Effect of Iron Binding on the Ability of Crocidolite to Cause DNA Single-Strand Breaks

Hardy, Jeanne Ann

01 May 1994

Fibrous carcinogens, such as crocidolite asbestos, are known to catalyze many of the same reactions as iron, namely 0_2 consumption, generation of reduced oxygen species, and damage to DNA, such as strand breaks, and modifications of bases. Upon inhalation, fibers are also known to become coated with an iron-rich material. The mechanism by which this iron is bound to fibers in the lung is not known, and the effect of this additional iron on the reactivity of the fibers is also not well understood. The studies described here were undertaken to elucidate the abilities of crocidolite asbestos, in its native, soaked, and iron depleted forms, as well as three varieties of silicon carbide whiskers, to acquire reactive iron on their surfaces. The aim has been to quantitate the amount of iron that can bind in short periods of time, and to measure any changes in biochemical reactivity toward DNA following binding of iron. All forms of the naturally occurring mineral fiber crocidolite, and the man-made mineral fibers (silicon carbide whiskers), were capable of acquiring iron, to varying degrees. Native crocidolite was able to bind up to 57 nmol Fe+ 2/mg crocidolite in one hour, while the iron-depleted form was capable of binding only 5. 5 nmol Fe+ 2/mg crocidolite, and the three varieties of silicon carbide whiskers bound from 2.9 to 29.0 nmol Fe+ 2/mg in the same time period. Following iron binding, the fibers were more capable of forming DNA single-strand breaks. The increase in the ability of the fibers to cause DNA strand breaks was greatest with the silicon carbide whiskers, less with iron depleted crocidolite, and the least with native crocidolite, which is likely because of the inherently high iron content of native crocidolite. Other investigation attempted to determine whether iron could be bound from more complex, physiologically relevant iron-containing solutions where potential iron chelators are abundant. Iron appeared to be acquired even from such complex mixtures as tissue culture media. Following incubation in media, the fibers were more active in catalyzing the formation of DNA strand breaks. An interesting correlation was noted between the abilities of the fibers to cause DNA strand breaks after incubation in tissue culture media and the cytotoxicity of crocidolite to A549 cells grown in the same media.

iron

crocidolite

dna

strand

breaks

Chemistry

Molecular Investigations of the Epidermal Growth Factor Receptor and Its Affinity Toward Asbestos

Taylor, Eric S.

05 January 2012

No description available.

Biochemistry

Biophysics

Toxicology

asbestos

crocidolite

AFM

EGFR

MD

The health outcomes of women exposed to blue asbestos at Wittenoom

Reid, Alison

January 2008

[Truncated abstract] This thesis examines the health outcomes of women exposed to blue asbestos at Wittenoom, Western Australia. Blue asbestos was mined and milled from 1943 to 1966 by the Australian Blue Asbestos Company (ABA) at Wittenoom, 1,600km from Perth in the remote Pilbara region of Western Australia. The original work for this thesis is presented in six manuscripts, some of which have been published in peer-reviewed Journals. The following aims have been investigated. 1. (a) To compare the all-cause mortality rates of women who lived at Wittenoom compared with all-cause mortality rates of the Western Australian female population (b) To assess the exposure-response relationship between asbestos and mortality in women. 2. (a) To compare the incidence rates of common cancers in women who lived at Wittenoom, compared with the incidence rates of these cancers in the Western Australian female population. (b) To assess the exposure-response relationship between asbestos and cancer incidence at various sites in women. 3. (a) To determine if reproductive cancers (ovarian, uterine cervical and corpus and breast) and gestational trophoblastic diseases are associated with asbestos exposure. v (b) To determine if ovarian cancer has been misclassified as malignant peritoneal mesothelioma or vice versa. (c) To determine if colon cancer has been misclassified as malignant peritoneal mesothelioma or vice versa. (d) To assess the exposure-response relationship between asbestos and reproductive cancer incidence. 4. To assess the susceptibility of women to asbestos exposure in comparison with men with similar exposure histories. 5. To predict the future mortality from malignant mesothelioma among women who lived at Wittenoom. '...' The Wittenoom crocidolite industry has had a damaging impact upon the health of the women workers and residents who lived there. Wittenoom women are more likely to die from malignant mesothelioma and lung cancer, all cancers and all causes than women in the Western Australian population. This brief period of crocidolite mining in Western Australia's history will continue to exert a detrimental impact upon the future of the women who lived there, with another 66 to 87 mesotheliomas predicted to occur to the end of 2030.

Asbestos -- Adverse effects

Crocidolite

Resposta comparativa pleural \"in vivo\" e do mesotélio \"in vitro\" à exposição por diferentes fibras de asbesto / Comparison of in vivo pleural response and in vitro mesothelial response to different asbestos fibers

Acencio, Milena Marques Pagliarelli

11 December 2006

Os produtos derivados de asbesto são amplamente utilizados pelo setor industrial, sendo descritas diversas doenças relacionadas à sua exposição, entre elas, o tumor primário da pleura, ou mesotelioma. O mecanismo fisiopatológico da lesão pelas fibras de asbesto no espaço pleural ainda não está totalmente estabelecido. Entre os fatores possivelmente implicados estão os efeitos provocados por uma resposta inflamatória com migração celular e liberação de mediadores moleculares levando à necrose, apoptose e alterações na proliferação e fibrogênese. No entanto, existem dificuldades no estudo da resposta in vivo ao asbesto, principalmente em virtude da população multicelular da cavidade pleural. Neste sentido, tem sido preconizado na literatura o estudo envolvendo animais geneticamente modificados ou selecionados, a fim de melhor compreender o papel das diversas populações envolvidas neste processo. Neste trabalho, tivemos como objetivo estudar comparativamente a resposta inflamatória aguda no líquido pleural e em células mesoteliais em cultura expostas a diferentes fibras de asbesto. Para tanto, animais controle e geneticamente selecionados para alta (AIR max) e baixa (AIR min) resposta inflamatória, e células mesoteliais em cultura foram expostas às fibras de asbesto crocidolita ou crisotila. Após 4, 24 ou 48 horas foram avaliadas a produção das citocinas IL-1b, IL-6 e MIP-2. Adicionalmente, no modelo in vivo foi avaliado o perfil celular do líquido pleural e a expressão do Ra PDGF em RESUMO fragmentos de pleura, e no modelo in vitro a resposta celular de apoptose e necrose. Como resultados, as fibras de asbesto crocidolita e crisotila produziram, em animais AIR max, uma elevação significativa no líquido pleural de leucócitos, neutrófilos e da IL-1b em comparação aos controles e aos animais AIR min. Entretanto, não houve diferença no número de macrófagos, IL-6 e MIP-2. As células mesoteliais em cultura expostas tanto às fibras crocidolita quanto crisotila apresentaram elevados índices de apoptose e necrose e da produção das citocinas IL-1b, IL-6 e MIP-2 quando comparadas aos controles. Houve forte correlação das citocinas MIP-2 e IL-1b em cultura com os níveis no líquido pleural para ambas as fibras estudadas. Foi demonstrado, para ambas as fibras, uma forte expressão do Ra PDGF na superfície pleural tanto nos animais com alta quanto com baixa resposta inflamatória quando comparado aos controles. Como conclusão, caracterizamos o perfil da resposta inflamatória aguda a diferentes fibras de asbesto em modelos experimentais in vivo e in vitro, contribuindo para a melhor compreensão do mecanismo de agressão celular secundário a este material de uso comercial tão freqüente. / Asbestos-derived products are used thoroughly by industry. Several diseases related to asbestos exposition have been described, among them the primary tumor of the pleura mesothelioma. The mechanisms by which asbestos fibers produce injury to the pleural space are not clear. Among the factors possibly implicated are the effects secondary to an inflammatory response characterized by cellular migration and the release of molecular mediators leading to necrosis, apoptosis, cellular proliferation and fibrogenesis. However, it is difficulty to characterize the cellular response in vivo, mainly by virtue of the multi-cellular population present into the pleural cavity. Therefore, studies involving animals genetically modified or genetically selected have been proposed in the literature, in order to better understand the role of the several cellular populations involved in this complex process. In this study, our objective was to determine the inflammatory response of the pleural fluid and compare to the response of cultured mesothelial cells exposed to different asbestos fibers. Controls and mice genetically selected for high (AIR max) or low (AIR min) inflammatory response as well as mice cultured mesothelial cells were treated to crocidolite or chrysotile asbestos fibers. After 4, 24 or 48 hours the production of the cytokines IL-1b, IL-6 and MIP-2 were analyzed. In addition, the in vivo cellular profile of the pleural fluid and the Ra PDGF expression in the pleura fragments was documented. In parallel, the in vitro mesothelial cellular response of apoptosis and necrosis was quantified. Both asbestos fibers produced in AIR max mice a significant elevation in the pleural fluid total leukocytes, neutrophils and IL-1b levels in comparison to the controls and AIR min animals. However, no difference was found in the macrophage number, IL-6 and MIP-2 levels. Cultured mesothelial cells had a high apoptosis, necrosis, IL-1b, IL-6 and MIP-2 levels in comparison to the controls when exposed to either crocidolite or chrysotile. MIP-2 and IL-1b levels in cultured mesothelial cells strongly correlated with the levels of the pleural fluid for both fibers. In addition, a pronounced expression of Ra PDGF in the pleural surface was demonstrated in both high and low inflammatory selected mice when compared to the controls. In conclusion, we characterized the acute inflammatory response to the asbestos fibers crocidolite and chrysotile in an in vivo and in vitro experimental model, aiming to contribute to better understand the mechanism of cellular aggression secondary to this particulate material of such frequent commercial use.

Amianto crocidolita

Amiantos serpentinas

Animal models

Apoptose

Apoptosis

Crocidolite asbestos

Inflamação

Inflammation

Mesotelioma

Mesothelioma

Modelos animais

Serpentine asbestos

Resposta comparativa pleural \"in vivo\" e do mesotélio \"in vitro\" à exposição por diferentes fibras de asbesto / Comparison of in vivo pleural response and in vitro mesothelial response to different asbestos fibers

Milena Marques Pagliarelli Acencio

11 December 2006

Os produtos derivados de asbesto são amplamente utilizados pelo setor industrial, sendo descritas diversas doenças relacionadas à sua exposição, entre elas, o tumor primário da pleura, ou mesotelioma. O mecanismo fisiopatológico da lesão pelas fibras de asbesto no espaço pleural ainda não está totalmente estabelecido. Entre os fatores possivelmente implicados estão os efeitos provocados por uma resposta inflamatória com migração celular e liberação de mediadores moleculares levando à necrose, apoptose e alterações na proliferação e fibrogênese. No entanto, existem dificuldades no estudo da resposta in vivo ao asbesto, principalmente em virtude da população multicelular da cavidade pleural. Neste sentido, tem sido preconizado na literatura o estudo envolvendo animais geneticamente modificados ou selecionados, a fim de melhor compreender o papel das diversas populações envolvidas neste processo. Neste trabalho, tivemos como objetivo estudar comparativamente a resposta inflamatória aguda no líquido pleural e em células mesoteliais em cultura expostas a diferentes fibras de asbesto. Para tanto, animais controle e geneticamente selecionados para alta (AIR max) e baixa (AIR min) resposta inflamatória, e células mesoteliais em cultura foram expostas às fibras de asbesto crocidolita ou crisotila. Após 4, 24 ou 48 horas foram avaliadas a produção das citocinas IL-1b, IL-6 e MIP-2. Adicionalmente, no modelo in vivo foi avaliado o perfil celular do líquido pleural e a expressão do Ra PDGF em RESUMO fragmentos de pleura, e no modelo in vitro a resposta celular de apoptose e necrose. Como resultados, as fibras de asbesto crocidolita e crisotila produziram, em animais AIR max, uma elevação significativa no líquido pleural de leucócitos, neutrófilos e da IL-1b em comparação aos controles e aos animais AIR min. Entretanto, não houve diferença no número de macrófagos, IL-6 e MIP-2. As células mesoteliais em cultura expostas tanto às fibras crocidolita quanto crisotila apresentaram elevados índices de apoptose e necrose e da produção das citocinas IL-1b, IL-6 e MIP-2 quando comparadas aos controles. Houve forte correlação das citocinas MIP-2 e IL-1b em cultura com os níveis no líquido pleural para ambas as fibras estudadas. Foi demonstrado, para ambas as fibras, uma forte expressão do Ra PDGF na superfície pleural tanto nos animais com alta quanto com baixa resposta inflamatória quando comparado aos controles. Como conclusão, caracterizamos o perfil da resposta inflamatória aguda a diferentes fibras de asbesto em modelos experimentais in vivo e in vitro, contribuindo para a melhor compreensão do mecanismo de agressão celular secundário a este material de uso comercial tão freqüente. / Asbestos-derived products are used thoroughly by industry. Several diseases related to asbestos exposition have been described, among them the primary tumor of the pleura mesothelioma. The mechanisms by which asbestos fibers produce injury to the pleural space are not clear. Among the factors possibly implicated are the effects secondary to an inflammatory response characterized by cellular migration and the release of molecular mediators leading to necrosis, apoptosis, cellular proliferation and fibrogenesis. However, it is difficulty to characterize the cellular response in vivo, mainly by virtue of the multi-cellular population present into the pleural cavity. Therefore, studies involving animals genetically modified or genetically selected have been proposed in the literature, in order to better understand the role of the several cellular populations involved in this complex process. In this study, our objective was to determine the inflammatory response of the pleural fluid and compare to the response of cultured mesothelial cells exposed to different asbestos fibers. Controls and mice genetically selected for high (AIR max) or low (AIR min) inflammatory response as well as mice cultured mesothelial cells were treated to crocidolite or chrysotile asbestos fibers. After 4, 24 or 48 hours the production of the cytokines IL-1b, IL-6 and MIP-2 were analyzed. In addition, the in vivo cellular profile of the pleural fluid and the Ra PDGF expression in the pleura fragments was documented. In parallel, the in vitro mesothelial cellular response of apoptosis and necrosis was quantified. Both asbestos fibers produced in AIR max mice a significant elevation in the pleural fluid total leukocytes, neutrophils and IL-1b levels in comparison to the controls and AIR min animals. However, no difference was found in the macrophage number, IL-6 and MIP-2 levels. Cultured mesothelial cells had a high apoptosis, necrosis, IL-1b, IL-6 and MIP-2 levels in comparison to the controls when exposed to either crocidolite or chrysotile. MIP-2 and IL-1b levels in cultured mesothelial cells strongly correlated with the levels of the pleural fluid for both fibers. In addition, a pronounced expression of Ra PDGF in the pleural surface was demonstrated in both high and low inflammatory selected mice when compared to the controls. In conclusion, we characterized the acute inflammatory response to the asbestos fibers crocidolite and chrysotile in an in vivo and in vitro experimental model, aiming to contribute to better understand the mechanism of cellular aggression secondary to this particulate material of such frequent commercial use.

Amianto crocidolita

Amiantos serpentinas

Apoptose

Inflamação

Mesotelioma

Modelos animais

Animal models

Apoptosis

Crocidolite asbestos

Inflammation

Mesothelioma

Serpentine asbestos

The crocidolite deposits of the Northern Cape Province

Hanekom, Hermanus Johannes

27 October 2010

Please read the abstract in the section 00front of this document / Thesis (DSc)--University of Pretoria, 1966. / Geology / unrestricted

Cape asbestos field

Lower griquatown stage pretoria series

Geology southern region

Geology northern region

Banded ironstone

Crocidolite deposits northen cape

Amphibole asbestos

Volcanism lower griqua stage

UCTD