Pattern of Stress Protein Expression in Human Lung Cell-Line A549 after Short- or Long-Term Exposure to Cadmium

Exposure to cadmium is associated with the development of pulmonary damage such as emphysema and lung cancer. This metal is also a powerful inducer of stress proteins in many biologic models. The present study was undertaken to evaluate whether an overexpression of the heat shock protein (hsp)72 str...

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Veröffentlicht in:	Environmental health perspectives 2000-01, Vol.108 (1), p.55-60
Hauptverfasser:	Croute, Françoise, Beau, Bernadette, Arrabit, Christine, Gaubin, Yolande, Delmas, Florence, Murat, Jean-Claude, Soleilhavoup, Jean-Pierre
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Sprache:	eng
Schlagworte:	Biological markers Biomarkers Blotting, Western Cadmium Cadmium - adverse effects Cell Division Cell growth Cell Line Cell lines Chemical hazards Cultured cells Dosage Dose-Response Relationship, Drug Environmental pollution Epithelial cells Epithelial Cells - drug effects Epithelial Cells - physiology Heat shock proteins Heat-Shock Proteins - biosynthesis HSP72 Heat-Shock Proteins Humans Lung - drug effects Lung - physiology Time Factors
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creator	Croute, Françoise Beau, Bernadette Arrabit, Christine Gaubin, Yolande Delmas, Florence Murat, Jean-Claude Soleilhavoup, Jean-Pierre
description	Exposure to cadmium is associated with the development of pulmonary damage such as emphysema and lung cancer. This metal is also a powerful inducer of stress proteins in many biologic models. The present study was undertaken to evaluate whether an overexpression of the heat shock protein (hsp)72 stress protein, which indicates repair of damaged proteins, could be a sensitive and early biomarker of environmental pollution by Cd. In comparative studies, we examined the effects of exposure to Cd (as CdCl2) on the growth rate of the A549 pulmonary cell line, and (by Western blot analyses) on the induction of the hsp72 stress protein and metallothioneins (MTs). CdCl2 exposure was studied for periods of 2 hr to 1 month. For short-term exposure (2-6 hr) to Cd concentrations higher than 50 μM, an overexpression of hsp72 appeared 6 hr later, suggesting that hsp72 might be considered an early biomarker of acute exposure to Cd. For exposures lasting more than 4 days, lower doses of Cd (0.1-10 μM) similar to levels encountered in occupational exposure induced a significant increase of the hsp72 level. Because the increase of hsp72 occurs for doses that did not affect cell proliferation, our work supports the idea that its overexpression might be used as a sensitive indicator of occupational exposure to Cd. However, increased resistance to Cd appeared in A549 cells exposed for 1 month and overexpression of hsp72 disappeared simultaneously. It is possible that, in vivo, cell adaptation also occurs throughout chronic exposure to Cd, with a decrease of hsp induction as a consequence. A dose-related increase of MTs was found after 4 days of exposure to Cd concentrations ranging from 0.1 to 10 μM without change of overexpression during chronic exposure, suggesting that MT expression could be a more constant indicator of Cd pollution. Because 0.1 μM Cd (11 μg/L) induces hsp72 expression, showing the presence of damaged proteins, our work suggests that the maximum allowable biologic exposure limit should be lowered.
doi_str_mv	10.1289/ehp.0010855
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Because the increase of hsp72 occurs for doses that did not affect cell proliferation, our work supports the idea that its overexpression might be used as a sensitive indicator of occupational exposure to Cd. However, increased resistance to Cd appeared in A549 cells exposed for 1 month and overexpression of hsp72 disappeared simultaneously. It is possible that, in vivo, cell adaptation also occurs throughout chronic exposure to Cd, with a decrease of hsp induction as a consequence. A dose-related increase of MTs was found after 4 days of exposure to Cd concentrations ranging from 0.1 to 10 μM without change of overexpression during chronic exposure, suggesting that MT expression could be a more constant indicator of Cd pollution. 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This metal is also a powerful inducer of stress proteins in many biologic models. The present study was undertaken to evaluate whether an overexpression of the heat shock protein (hsp)72 stress protein, which indicates repair of damaged proteins, could be a sensitive and early biomarker of environmental pollution by Cd. In comparative studies, we examined the effects of exposure to Cd (as CdCl2) on the growth rate of the A549 pulmonary cell line, and (by Western blot analyses) on the induction of the hsp72 stress protein and metallothioneins (MTs). CdCl2 exposure was studied for periods of 2 hr to 1 month. For short-term exposure (2-6 hr) to Cd concentrations higher than 50 μM, an overexpression of hsp72 appeared 6 hr later, suggesting that hsp72 might be considered an early biomarker of acute exposure to Cd. For exposures lasting more than 4 days, lower doses of Cd (0.1-10 μM) similar to levels encountered in occupational exposure induced a significant increase of the hsp72 level. Because the increase of hsp72 occurs for doses that did not affect cell proliferation, our work supports the idea that its overexpression might be used as a sensitive indicator of occupational exposure to Cd. However, increased resistance to Cd appeared in A549 cells exposed for 1 month and overexpression of hsp72 disappeared simultaneously. It is possible that, in vivo, cell adaptation also occurs throughout chronic exposure to Cd, with a decrease of hsp induction as a consequence. A dose-related increase of MTs was found after 4 days of exposure to Cd concentrations ranging from 0.1 to 10 μM without change of overexpression during chronic exposure, suggesting that MT expression could be a more constant indicator of Cd pollution. Because 0.1 μM Cd (11 μg/L) induces hsp72 expression, showing the presence of damaged proteins, our work suggests that the maximum allowable biologic exposure limit should be lowered.</description><subject>Biological markers</subject><subject>Biomarkers</subject><subject>Blotting, Western</subject><subject>Cadmium</subject><subject>Cadmium - adverse effects</subject><subject>Cell Division</subject><subject>Cell growth</subject><subject>Cell Line</subject><subject>Cell lines</subject><subject>Chemical hazards</subject><subject>Cultured cells</subject><subject>Dosage</subject><subject>Dose-Response Relationship, Drug</subject><subject>Environmental pollution</subject><subject>Epithelial cells</subject><subject>Epithelial Cells - drug effects</subject><subject>Epithelial Cells - physiology</subject><subject>Heat shock proteins</subject><subject>Heat-Shock Proteins - biosynthesis</subject><subject>HSP72 Heat-Shock Proteins</subject><subject>Humans</subject><subject>Lung - drug effects</subject><subject>Lung - physiology</subject><subject>Time Factors</subject><issn>0091-6765</issn><issn>1552-9924</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2000</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkc1LHDEYh0Op1NX25F1yKL2Usfn-uAiyWBUGFLTnkJ1kdkd2kjXJSP3vzbJL2Z48hZc8PLy_9wfAGUYXmCj9y682FwhhpDj_BGaYc9JoTdhnMENI40ZIwY_BSc7PqFJKiC_gGCNBECdsBuKDLcWnAGMPH0vyOcOHFIsfArz-u9nOQwywTrfTaANsp7CEc79eN-0QPLziTEPbVwF8XMVUGhgTbGNYNk8-jVtDzFPysEQ4t24cpvErOOrtOvtv-_cU_Pl9_TS_bdr7m7v5Vdt0VFHe9EixrqeOkF5xy6UWmkpte-drZCccp4oJh9GCSbeQEjOqnSLeYst5Z5Glp-By591Mi9G7zoeS7Nps0jDa9GaiHcz_P2FYmWV8NVhQWS9ZBT_2ghRfJp-LGYfc1eQ2-DhlgyVnSlT6Q5BxomoRFfy5A7sUc06-_7cNRmbbpKlNmn2TlT4_DHDA7qqrwPcd8JxLTIcuQpE0lHFGNKfvlNekxw</recordid><startdate>20000101</startdate><enddate>20000101</enddate><creator>Croute, Françoise</creator><creator>Beau, Bernadette</creator><creator>Arrabit, Christine</creator><creator>Gaubin, Yolande</creator><creator>Delmas, Florence</creator><creator>Murat, Jean-Claude</creator><creator>Soleilhavoup, Jean-Pierre</creator><general>National Institute of Environmental Health Sciences. 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This metal is also a powerful inducer of stress proteins in many biologic models. The present study was undertaken to evaluate whether an overexpression of the heat shock protein (hsp)72 stress protein, which indicates repair of damaged proteins, could be a sensitive and early biomarker of environmental pollution by Cd. In comparative studies, we examined the effects of exposure to Cd (as CdCl2) on the growth rate of the A549 pulmonary cell line, and (by Western blot analyses) on the induction of the hsp72 stress protein and metallothioneins (MTs). CdCl2 exposure was studied for periods of 2 hr to 1 month. For short-term exposure (2-6 hr) to Cd concentrations higher than 50 μM, an overexpression of hsp72 appeared 6 hr later, suggesting that hsp72 might be considered an early biomarker of acute exposure to Cd. For exposures lasting more than 4 days, lower doses of Cd (0.1-10 μM) similar to levels encountered in occupational exposure induced a significant increase of the hsp72 level. Because the increase of hsp72 occurs for doses that did not affect cell proliferation, our work supports the idea that its overexpression might be used as a sensitive indicator of occupational exposure to Cd. However, increased resistance to Cd appeared in A549 cells exposed for 1 month and overexpression of hsp72 disappeared simultaneously. It is possible that, in vivo, cell adaptation also occurs throughout chronic exposure to Cd, with a decrease of hsp induction as a consequence. A dose-related increase of MTs was found after 4 days of exposure to Cd concentrations ranging from 0.1 to 10 μM without change of overexpression during chronic exposure, suggesting that MT expression could be a more constant indicator of Cd pollution. Because 0.1 μM Cd (11 μg/L) induces hsp72 expression, showing the presence of damaged proteins, our work suggests that the maximum allowable biologic exposure limit should be lowered.</abstract><cop>United States</cop><pub>National Institute of Environmental Health Sciences. National Institutes of Health. Department of Health, Education and Welfare</pub><pmid>10620524</pmid><doi>10.1289/ehp.0010855</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects	Biological markers Biomarkers Blotting, Western Cadmium Cadmium - adverse effects Cell Division Cell growth Cell Line Cell lines Chemical hazards Cultured cells Dosage Dose-Response Relationship, Drug Environmental pollution Epithelial cells Epithelial Cells - drug effects Epithelial Cells - physiology Heat shock proteins Heat-Shock Proteins - biosynthesis HSP72 Heat-Shock Proteins Humans Lung - drug effects Lung - physiology Time Factors
title	Pattern of Stress Protein Expression in Human Lung Cell-Line A549 after Short- or Long-Term Exposure to Cadmium
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