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Effect of liner and core materials of plasterboard on microbial growth, spore-induced inflammatory responses, and cytotoxicity in macrophages

Murtoniemi, T., Nevalainen, A., Suutari, M. and Hirvonen, M.
2002
Inhalation Toxicology, 14(11): 1087 - 1101

Murtoniemi, T., Nevalainen, A., Suutari, M. and Hirvonen, M., (2002), "Effect of liner and core materials of plasterboard on microbial growth, spore-induced inflammatory responses, and cytotoxicity in macrophages", Inhalation Toxicology, 14(11): 1087 - 1101.
Abstract:
Microorganisms, when grown on wetted plasterboards, can produce bioactive compounds capable of inducing inflammatory and toxic reactions in mammalian cells. The paper liner of plasterboard is commonly regarded as the major substrate for microbial growth. In this study, we cultured Stachybotrys chartarum, Aspergillus versicolor, Penicillium spinulosum, and Streptomyces californicus on liners and cores of plasterboards in order to examine the role of these main plasterboard components on microbial growth and the resulting bioactivity, which was assessed as the ability of microbial spores to induce inflammatory responses and to evoke cytotoxicity in mouse macrophages. The microbes, isolated from mold problem buildings, were grown under saturated humidity conditions on wetted liners and cores of six different plasterboards. The spores were collected, applied to RAW264.7 macrophages at different doses, and evaluated 24 h after exposure for their ability to evoke cytotoxicity and to stimulate production of nitric oxide (NO), tumor necrosis factor alpha (TNFf), and interleukin-6 (IL-6) . In general, microbial growth was better on the cores than on the liners. All of the studied microbes collected from cores induced a dose-dependent production of TNFf in macrophages. The TNFf production stimulated by spores of Stachybotrys, Aspergillus, and Streptomyces paralleled their cytotoxicity. Spores of Streptomyces and Aspergillus collected from liners were among the most potent inducers of NO and IL-6. Good growth of Stachybotrys on cores was associated with high cytotoxicity. Penicillium grew only on cores, but it did not induce major inflammatory mediator productions, nor was it significantly cytotoxic. These results indicate that previously reported microbial growth on plasterboards and spore-induced production of important inflammatory mediators and cell death in macrophages is not only due to the paper liner of plasterboard, but the core material also has a crucial role.

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Author Information and Other Publications Notes
Murtoniemi, T.
National Public Health Institute, Department of Environmental Health, Kuopio, Finland
  1. Induction of Cytotoxicity and Production of Inflammatory Mediators in RAW264.7 Macrophages by Spores Grown on Six Different Plasterboards  
Nevalainen, A.
Laboratory of Environmental Microbiology, National Public Health Institute, Kuopio, Finland, and Department of Health Evaluation Sciences, Penn State College of Medicine, Hershey, Pennsylvania, USA
  1. An approach to management of critical indoor air problems in school buildings
  2. Analysis of moisture findings in the interior spaces of Finnish housing stock
  3. Comparison of concentrations and size distributions of fungal spores in buildings with and without mould problems
  4. Comparison of two-level and three-level classifications of moisture-damaged dwellings in relation to health effects
  5. Control of exposure to airborne viable microorganisms during remediation of moldy buildings; report of three case studies
  6. Effect of building frame and moisture damage on microbiological indoor air quality in school buildings
  7. Effect of growth medium on potential of Streptomyces anulatus spores to induce inflammatory responses and cytotoxicity in RAW264.7 macrophages
  8. Effect of indoor sources on fungal spore concentrations and size distributions
  9. Everyday activities and variation of fungal spore concentrations in indoor air
  10. Fungal spores as such do not cause nasal inflammation in mold exposure
  11. Fungi and actinobacteria in moisture-damaged building materials - concentrations and diversity
  12. Indoor air microbes and respiratory symptoms of children in moisture damaged and reference schools
  13. Induction of Cytotoxicity and Production of Inflammatory Mediators in RAW264.7 Macrophages by Spores Grown on Six Different Plasterboards
  14. Inlet sampling efficiency of bioaerosol samplers
  15. Knowledge-based and statistically modeled relationships between residential moisture damage and occupant reported health symptoms
  16. Microbes and moisture content of materials from damaged building
  17. Moisture, mold and health in apartment homes
  18. Performance of bioaerosol samplers: collection characteristics and sampler design considerations
  19. Personal exposures and microenvironmental concentrations of particles and bioaerosols
  20. Size distributions of airborne microbes in moisture-damaged and reference school buildings of two construction types
  21. Skin-prick test findings in students from moisture- and mould-damaged schools: A 3-year follow-up study
  22. Temporal and spatial variation of fungal concentrations in indoor air
  23. The relationship between moisture or mould observations in houses and the state of health of their occupants
  24. Validity of detection of microbial growth in buildings by trained dogs  
Suutari, M.
National Public Health Institute, Department of Environmental Health, Kuopio, Finland
  1. Effect of growth medium on potential of Streptomyces anulatus spores to induce inflammatory responses and cytotoxicity in RAW264.7 macrophages
  2. Induction of Cytotoxicity and Production of Inflammatory Mediators in RAW264.7 Macrophages by Spores Grown on Six Different Plasterboards  
Hirvonen, M.
Laboratory of Toxicology, National Public Health Institute, Kuopio, Finland
  1. Effect of growth medium on potential of Streptomyces anulatus spores to induce inflammatory responses and cytotoxicity in RAW264.7 macrophages
  2. Fungal spores as such do not cause nasal inflammation in mold exposure
  3. Induction of Cytotoxicity and Production of Inflammatory Mediators in RAW264.7 Macrophages by Spores Grown on Six Different Plasterboards
  4. Inflammatory potential of the spores of Penicillium spinulosum isolated from indoor air of a moisture-damaged building in mouse lungs  


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