

Risk assessment of environmental exposure to chronic, trace concentrations of contaminants presents an analytical challenge to interpret data in a biologically meaningful way. Biomarkers are compounds that can provide integrated information concerning the effects of contaminants on biochemical processes. The metal-binding protein, metallothionein (MT), is a biomarker of toxic heavy metals, such as cadmium (Cd), since these metals bind to MT in vivo and induce transcription of MT genes with subsequent MT protein synthesis. A high performance liquid chromatography (HPLC)-thermospray microatomization-atomic absorption spectroscopy (AAS) method was developed for detecting Cd proteins from two invertebrate models; freshwater mussels (Pyganodon grandis) from a whole lake ecosystem exposure to Cd (Experimental Lakes Area, Canada), and zebra mussels (Dreissena polymorpha) recently introduced to North America. Methods for coupling gel filtration HPLC to AAS or inductively coupled-mass spectrometry (ICP-MS) were developed to provide sensitive and selective information on metal-binding proteins in freshwater mussel extracts. Sensitive metal detection by these methods necessitated precautions to minimize HPLC column-protein exchange of metals. These interactions were relevant to the determination of low concentrations of mussel MT-like proteins (MLPs) by these metal-specific detection systems. Saturation methods employing Cd as a metallic marker for the quantification of characterized MTs were adapted for freshwater mussels exposed to low environmental Cd concentrations. Characterization of Cd-saturated mussel extracts by HPLC-ICP-MS demonstrated the presence of copper and zinc, metals physiologically bound to MT, in the principal metal-binding fraction of mussel extracts. Experimental results also indicated that mussel MLPs are not as heat-stable as mammalian MT. Zebra mussels were chosen as a bioindicator species for obtaining a standard of freshwater MT biomarker for toxi

Liquid chromatography.

Metallothionein.

Biochemical markers.

Cadmium -- Absorption and adsorption.

Establishing the comet assay to determine the effects of different perturbations on DNA repair capacity / by Anzaan Steenkamp

Steenkamp, Anzaan

January 2011

Single cell gel electrophoresis (SCGE), more commonly known as the Comet assay, is an uncomplicated, affordable and versatile method for investigating DNA damage and repair. Existing comet–assay based methods were modified and applied in this study in order to examine the effects of different perturbations on the DNA repair capacity of different samples. Mitochondrial functioning has a vast effect on overall cell physiology and does not simply involve the production of energy in the form of ATP that sustains common biological processes, but is also associated with important cellular occurrences such as apoptosis and ROS production. It is suggested that a change in mitochondrial function may lead to extensive ROS production which may negatively affect macromolecules, including proteins involved in DNA repair pathways, and impaired energy formation which in turn may hamper the proper occurrence of energy driven processes. Complex I and ?III knock–down systems established in 143B cells are used to investigate the effect that perturbations of the energy metabolism may have on DNA repair capacity. Metallothioneins (MTs) are known to play an imperative role in trace element homeostasis and detoxification of metals and are effective ROS scavengers. The prooxidant environment that heavy metal imbalance causes may result in mutagenesis and transformation through DNA damage. It is suggested that an imbalance in the metal homeostasis caused by MT knock–out may create an environment favourable for DNA damage formation and at the same time impair DNA repair pathways. Because of the multi–functionality and involvement of metallothioneins in such a wide variety of biological processes, it was considered interesting and essential to extend the investigation on the effect of the absence of metallothioneins on DNA repair. A metallothionein I and ?II knock–out mouse model is employed to determine the effect of MT knock–out on DNA repair capacity. It was clear from the results obtained that transfection of cells, as used to investigate a perturbation in the energy metabolism in 143B cells, has an impairing effect on DRC. It was also confirmed that metallothioneins play an important and diverse role in cell biology since the absence thereof inhibits both BER and NER. / Thesis (M.Sc. (Biochemistry))--North-West University, Potchefstroom Campus, 2011.

Comet assay

DNA repair capacity

Base excision repair (BER)

Nucleotide excision repair (NER)

Electron transport chain

Metallothionein

Establishing the comet assay to determine the effects of different perturbations on DNA repair capacity / by Anzaan Steenkamp

Steenkamp, Anzaan

January 2011

Single cell gel electrophoresis (SCGE), more commonly known as the Comet assay, is an uncomplicated, affordable and versatile method for investigating DNA damage and repair. Existing comet–assay based methods were modified and applied in this study in order to examine the effects of different perturbations on the DNA repair capacity of different samples. Mitochondrial functioning has a vast effect on overall cell physiology and does not simply involve the production of energy in the form of ATP that sustains common biological processes, but is also associated with important cellular occurrences such as apoptosis and ROS production. It is suggested that a change in mitochondrial function may lead to extensive ROS production which may negatively affect macromolecules, including proteins involved in DNA repair pathways, and impaired energy formation which in turn may hamper the proper occurrence of energy driven processes. Complex I and ?III knock–down systems established in 143B cells are used to investigate the effect that perturbations of the energy metabolism may have on DNA repair capacity. Metallothioneins (MTs) are known to play an imperative role in trace element homeostasis and detoxification of metals and are effective ROS scavengers. The prooxidant environment that heavy metal imbalance causes may result in mutagenesis and transformation through DNA damage. It is suggested that an imbalance in the metal homeostasis caused by MT knock–out may create an environment favourable for DNA damage formation and at the same time impair DNA repair pathways. Because of the multi–functionality and involvement of metallothioneins in such a wide variety of biological processes, it was considered interesting and essential to extend the investigation on the effect of the absence of metallothioneins on DNA repair. A metallothionein I and ?II knock–out mouse model is employed to determine the effect of MT knock–out on DNA repair capacity. It was clear from the results obtained that transfection of cells, as used to investigate a perturbation in the energy metabolism in 143B cells, has an impairing effect on DRC. It was also confirmed that metallothioneins play an important and diverse role in cell biology since the absence thereof inhibits both BER and NER. / Thesis (M.Sc. (Biochemistry))--North-West University, Potchefstroom Campus, 2011.

Comet assay

DNA repair capacity

Base excision repair (BER)

Nucleotide excision repair (NER)

Electron transport chain

Metallothionein

Bioensaios com metais (\'CD\', \'CU\' e \'ZN\') e as alterações em biomarcadores do estresse oxidativo, na glutationa S-transferase e na metalotioneína em brânquias, fígado e rim de Oreochromis niloticus / Bioassays with metals (CD\', \'CU\' e \'ZN\') and alterations in oxidative stress biomarkers in kidney, liver and gills of Oreochromis niloticus

Fabiano Botta Tonissi

11 September 2009

Uma das formas de se quantificar os possíveis efeitos de metais sobre o estado de saúde de organismo é analisar os biomarcadores do estresse oxidativo. Bioensaios foram realizados com a tilápia do Nilo (Oreochromis niloticus) com concentrações de cádmio (4,25 \'mü\'g/L), cobre (45,0 \'mü\'g/L ) e zinco (260,0 \'mü\'g/L). Os peixes foram expostos aos metais separados (\'CD\', \'CU\' e \'ZN\'), associados dois a dois (\'CD\'/\'CU\', \'CD\'/\'ZN\' e \'CU\'/\'ZN\') e aos três metais juntos (\'CD\'/\'CU\'/\'ZN\'), por doze dias. Foram retiradas amostras de rim, fígado e brânquias para análise de biomarcadores de estresse oxidativo, a superóxido dismutase (SOD), catalase (CAT) e glutationa peroxidase (GPx), o efeito da peroxidação de lipídios (HP), a glutationa S-transferase (GST) e a metalotionéina (MT). Pelos reusltados obtidos constatou-se que, mesmo nas baixas concentrações de exposição aos metais, ocorreram alterações no sitema de defesa antioxidante de O. niloticus. A primeira barreira antioxidante, composta pela SOD, não foi suficiente para barrar os efeitos da exposição aos metais. Em brânquias, onde a ativação desta enzima foi proeminente, formação de HP ocorreu. E, mesmo inicialmente em rim e fígado, tecidos onde ocorreu diminuição da atividade da SOD, ocorreu também a formaçao de HP nas etapas seguintes. A CAT e a GPx também atuaram no sentido de tentar evitar o aparecimento de HP, mas não foram bem sucedidas neste processo. A GST, como enzima da fase II de biotransformação pode ter auxiliado no processo de eliminação dos metais, mas como ocorre de forma tardia em relação à defesa antioxidante, acarretando danos celulares. Em relação às enzimas que compõem o sistema de defesa antioxidante não se verificou também especificidade de tecidos nas respostas. No entanto, a brânquia foi o órgão que teve maior intensidade nas respostas (em termos de ativação das enzimas), nos tratamentos de metais combinados dois a dois, evidenciando que este órgão, por estar em contato com a água e ser sede de processos fisiológicos de homeostase, desempenhou papel importante na tentativa de neutralizar os efeitos dos metais. / One way of quantifying metals effects upon organisms\' health state is to analyse oxidative stress biomarkers. Bioassays were conducted with Nile tilapia (Oreochromis niloticus) with cadmium (4,25 \'mü\'g/L), copper (45,0 \'mü\'g/L ) and zinc (260,0 \'mü\'g/L). Fishes were exposed to metals separatelly (\'CD\', \'CU\' e \'ZN\'), associated two by two (\'CD\'/\'CU\', \'CD\'/\'ZN\' e \'CU\'/\'ZN\') and to three metals together (\'CD\'/\'CU\'/\'ZN\'), for twelve days. Gills, liver and kidney samples were taken to analyse oxidative stress biomarkers, superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GPx), the effect of lipid peroxidation (HP), an enzyme of phase II biotransformation, glutathione S-transferase (GST) and metallothionein (MT). From results obtained, it was stablished that, even in low concentrations of metals, O. niloticus antioxidant defense system was modified. The first antioxidant barrier, SOD, wasn\'t able to minimize metal exposition effects. In gills, where activaton of this enzyme was prominent, didn\'t avoi HP formation. And even in liver and kidney, tissues where SOD activity decreased, HP formation also occurred. CAT and GPx also acted trying to avoid HP formation, but weren\'t successfull. GST, like a phase I enzyme, could help eliminating metals, but in a late moment in relation to antioxidant defense, leading to cell damage. For antioxidant enzymes no relation to tissue-specificity response was observed. But gills were the organ which had more intense responses (in terms of enzyme activation), mainly in metals combined two by two, evidencing that gills are important like a first organ in antioxidant defense because it is in direct contact with water and determine the main processes in homeostasis, trying to neutralize metals effects.

Ecotoxicologia

Estresse oxidativo

Glutationa S-transferase

Metais

Metalotioneína

Oreochromis niloticus

Ecotoxicology

Glutathione S-transferase

Metallothionein

Metals

Oreochromis niloticus

Oxidative stress

Estudo imuno-histoquímico da expressão de metalotioneína e proteína p16 em líquen plano e reações liquenóides orais

Mendes, Gabriela Geraldo

30 April 2015

Fundação de Amparo a Pesquisa do Estado de Minas Gerais / Lichen planus is a chronic inflammatory disease mediated by T cells of unknown cause. Skin, nails and mucous membranes can be affected, and the disease is more common in middleaged adults, especially in women. Oral lichen planus (OLP) manifests as reticular (white) and erosive (red) lesions that are eventually painful. Histologically, it is characterized by dense lymphocytic infiltrate beneath the epithelium, apoptosis of keratinocytes, liquefaction of the basal layer, epithelial hyperplasia and hyperkeratosis. Oral lichenoid reactions (OLR) are distinguished from OLP by the presence of precipitating factors, unilateral lesions and diffuse inflammatory infiltrate. Metallothionein is a protein involved in anti-oxidative response and anti-apoptotic pathways. Ki-67 is a cellular proliferation marker and is expressed only in cells that are in cell division (phases G1, S, G2 and M of the cell cycle). The tumor suppressor gene p16 is involved in the pRb pathway and participates in the regulation of the cell cycle, repairing possible damage to DNA. The aim of this study was to evaluate possible molecular differences, related to oxidative stress and cell proliferation between OLP and OLR, and the two major forms of OLP in order to better understand the pathogenesis of these lesions and facilitate the differential diagnosis between them. Immunohistochemistry for metallothionein, Ki-67 and p16 detection was performed in 42 and 23 cases of OLP and OLR, respectively. Reactivity for metallothionein was more frequently observed in OLP cases than in OLR cases (p = 0,01; Mann-Whitney U test). Significant difference was found between the reticular and atrophic lesions of OLP for p16 protein (p = 0,04; Mann-Whitney U test). There was no significant difference between the lesions in relation to Ki-67 antigen. The results of this study suggest that metallothionein protein may be a useful marker of differential diagnosis between OLP and OLR, and that p16 protein may be a differential marker of reticular and atrophic/erosive lesions of OLP. / O líquen plano é uma doença inflamatória crônica, mediada por células T e de causa desconhecida. Pele, unhas e mucosas podem ser afetadas, e a doença é mais comum em adultos de meia-idade, especialmente em mulheres. Histologicamente, é caracterizada por denso infiltrado linfocitário subepitelial em banda, apoptose de queratinócitos, liquefação da camada basal, hiperplasia e hiperqueratose epitelial. O líquen plano oral (LPO) se manifesta clinicamente como lesões reticulares (brancas) e atróficas/erosivas (vermelhas), que são eventualmente dolorosas. Reações liquenóides orais (RLO) distinguem-se do LPO pela presença de fatores precipitantes, lesões unilaterais e infiltrado inflamatório difuso. A metalotioneína é uma proteína envolvida em resposta antioxidante e vias anti-apoptóticas. Ki- 67 é um marcador de proliferação celular e é expresso somente em células que estão em divisão celular (fases G1, S, G2 e M do ciclo celular). O gene supressor de tumor p16 está envolvido na via de sinalização pRb e atua na regulação do ciclo celular, reparando possíveis danos ao DNA. O objetivo deste estudo foi avaliar possíveis diferenças moleculares, relacionadas ao estresse oxidativo e proliferação celular entre LPO e RLO, bem como as duas formas clínicas principais de LPO, a fim de melhor compreender a patogênese dessas lesões e facilitar o diagnóstico diferencial entre elas. Imuno-histoquímica para detecção de metalotioneína, Ki-67 e p16 foi realizada em 42 e 23 casos de LPO e RLO, respectivamente. Reatividade para metalotioneína foi mais frequente em casos de LPO do que em casos de RLO (p = 0,01; Mann-Whitney U). Foram observadas diferenças significativas entre as lesões reticulares e atróficas/erosivas de LPO para a proteína p16 (p = 0,04; Mann-Whitney U). Não houve diferença significativa entre as lesões em relação ao antígeno Ki-67. Os resultados deste estudo sugerem que a proteína metalotioneína pode ser um marcador útil do diagnóstico diferencial entre LPO e RLO, e que a proteína p16 pode ser um marcador diferencial das lesões reticulares e atróficas/erosivas de LPO. / Mestre em Biologia Celular e Estrutural Aplicadas

Líquen plano oral

Imuno-histoquímica

Metalotioneína

Citologia

Imunohistoquímica

Oral lichen planus

Immunohistochemistry

Metallothionein

Molekularne osnove odgovora medonosne pčele (Apis mellifera, L.) nastres izazvan jonima teških metala / Molecular basis of honey bee (Apis mellifera, L.) response to heavy metal stress

Nikolić Tatjana

07 July 2017

<p>Istraživanja&nbsp; u&nbsp; ovoj&nbsp; doktorskoj&nbsp; disertaciji&nbsp; su&nbsp; bila&nbsp; usmerena&nbsp; ka&nbsp; razumevanju<br />molekularnih&nbsp; mehanizama&nbsp; koji&nbsp; se&nbsp; aktiviraju&nbsp; kod medonosne pčele (<em>Apis mellifera, L</em>.)&nbsp; kao&nbsp; odgovor&nbsp; na&nbsp; stres&nbsp; izazvan&nbsp; jonima&nbsp; te&scaron;kih&nbsp; metala,&nbsp; &scaron;to&nbsp; zbog važnosti medonosne pčele kao opra&scaron;ivača&nbsp; ima&nbsp; poseban&nbsp; značaj&nbsp; i&nbsp; očekuje&nbsp; se da će doprineti očuvanju ove vrste. Istraživanja su bila podeljena u tri faze. U prvoj fazi za analize&nbsp; su&nbsp; kori&scaron;ćene populacije pčela sa lokaliteta sa različitim&nbsp; antropolo&scaron;kim uticajem&nbsp; i izmerena je koncentracija metala u pčelama, pergi i medu, kao i relativna genska ekspresija i aktivnost antioksidativnih enzima. U drugoj fazi&nbsp; pčele&nbsp; su&nbsp; u kontrolisanim laboratorijskim uslovima bile&nbsp; izložene subletalnim dozama jona te&scaron;kih&nbsp;metala&nbsp; (bakra,&nbsp; kadmijuma i olova), nakon čega&nbsp; su&nbsp; izmereni parametri koji ukazuju na redoks status i nivo oksidativnog stresa. Rezultati prve dve faze su pokazali&nbsp; da se ekspresija gena i aktivnost antioksidativnih enzima (superoksid dismutaze, katalaze i glutation&nbsp;<em> S</em>-transferaze)&nbsp; razlikuje u zavisnosti od stepena urbanizacije i industrijalizacije, dok je izlaganje bakru i kadmijumu u kontrolisanim uslovima u trajanju od 48 h dovelo samo do promene&nbsp; u ekspresiji gena&nbsp; i u većini slučajeva ekspresija je bila dozno zavisna od koncentracije metala.&nbsp; Olovo je uzrokovalo promene u koncentraciji glutationa i sulfhidrilnih grupa proteina, &scaron;to govori o tome da helacija olova može da bude prvi mehanizam odbrane od toksičnih efekata ovog metala.&nbsp; U trećoj fazi bioinformatičkom analizom je&nbsp; pronađen metalotionein medonosne pčele i ispitana je njegova funkcija u za&scaron;titi od toksičnih efekata jona te&scaron;kih metala.&nbsp; Utvrđeno je da pčele poseduju jedan&nbsp;gen za metalotionein, koji kodira mali protein sa regionima bogatim cisteinom za koje mogu da se vežu joni metala. Indukcija genske ekspresije metalotioneina medonosne pčele nakon izlaganja metalima i povećana tolerancija bakterija koje ekspresuju rekombinantni metalotionein na metale je potvrdila da metalotionein medonosne pčele ima ulogu u homeostazi bioelemenata i detoksikaciji potencijalno toksičnih metala.&nbsp; Dobijeni rezultati predstavljaju osnovu za buduća istraživanja uticaja&nbsp; jona te&scaron;kih metala na medonosnu pčelu i predstavljaju važan korak u sveobuhvatnoj proceni uticaja stresogenih faktora iz životne sredine na pčele.</p> / <p>Research in this doctoral thesis&nbsp; focuses&nbsp; on&nbsp; understanding the molecular mechanisms activated in the honey bee (Apis mellifera L.) as a response to stress caused by exposure to heavy metal ions. Because of the importance of honeybees as pollinators, this has special significance and is expected to contribute to the&nbsp; conservation of this species. Studies have been divided into three phases. In the first phase, bee populations from&nbsp; three localities under&nbsp; different anthropological influence were used and the concentrations of metals in the bees, honey and bee bread&nbsp; (perga), as well as relative gene expression and activity of antioxidant enzymes were measured. In the second phase, bees&nbsp; were exposed to sublethal doses of heavy metal ions (copper, cadmium and lead) under controlled laboratory conditions, after which parameters that indicate redox status and oxidative stress were determined. The results of the first two phases showed that&nbsp; gene expression and activity of antioxidant enzymes (superoxide dismutase, catalase, and glutathione&nbsp; S-transferase) varies depending on the degree of urbanization and industrialization, while exposure to copper and cadmium in controlled conditions for 48 h&nbsp; resulted only in a change in gene expression in the majority of cases, and the expression was dose-dependent on the concentration of the metal. Lead has caused changes in the concentration of glutathione and sulfhydryl groups of proteins, which indicates&nbsp; that chelation may be the first defense mechanism against&nbsp; the&nbsp; toxic effects of this metal. In the third stage, honeybee metallothionein was identified by bioinformatic analysis and its function in&nbsp; protection against the toxic effects of heavy metal ions was examined. It has been found that&nbsp; honeybees have one metallothionein gene, which encodes a small protein with cysteine-rich regions that may bind metal ions. The induction of metallothionein gene expression after exposure of honeybees to metals and increased tolerance of bacteria that express recombinant metallothionein confirmed that this protein plays a role in the homeostasis of bioelements and detoxification of potentially toxic metals. These results form the basis for future research on the impact of&nbsp; heavy metal pollution on the honey bee and represent an important step in the comprehensive assessment of the impact of stress factors from the environment on honey bees.</p>

Metal-specific high performance liquid chromatography detection approaches for the characterization of metallothionein-like proteins from freshwater mussels

High, Kim.

January 1997

No description available.

Biochemical markers.

Liquid chromatography.

Cadmium -- Absorption and adsorption.

Metallothionein.

Embryotoxicité de contaminants métalliques et organiques chez l'escargot Helix aspersa / Embryotocixity of mettallic and organic chemicals in the land snail Helix aspersa

Baurand, Pierre-Emmanuel

26 September 2014

Les oeufs d’escargot terrestre de l’espèce petit-gris Helix aspersa (syn. Cantareusaspersus) peuvent être utilisés pour évaluer l’écotoxicité de substances chimiques pures ou enmélange. La mesure des effets embryotoxiques classiquement réalisée est le succès d’éclosionaprès 15 à 20 jours d’exposition (Druart et al., 2012). Cependant, les mécanismes impliquésdans la mise en place des effets toxiques à différents niveaux d’organisation biologique chezl’embryon ne sont pas connus. Des oeufs d’escargots ont été exposés à des solutions decontaminants métallique (Cd) ou organiques (pesticides: le Round Up® flash, le Corail® et laBouillie Bordelaise) selon deux modalités différentes (en continu sur la totalité dudéveloppement embryonnaire ou sur une période de 24 heures) afin de 1/ déterminer denouveaux paramètres de mesure au cours du développement embryonnaire pouvant rendrecompte d’un effet toxique, 2/ détecter des effets génotoxiques de divers contaminants(solution métallique de Cd ou de formulations commerciales de pesticides) par la méthodeRandom Amplified Polymorphic DNA (RAPD) et 3/ d’étudier des systèmes de défense métalspécifiques(métallothionéines).Les paramètres morphologiques et physiologiques suivis au cours d’expositionscontinues au Cd ont montré des effets néfastes sur le rythme cardiaque, la durée del’incubation, la taille et le poids à l’éclosion chez les exposés à la plus forte concentrationtestée. Chez ces derniers des signes de fragmentation de l’ADN ont également été détectés enfin d’exposition. Le couplage de la méthode RAPD avec un système d’électrophorèse hauterésolution (SHR) a permis de détecter des effets génotoxiques suite à des expositionscontinues au Cd, au Round Up® et au Corail®. L’étude par PCR quantitative de l’expressiondes gènes des métallothionéines (MTs) a mis en évidence une expression constitutive des MTsainsi qu’un haut niveau d’expression du gène mixte CdCuMT chez les embryons non exposés.Chez les embryons exposés au Cd durant 24 heures, une surexpression du gène spécifiqueCdMT a été mise en évidence alors qu’aucune augmentation significative des taux detranscrits des 2 autres isogènes étudiés (CuMT et CdCuMT) n’a été démontrée.Les résultats de toxicité du Cd basés sur le taux d’éclosion et l’expression des gènes desMTs ont démontré que des facteurs comme le régime d’exposition (24 heures ou en continu)ou le stade de développement (âge des embryons lors de l’exposition) peuvent modulerl’embryotoxicité des substances chimiques.206Les données obtenues durant cette étude intégrative permettent de proposer un largepanel de paramètres de mesure des effets toxiques des substances chimiques chez l’embryond’escargot terrestre H. aspersa au niveau individuel (rythme cardiaque, taille, durée dedéveloppement et succès d’éclosion) et au niveau moléculaire (expression de gènes dessystèmes de défense, détection des signes de génotoxicité et de la fragmentation de l’ADN)pour l’évaluation de la toxicité des substances chimiques. L’approche RAPD-SHR, bien quenécessitant une certaine expertise pour l’analyse des profils d’amplifications obtenus, apparaîtadaptée pour une détection rapide et efficace du potentiel embryogénotoxiques de substancesvariées (métaux, pesticides. / The land snail species Helix aspersa (syn. Cantareus aspersus) eggs can be used to assess theecotoxicity of chemicals. Measurement of embryotoxic effect is classically based on hatching successafter 15-20 days of exposure (Druart et al., 2012). However, the mechanisms involved in toxic effectsin embryos at different levels of biological organization are not known. Eggs of snails were exposedto solutions metallic contaminants (Cd) or organic (pesticides: Round Up® Flash, Corail® andBordeaux Mixture) in two different regimes (continuous over the entire embryonic development orduring a period of 24 hours), in order to 1 / identify of new endpoints of toxic effect measurementsduring embryonic development, 2 / detect of genotoxic effects of metal solution (Cd) or threepesticides commercial formulations by Random Amplified Polymorphic DNA method (RAPD) and 3 /study metal-specific defense systems (metallothionein).Morphological and physiological parameters monitored during Cd continuous exposures showedadverse effects on heart rate, duration of incubation, size and weight of new hatchlings exposed to thehighest concentration tested. In the latter, signs of DNA fragmentation were detected at the end ofexposure. Coupling the RAPD with a high-resolution electrophoresis system (SHR) has enabled todetect genotoxic effects of Cd, Round Up® and Corail® after continuous exposures. Quantitative PCRstudy of metallothioneins (MTs) gene expression has showed constitutive expression of MTs genesand a high level of mRNA for the mixed gene CdCuMT in unexposed embryos. In embryos exposedto Cd for 24 hours, an overexpression of the specific gene CdMT has been demonstrated whereas thetwo other isogenes (CuMT and CdCuMT) didn’t show significant induction of expression rates.The toxicity results based on the hatching rate and MTs genes expression obtained with Cd haveshowed that factors such as the exposure regime (24 hours or continuous) or the stage of development(age of embryos upon exposure) can modulate embryotoxicity of chemicals. This thesis provides awide range of endpoints usable at the individual level (heart rate, height, hatching monitoring) and atthe molecular level (gene expression of defense systems, detection of genotoxicity signs and DNAladdering) for the assessment of the ecotoxicity of chemical substances. The RAPD-SHR, althoughrequiring some expertise to analyze profiles obtained, appears suitable for rapid and efficientdetection of potential embryogenotoxic effects of various substances (metals, pesticides).

Escargots

Embryotoxicité

Métallothionéines

Génotoxicité

RAPD-SHR

Formulation commerciale de pesticides

Cadmium

Bouillie Bordelaise

Round UP

Corail

Snails

Embryotoxicity

Metallothionein

Genotoxicity

Commercial formulation of pesticides

Bordeaux Mixtur

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