Inflammation-associated gene transcription and expression in mouse lungs induced by low molecular weight compounds from fungi from the built environment

Few metabolites from fungi found indoors have been tested for inflammatory mediators endpoints in primary cultures of alveolar macrophages or in vivo. In this study, mice were intratracheally instilled with a single dose comprising 4 × 10 −5 mole toxin/kg lung wt dose of either atranone C, brevianam...

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Veröffentlicht in:	Chemico-biological interactions 2010-01, Vol.183 (1), p.113-124
Hauptverfasser:	Miller, J.D., Sun, M., Gilyan, A., Roy, J., Rand, T.G.
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Sprache:	eng
Schlagworte:	(RT)-PCR arrays Air Pollution, Indoor - analysis Alkaloids - toxicity Animals Atranones Benzofurans - toxicity Brevianamide Chemokine CXCL2 - genetics Chemokine CXCL2 - metabolism Cladosporin Cluster Analysis Fungi Fungi - chemistry Gene Expression Profiling Inflammation Mediators - metabolism Inflammation-associated genes Isocoumarins - toxicity Isoquinolines - toxicity Lung - metabolism Lung - pathology Macrophages, Alveolar - metabolism Male Mice Mouse lungs Mycophenolic acid Mycophenolic Acid - toxicity Mycotoxins - toxicity Neoechinulins Piperazines - toxicity Sterigmatocystin Sterigmatocystin - toxicity TMC-120A Transcription, Genetic Tumor Necrosis Factor-alpha - genetics Tumor Necrosis Factor-alpha - metabolism
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description	Few metabolites from fungi found indoors have been tested for inflammatory mediators endpoints in primary cultures of alveolar macrophages or in vivo. In this study, mice were intratracheally instilled with a single dose comprising 4 × 10 −5 mole toxin/kg lung wt dose of either atranone C, brevianamide, cladosporin, mycophenolic acid, neoechinulin A & B, sterigmatocystin or TMC-120A. These toxins are from fungi common on damp building materials. The dose used was comparable to the estimated doses of possible human exposure. Hematoxylin and eosin (H&E) histology and Alcian Blue/Periodic Acid Schiff (AB/PAS) histochemistry were used to evaluate lungs for time course (4 h and 12 h post-exposure (PE)) inflammatory and toxic changes. Reverse-transcription (RT)-PCR based arrays were also employed to evaluate time course inflammation-associated gene transcription in lung tissues of the different toxins. Immunohistochemistry (IHC) was used to probe MIP-2 and Tnf-α protein expression in treatment lungs to determine whether responses correspond with gene transcription data. Both histology and histochemistry revealed that toxin exposed lungs at 12 h PE showed evidence of inflammation. H&E revealed that bronchioli were lined with irregularly thickened and sometimes sloughing epithelium and bronchiolar spaces supported infiltration of leukocytes, cellular and mucus-like debris while alveolar spaces supported swollen macrophages and modest amorphous debris accumulations. All toxin-instilled lungs exhibited copious mucus production and alveolar macrophages with red stained cytoplasm on bronchiolar surfaces, especially at 12 h PE. Array analysis of 83 inflammation-associated genes extracted from lung tissue demonstrated a number of patterns, compared to controls. 82 genes assayed at 4 h PE and 75 genes at 12 h PE were significantly altered ( p ≤ 0.05; ≥1.5-fold or ≤−1.5-fold change) in the different treatment animal groups. Expression of transcriptionally regulated genes was confirmed using immunohistochemistry that demonstrated MIP-2 and Tnf-α staining in respiratory bronchiolar epithelia, alveolar macrophages and alveolar type II cells. The transcriptional regulation in these genes in the treatment groups suggests that they may serve central roles in the immunomodulation of toxin-induced pro-inflammatory lung responses. Hierarchical cluster analysis revealed significant patterns of gene transcription linking the response of the toxins at equimolar doses in three groups:
doi_str_mv	10.1016/j.cbi.2009.09.023
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In this study, mice were intratracheally instilled with a single dose comprising 4 × 10 −5 mole toxin/kg lung wt dose of either atranone C, brevianamide, cladosporin, mycophenolic acid, neoechinulin A & B, sterigmatocystin or TMC-120A. These toxins are from fungi common on damp building materials. The dose used was comparable to the estimated doses of possible human exposure. Hematoxylin and eosin (H&E) histology and Alcian Blue/Periodic Acid Schiff (AB/PAS) histochemistry were used to evaluate lungs for time course (4 h and 12 h post-exposure (PE)) inflammatory and toxic changes. Reverse-transcription (RT)-PCR based arrays were also employed to evaluate time course inflammation-associated gene transcription in lung tissues of the different toxins. Immunohistochemistry (IHC) was used to probe MIP-2 and Tnf-α protein expression in treatment lungs to determine whether responses correspond with gene transcription data. Both histology and histochemistry revealed that toxin exposed lungs at 12 h PE showed evidence of inflammation. H&E revealed that bronchioli were lined with irregularly thickened and sometimes sloughing epithelium and bronchiolar spaces supported infiltration of leukocytes, cellular and mucus-like debris while alveolar spaces supported swollen macrophages and modest amorphous debris accumulations. All toxin-instilled lungs exhibited copious mucus production and alveolar macrophages with red stained cytoplasm on bronchiolar surfaces, especially at 12 h PE. Array analysis of 83 inflammation-associated genes extracted from lung tissue demonstrated a number of patterns, compared to controls. 82 genes assayed at 4 h PE and 75 genes at 12 h PE were significantly altered ( p ≤ 0.05; ≥1.5-fold or ≤−1.5-fold change) in the different treatment animal groups. Expression of transcriptionally regulated genes was confirmed using immunohistochemistry that demonstrated MIP-2 and Tnf-α staining in respiratory bronchiolar epithelia, alveolar macrophages and alveolar type II cells. The transcriptional regulation in these genes in the treatment groups suggests that they may serve central roles in the immunomodulation of toxin-induced pro-inflammatory lung responses. Hierarchical cluster analysis revealed significant patterns of gene transcription linking the response of the toxins at equimolar doses in three groups: (1) brevianamide, mycophenolic acid and neoechinulin B, (2) neoechinulin A and sterigmatocystin, and (3) cladosporin, atranone C and TMC-120. The results further confirm the inflammatory nature of metabolites/toxins from such fungi can contribute to the development of non-allergenic respiratory health effects.</description><identifier>ISSN: 0009-2797</identifier><identifier>EISSN: 1872-7786</identifier><identifier>DOI: 10.1016/j.cbi.2009.09.023</identifier><identifier>PMID: 19818335</identifier><language>eng</language><publisher>Ireland: Elsevier Ireland Ltd</publisher><subject>(RT)-PCR arrays ; Air Pollution, Indoor - analysis ; Alkaloids - toxicity ; Animals ; Atranones ; Benzofurans - toxicity ; Brevianamide ; Chemokine CXCL2 - genetics ; Chemokine CXCL2 - metabolism ; Cladosporin ; Cluster Analysis ; Fungi ; Fungi - chemistry ; Gene Expression Profiling ; Inflammation Mediators - metabolism ; Inflammation-associated genes ; Isocoumarins - toxicity ; Isoquinolines - toxicity ; Lung - metabolism ; Lung - pathology ; Macrophages, Alveolar - metabolism ; Male ; Mice ; Mouse lungs ; Mycophenolic acid ; Mycophenolic Acid - toxicity ; Mycotoxins - toxicity ; Neoechinulins ; Piperazines - toxicity ; Sterigmatocystin ; Sterigmatocystin - toxicity ; TMC-120A ; Transcription, Genetic ; Tumor Necrosis Factor-alpha - genetics ; Tumor Necrosis Factor-alpha - metabolism</subject><ispartof>Chemico-biological interactions, 2010-01, Vol.183 (1), p.113-124</ispartof><rights>2009 Elsevier Ireland Ltd</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c449t-ac6513a20c3e3ce2252038381d87e9c59c0d2aa5d9dac99f21d56c97226947f43</citedby><cites>FETCH-LOGICAL-c449t-ac6513a20c3e3ce2252038381d87e9c59c0d2aa5d9dac99f21d56c97226947f43</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://dx.doi.org/10.1016/j.cbi.2009.09.023$$EHTML$$P50$$Gelsevier$$H</linktohtml><link.rule.ids>314,777,781,3537,27905,27906,45976</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/19818335$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Miller, J.D.</creatorcontrib><creatorcontrib>Sun, M.</creatorcontrib><creatorcontrib>Gilyan, A.</creatorcontrib><creatorcontrib>Roy, J.</creatorcontrib><creatorcontrib>Rand, T.G.</creatorcontrib><title>Inflammation-associated gene transcription and expression in mouse lungs induced by low molecular weight compounds from fungi from the built environment</title><title>Chemico-biological interactions</title><addtitle>Chem Biol Interact</addtitle><description>Few metabolites from fungi found indoors have been tested for inflammatory mediators endpoints in primary cultures of alveolar macrophages or in vivo. In this study, mice were intratracheally instilled with a single dose comprising 4 × 10 −5 mole toxin/kg lung wt dose of either atranone C, brevianamide, cladosporin, mycophenolic acid, neoechinulin A & B, sterigmatocystin or TMC-120A. These toxins are from fungi common on damp building materials. The dose used was comparable to the estimated doses of possible human exposure. Hematoxylin and eosin (H&E) histology and Alcian Blue/Periodic Acid Schiff (AB/PAS) histochemistry were used to evaluate lungs for time course (4 h and 12 h post-exposure (PE)) inflammatory and toxic changes. Reverse-transcription (RT)-PCR based arrays were also employed to evaluate time course inflammation-associated gene transcription in lung tissues of the different toxins. Immunohistochemistry (IHC) was used to probe MIP-2 and Tnf-α protein expression in treatment lungs to determine whether responses correspond with gene transcription data. Both histology and histochemistry revealed that toxin exposed lungs at 12 h PE showed evidence of inflammation. H&E revealed that bronchioli were lined with irregularly thickened and sometimes sloughing epithelium and bronchiolar spaces supported infiltration of leukocytes, cellular and mucus-like debris while alveolar spaces supported swollen macrophages and modest amorphous debris accumulations. All toxin-instilled lungs exhibited copious mucus production and alveolar macrophages with red stained cytoplasm on bronchiolar surfaces, especially at 12 h PE. Array analysis of 83 inflammation-associated genes extracted from lung tissue demonstrated a number of patterns, compared to controls. 82 genes assayed at 4 h PE and 75 genes at 12 h PE were significantly altered ( p ≤ 0.05; ≥1.5-fold or ≤−1.5-fold change) in the different treatment animal groups. Expression of transcriptionally regulated genes was confirmed using immunohistochemistry that demonstrated MIP-2 and Tnf-α staining in respiratory bronchiolar epithelia, alveolar macrophages and alveolar type II cells. The transcriptional regulation in these genes in the treatment groups suggests that they may serve central roles in the immunomodulation of toxin-induced pro-inflammatory lung responses. Hierarchical cluster analysis revealed significant patterns of gene transcription linking the response of the toxins at equimolar doses in three groups: (1) brevianamide, mycophenolic acid and neoechinulin B, (2) neoechinulin A and sterigmatocystin, and (3) cladosporin, atranone C and TMC-120. The results further confirm the inflammatory nature of metabolites/toxins from such fungi can contribute to the development of non-allergenic respiratory health effects.</description><subject>(RT)-PCR arrays</subject><subject>Air Pollution, Indoor - analysis</subject><subject>Alkaloids - toxicity</subject><subject>Animals</subject><subject>Atranones</subject><subject>Benzofurans - toxicity</subject><subject>Brevianamide</subject><subject>Chemokine CXCL2 - genetics</subject><subject>Chemokine CXCL2 - metabolism</subject><subject>Cladosporin</subject><subject>Cluster Analysis</subject><subject>Fungi</subject><subject>Fungi - chemistry</subject><subject>Gene Expression Profiling</subject><subject>Inflammation Mediators - metabolism</subject><subject>Inflammation-associated genes</subject><subject>Isocoumarins - toxicity</subject><subject>Isoquinolines - toxicity</subject><subject>Lung - metabolism</subject><subject>Lung - pathology</subject><subject>Macrophages, Alveolar - metabolism</subject><subject>Male</subject><subject>Mice</subject><subject>Mouse lungs</subject><subject>Mycophenolic acid</subject><subject>Mycophenolic Acid - toxicity</subject><subject>Mycotoxins - toxicity</subject><subject>Neoechinulins</subject><subject>Piperazines - toxicity</subject><subject>Sterigmatocystin</subject><subject>Sterigmatocystin - toxicity</subject><subject>TMC-120A</subject><subject>Transcription, Genetic</subject><subject>Tumor Necrosis Factor-alpha - genetics</subject><subject>Tumor Necrosis Factor-alpha - metabolism</subject><issn>0009-2797</issn><issn>1872-7786</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2010</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9UcuKFDEUDaI47egHuJGs3FWbR72CKxl8DAy40XVI39zqSZNKyiQ14_yJn2uKbnAnXEgO5wH3HkLecrbnjPcfTns4uL1gTO23EfIZ2fFxEM0wjP1zsmOVacSghivyKudThUy07CW54mrko5Tdjvy5DZM382yKi6ExOUdwpqClRwxISzIhQ3LLxlITLMXfS8KcN-gCneOakfo1HHOFdoVqPDxRHx8r5RFWbxJ9RHe8LxTivMQ12EynFGc6VZM7f8s90sPqfKEYHlyKYcZQXpMXk_EZ31zea_Lzy-cfN9-au-9fb28-3TXQtqo0BvqOSyMYSJSAQnSCyVGO3I4DKugUMCuM6ayyBpSaBLddD2oQolftMLXymrw_5y4p_loxFz27DOi9CVi304KLXrS9rEJ-FkKKOSec9JLcbNKT5kxvdeiTrnXorQ69jdg87y7h62FG-89xuX8VfDwLsK744DDpDA5DvaNLCEXb6P4T_xfK5Z8E</recordid><startdate>20100105</startdate><enddate>20100105</enddate><creator>Miller, J.D.</creator><creator>Sun, M.</creator><creator>Gilyan, A.</creator><creator>Roy, J.</creator><creator>Rand, T.G.</creator><general>Elsevier Ireland Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7T5</scope><scope>7T7</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>H94</scope><scope>M7N</scope><scope>P64</scope><scope>RC3</scope></search><sort><creationdate>20100105</creationdate><title>Inflammation-associated gene transcription and expression in mouse lungs induced by low molecular weight compounds from fungi from the built environment</title><author>Miller, J.D. ; Sun, M. ; Gilyan, A. ; Roy, J. ; Rand, T.G.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c449t-ac6513a20c3e3ce2252038381d87e9c59c0d2aa5d9dac99f21d56c97226947f43</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2010</creationdate><topic>(RT)-PCR arrays</topic><topic>Air Pollution, Indoor - analysis</topic><topic>Alkaloids - toxicity</topic><topic>Animals</topic><topic>Atranones</topic><topic>Benzofurans - toxicity</topic><topic>Brevianamide</topic><topic>Chemokine CXCL2 - genetics</topic><topic>Chemokine CXCL2 - metabolism</topic><topic>Cladosporin</topic><topic>Cluster Analysis</topic><topic>Fungi</topic><topic>Fungi - chemistry</topic><topic>Gene Expression Profiling</topic><topic>Inflammation Mediators - metabolism</topic><topic>Inflammation-associated genes</topic><topic>Isocoumarins - toxicity</topic><topic>Isoquinolines - toxicity</topic><topic>Lung - metabolism</topic><topic>Lung - pathology</topic><topic>Macrophages, Alveolar - metabolism</topic><topic>Male</topic><topic>Mice</topic><topic>Mouse lungs</topic><topic>Mycophenolic acid</topic><topic>Mycophenolic Acid - toxicity</topic><topic>Mycotoxins - toxicity</topic><topic>Neoechinulins</topic><topic>Piperazines - toxicity</topic><topic>Sterigmatocystin</topic><topic>Sterigmatocystin - toxicity</topic><topic>TMC-120A</topic><topic>Transcription, Genetic</topic><topic>Tumor Necrosis Factor-alpha - genetics</topic><topic>Tumor Necrosis Factor-alpha - metabolism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Miller, J.D.</creatorcontrib><creatorcontrib>Sun, M.</creatorcontrib><creatorcontrib>Gilyan, A.</creatorcontrib><creatorcontrib>Roy, J.</creatorcontrib><creatorcontrib>Rand, T.G.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Immunology Abstracts</collection><collection>Industrial and Applied Microbiology Abstracts (Microbiology A)</collection><collection>Technology Research Database</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Engineering Research Database</collection><collection>AIDS and Cancer Research Abstracts</collection><collection>Algology Mycology and Protozoology Abstracts (Microbiology C)</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>Genetics Abstracts</collection><jtitle>Chemico-biological interactions</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Miller, J.D.</au><au>Sun, M.</au><au>Gilyan, A.</au><au>Roy, J.</au><au>Rand, T.G.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Inflammation-associated gene transcription and expression in mouse lungs induced by low molecular weight compounds from fungi from the built environment</atitle><jtitle>Chemico-biological interactions</jtitle><addtitle>Chem Biol Interact</addtitle><date>2010-01-05</date><risdate>2010</risdate><volume>183</volume><issue>1</issue><spage>113</spage><epage>124</epage><pages>113-124</pages><issn>0009-2797</issn><eissn>1872-7786</eissn><abstract>Few metabolites from fungi found indoors have been tested for inflammatory mediators endpoints in primary cultures of alveolar macrophages or in vivo. In this study, mice were intratracheally instilled with a single dose comprising 4 × 10 −5 mole toxin/kg lung wt dose of either atranone C, brevianamide, cladosporin, mycophenolic acid, neoechinulin A & B, sterigmatocystin or TMC-120A. These toxins are from fungi common on damp building materials. The dose used was comparable to the estimated doses of possible human exposure. Hematoxylin and eosin (H&E) histology and Alcian Blue/Periodic Acid Schiff (AB/PAS) histochemistry were used to evaluate lungs for time course (4 h and 12 h post-exposure (PE)) inflammatory and toxic changes. Reverse-transcription (RT)-PCR based arrays were also employed to evaluate time course inflammation-associated gene transcription in lung tissues of the different toxins. Immunohistochemistry (IHC) was used to probe MIP-2 and Tnf-α protein expression in treatment lungs to determine whether responses correspond with gene transcription data. Both histology and histochemistry revealed that toxin exposed lungs at 12 h PE showed evidence of inflammation. H&E revealed that bronchioli were lined with irregularly thickened and sometimes sloughing epithelium and bronchiolar spaces supported infiltration of leukocytes, cellular and mucus-like debris while alveolar spaces supported swollen macrophages and modest amorphous debris accumulations. All toxin-instilled lungs exhibited copious mucus production and alveolar macrophages with red stained cytoplasm on bronchiolar surfaces, especially at 12 h PE. Array analysis of 83 inflammation-associated genes extracted from lung tissue demonstrated a number of patterns, compared to controls. 82 genes assayed at 4 h PE and 75 genes at 12 h PE were significantly altered ( p ≤ 0.05; ≥1.5-fold or ≤−1.5-fold change) in the different treatment animal groups. Expression of transcriptionally regulated genes was confirmed using immunohistochemistry that demonstrated MIP-2 and Tnf-α staining in respiratory bronchiolar epithelia, alveolar macrophages and alveolar type II cells. The transcriptional regulation in these genes in the treatment groups suggests that they may serve central roles in the immunomodulation of toxin-induced pro-inflammatory lung responses. Hierarchical cluster analysis revealed significant patterns of gene transcription linking the response of the toxins at equimolar doses in three groups: (1) brevianamide, mycophenolic acid and neoechinulin B, (2) neoechinulin A and sterigmatocystin, and (3) cladosporin, atranone C and TMC-120. The results further confirm the inflammatory nature of metabolites/toxins from such fungi can contribute to the development of non-allergenic respiratory health effects.</abstract><cop>Ireland</cop><pub>Elsevier Ireland Ltd</pub><pmid>19818335</pmid><doi>10.1016/j.cbi.2009.09.023</doi><tpages>12</tpages></addata></record>
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subjects	(RT)-PCR arrays Air Pollution, Indoor - analysis Alkaloids - toxicity Animals Atranones Benzofurans - toxicity Brevianamide Chemokine CXCL2 - genetics Chemokine CXCL2 - metabolism Cladosporin Cluster Analysis Fungi Fungi - chemistry Gene Expression Profiling Inflammation Mediators - metabolism Inflammation-associated genes Isocoumarins - toxicity Isoquinolines - toxicity Lung - metabolism Lung - pathology Macrophages, Alveolar - metabolism Male Mice Mouse lungs Mycophenolic acid Mycophenolic Acid - toxicity Mycotoxins - toxicity Neoechinulins Piperazines - toxicity Sterigmatocystin Sterigmatocystin - toxicity TMC-120A Transcription, Genetic Tumor Necrosis Factor-alpha - genetics Tumor Necrosis Factor-alpha - metabolism
title	Inflammation-associated gene transcription and expression in mouse lungs induced by low molecular weight compounds from fungi from the built environment
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