Chronic arsenic poisoning from burning high-arsenic-containing coal in Guizhou, China.

Liu, Jie; Zheng, Bo; Aposhian, H. Vasken; Zhou, Yuhang; Chen, Mingliang; Zhang, Aihua; Waalkes, Michael P.

doi:10.1289/ehp.02110119

Cited by 226 publications

(87 citation statements)

References 15 publications

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“…Although it was not possible to discriminate between As (K α ) and Pb (L α ) in this study, the existence of both elements, which has been identified as hazardous air pollutants, was already found in raw coal. Liu et al (2002) reported the health effects of arsenic exposure from burning coal which was burned inside the home in open pits for daily cooking and crop drying in China. Miller et al (1998) also detected Pb (12.8 ppm) in raw coal through the emissions testing in the pilot-scale combustor.…”

Section: Feed Coal Propertiesmentioning

confidence: 99%

Specification of Chemical Properties of Feed Coal and Bottom Ash Collected at a Coal-fired Power Plant

Ma¹,

Kim²,

Kim³

et al. 2010

ajae

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In order to offer a better understanding of air pollution of China as well as East Asia we attempted to characterize the chemical properties of the raw coal materials mined in China and their combusted bottom ashes generated from coal fired power plant. To this end, we measured the chemical characteristics of individual bottom ashes and feed coal fragments collected at a coal fired power generator which was operated with the raw coal dug at a coal mine in China. The chemical properties of these two sample types were determined by a synchrotron radiation X-ray fluorescence (SR-XRF) microprobe method. Through an application of such technique, it was possible to draw the 2D elemental maps in and/or on raw coal fragments and fired bottom ashes. The pulverized fine pieces of feed coal mainly consisted of mineral components such as Fe, Ca, Ti, Ca, and Si, while Fe was detected as overwhelming majority. The elemental mass of combusted bottom ash shows strong enrichment of many elements that exist naturally in coal. There were significant variations in chemical properties of ash-to-ash and fragment-tofragment. Although we were not able to clearly distinguish As and Pb peaks because of the folding in their X-ray energies, these two elements can be used as tracers of coal fire origin.

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Section: Feed Coal Propertiesmentioning

confidence: 99%

Specification of Chemical Properties of Feed Coal and Bottom Ash Collected at a Coal-fired Power Plant

Ma¹,

Kim²,

Kim³

et al. 2010

ajae

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“…According to the IARC, skin shows the strongest association between chronic arsenic exposure and cancer (IARC, 2004), and dermal manifestations such as hyperpigmentation and hyperkeratosis are diagnostic of chronic arsenicosis. Arsenical hyperkeratosis appears predominantly on the palms of the hands and soles of the feet (Liu et al, 2002). Two-dimensional gel electrophoresis has been applied in arsenic-related proteomic studies (Yu et al, 1993), but this method has the disadvantages of low reproducibility, poor representation of low abundant proteins, inaccurate quantification, high labor and time requirements, and inability to analyze the membrane and hydrophobic proteins (Abdallah et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Proteomic profiling reveals candidate markers for arsenic-induced skin keratosis

Guo

Tian

et al. 2016

Environmental Pollution

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a b s t r a c tProteomics technology is an attractive biomarker candidate discovery tool that can be applied to study large sets of biological molecules. To identify novel biomarkers and molecular targets in arsenic-induced skin lesions, we have determined the protein profile of arsenic-affected human epidermal stratum corneum by shotgun proteomics. Samples of palm and foot sole from healthy subjects were analyzed, demonstrating similar protein patterns in palm and sole. Samples were collected from the palms of subjects with arsenic keratosis (lesional and adjacent non-lesional samples) and arsenic-exposed subjects without lesions (normal). Samples from non-exposed healthy individuals served as controls. We found that three proteins in arsenic-exposed lesional epidermis were consistently distinguishably expressed from the unaffected epidermis. One of these proteins, the cadherin-like transmembrane glycoprotein, desmoglein 1 (DSG1) was suppressed. Down-regulation of DSG1 may lead to reduced cellcell adhesion, resulting in abnormal epidermal differentiation. The expression of keratin 6c (KRT6C) and fatty acid binding protein 5 (FABP5) were significantly increased. FABP5 is an intracellular lipid chaperone that plays an essential role in fatty acid metabolism in human skin. This raises a possibility that overexpression of FABP5 may affect the proliferation or differentiation of keratinocytes by altering lipid metabolism. KRT6C is a constituent of the cytoskeleton that maintains epidermal integrity and cohesion. Abnormal expression of KRT6C may affect its structural role in the epidermis. Our findings suggest an important approach for future studies of arsenic-mediated toxicity and skin cancer, where certain proteins may represent useful biomarkers of early diagnoses in high-risk populations and hopefully new treatment targets. Further studies are required to understand the biological role of these markers in skin pathogenesis from arsenic exposure.

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“…Oral exposure (in drinking water or food) or inhalation exposure (burning arsenic-containing coal) to inorganic arsenic impairs multi-organ (skin, liver, lung, kidney, and brain) function and eventually induces cancers in humans (Bates et al, 1992;Chen et al, 1988Chen et al, , 1992Chiou et al, 1995Chiou et al, , 2001IARC, 1987;Liu et al, 2002;NCR, 1999). In the inorganic arsenic compounds, arsenic exists either in trivalent (arsenite) or pentavalent form (arsenate), and inorganic pentavalent arsenic is the main form of contaminated drinking water in an endemic area of chronic arsenicism in China (Chiou et al, 2001;Pi et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

Subchronic Exposure to Arsenic Through Drinking Water Alters Expression of Cancer-Related Genes in Rat Liver

et al. 2004

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Although arsenic exposure causes liver disease and/or hepatoma, little is known about molecular mechanisms of arsenic-induced liver toxicity or carcinogenesis. We investigated the effects of arsenic on expression of cancer-related genes in a rat liver following subchronic exposure to sodium arsenate (1, 10, 100 ppm in drinking water), by using real-time quantitative RT-PCR and immunohistochemical analyses. Arsenic accumulated in the rat liver dose-dependently and caused hepatic histopathological changes, such as disruption of hepatic cords, sinusoidal dilation, and fatty infiltration. A 1-month exposure to arsenic significantly increased hepatic mRNA levels of cyclin D1 (10 ppm), ILK (1 ppm), and p27 Kip1 (10 ppm), whereas it reduced mRNA levels of PTEN (1 ppm) and β-catenin (100 ppm). In contrast, a 4-month arsenic exposure showed increased mRNA expression of cyclin D1 (100 ppm), ILK (1 ppm), and p27 Kip1 (1 and 10 ppm), and decreased expression of both PTEN and β-catenin at all 3 doses. An immunohistochemical study revealed that each protein expression accords closely with each gene expression of mRNA level. In conclusion, subchronic exposure to inorganic arsenate caused pathological changes and altered expression of cyclin D1, p27 Kip1 , ILK, PTEN, and β-catenin in the liver. This implies that arsenic liver toxicity involves disturbances of some cancer-related molecules.

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Chronic arsenic poisoning from burning high-arsenic-containing coal in Guizhou, China.

Cited by 226 publications

References 15 publications

Specification of Chemical Properties of Feed Coal and Bottom Ash Collected at a Coal-fired Power Plant

Specification of Chemical Properties of Feed Coal and Bottom Ash Collected at a Coal-fired Power Plant

Proteomic profiling reveals candidate markers for arsenic-induced skin keratosis

Subchronic Exposure to Arsenic Through Drinking Water Alters Expression of Cancer-Related Genes in Rat Liver

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