Your search keyword '"Luoping Zhang"' showing total 124 results

1. Epigenome-wide association studies of occupational exposure to benzene and formaldehyde

Author

Rachael V. Phillips, Linqing Wei, Andres Cardenas, Alan E. Hubbard, Cliona M. McHale, Roel Vermeulen, Hu Wei, Martyn T. Smith, Luoping Zhang, Qing Lan, and Nathaniel Rothman

Subjects

benzene, formaldehyde, dna methylation, epigenome-wide association study (ewas), epigenetics, occupational exposure, leukaemia, human, Genetics, QH426-470

Abstract

Sufficient evidence supports a relationship between certain myeloid neoplasms and exposure to benzene or formaldehyde. DNA methylation could underlie benzene- and formaldehyde-induced health outcomes, but data in exposed human populations are limited. We conducted two cross-sectional epigenome-wide association studies (EWAS), one in workers exposed to benzene and another in workers exposed to formaldehyde. Using HumanMethylation450 BeadChips, we investigated differences in blood cell DNA methylation among 50 benzene-exposed subjects and 48 controls, and among 31 formaldehyde-exposed subjects and 40 controls. We performed CpG-level and regional-level analyses. In the benzene EWAS, we found genome-wide significant alterations, i.e., FWER-controlled P-values

Published

2022

2. Nonlinear low dose hematotoxicity of benzene; a pooled analyses of two studies among Chinese exposed workers

Author

Roel Vermeulen, Qing Lan, Qingshan Qu, Martha S. Linet, Luoping Zhang, Guilan Li, Lutzen Portengen, Jelle Vlaanderen, Kim Sungkyoon, Richard B. Hayes, Songnian Yin, Martyn T. Smith, Stephen M. Rappaport, and Nathaniel Rothman

Subjects

Benzene, Hematotoxicity, Complete blood cell count, Exposure–response, Quantile-regression, Environmental sciences, GE1-350

Abstract

Background: Impairment of the hematopoietic system is one of the primary adverse health effects from exposure to benzene. We previously have shown that exposure to benzene at low levels (

Published

2023

3. Aging biomarkers on the spotlight: The editor's response to the author's letter

Author

Luoping Zhang

Subjects

Toxicology. Poisons, RA1190-1270, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Published

2023

4. Biomarkers of COVID-19 and technologies to combat SARS-CoV-2

Author

Luoping Zhang and Helen Guo

Subjects

Coronavirus, COVID, Detection, Diagnosis, Treatment, Prognosis, Toxicology. Poisons, RA1190-1270, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Abstract

Due to the unprecedented public health crisis caused by COVID-19, our first contribution to the newly launching journal, Advances in Biomarker Sciences and Technology, has abruptly diverted to focus on the current pandemic. As the number of new COVID-19 cases and deaths continue to rise steadily around the world, the common goal of healthcare providers, scientists, and government officials worldwide has been to identify the best way to detect the novel coronavirus, named SARS-CoV-2, and to treat the viral infection – COVID-19. Accurate detection, timely diagnosis, effective treatment, and future prevention are the vital keys to management of COVID-19, and can help curb the viral spread. Traditionally, biomarkers play a pivotal role in the early detection of disease etiology, diagnosis, treatment and prognosis. To assist myriad ongoing investigations and innovations, we developed this current article to overview known and emerging biomarkers for SARS-CoV-2 detection, COVID-19 diagnostics, treatment and prognosis, and ongoing work to identify and develop more biomarkers for new drugs and vaccines. Moreover, biomarkers of socio-psychological stress, the high-technology quest for new virtual drug screening, and digital applications are described.

Published

2020

5. Epigenetic aging biomarkers and occupational exposure to benzene, trichloroethylene and formaldehyde

Author

Lars van der Laan, Andres Cardenas, Roel Vermeulen, Raj P. Fadadu, Alan E. Hubbard, Rachael V. Phillips, Luoping Zhang, Charles Breeze, Wei Hu, Cuiju Wen, Yongshun Huang, Xiaojiang Tang, Martyn T. Smith, Nathaniel Rothman, and Qing Lan

Subjects

Epigenetic age, DNA methylation, Occupational health, Benzene, Formaldehyde, Trichloroethylene, Environmental sciences, GE1-350

Abstract

Epigenetic aging biomarkers are associated with increased morbidity and mortality. We evaluated if occupational exposure to three established chemical carcinogens is associated with acceleration of epigenetic aging. We studied workers in China occupationally exposed to benzene, trichloroethylene (TCE) or formaldehyde by measuring personal air exposures prior to blood collection. Unexposed controls matched by age and sex were selected from nearby factories. We measured leukocyte DNA methylation (DNAm) in peripheral white blood cells using the Infinium HumanMethylation450 BeadChip to calculate five epigenetic aging clocks and DNAmTL, a biomarker associated with leukocyte telomere length and cell replication. We tested associations between exposure intensity and epigenetic age acceleration (EAA), defined as the residuals of regressing the DNAm aging biomarker on chronological age, matching factors and potential confounders. Median differences in EAA between exposure groups were tested using a permutation test with exact p-values. Epigenetic clocks were strongly correlated with age (Spearman r > 0.8) in all three occupational studies. There was a positive exposure-response relationship between benzene and the Skin-Blood Clock EAA biomarker: median EAA was −0.91 years in controls (n = 44), 0.78 years in workers exposed to

Published

2022

6. Glyphosate-Based Herbicides and Risk for Haematological Malignancy in Exposed Humans: An updated overview

Author

Luoping Zhang

Subjects

Public aspects of medicine, RA1-1270

Published

2022

7. Human exposure to trichloroethylene is associated with increased variability of blood DNA methylation that is enriched in genes and pathways related to autoimmune disease and cancer

Author

Rachael V. Phillips, Linda Rieswijk, Alan E. Hubbard, Roel Vermeulen, Jinming Zhang, Wei Hu, Laiyu Li, Bryan A. Bassig, Jason Y.Y. Wong, Boris Reiss, Yongshun Huang, Cuiju Wen, Mark Purdue, Xiaojiang Tang, Luoping Zhang, Martyn T. Smith, Nathaniel Rothman, and Qing Lan

Subjects

tce, dna methylation, epigenome-wide association study (ewas), epigenetics, occupational exposure, epigenetic variability, autoimmune disease, Genetics, QH426-470

Abstract

Human exposure to trichloroethylene (TCE) is linked to kidney cancer, autoimmune diseases, and probably non-Hodgkin lymphoma. Additionally, TCE exposed mice and cell cultures show altered DNA methylation. To evaluate associations between TCE exposure and DNA methylation in humans, we conducted an epigenome-wide association study (EWAS) in TCE exposed workers using the HumanMethylation450 BeadChip. Across individual CpG probes, genomic regions, and globally (i.e., the 450K methylome), we investigated differences in mean DNA methylation and differences in variability of DNA methylation between 73 control (< 0.005 ppm TCE), 30 lower exposed (< 10 ppm TCE), and 37 higher exposed ($$ \ge $$ 10 ppm TCE) subjects’ white blood cells. We found that TCE exposure increased methylation variation globally (Kruskal-Wallis p-value = 3.75e-3) and in 25 CpG sites at a genome-wide significance level (Bonferroni p-value < 0.05). We identified a 609 basepair region in the TRIM68 gene promoter that exhibited hypomethylation with increased exposure to TCE (FWER = 1.20e-2). Also, genes that matched to differentially variable CpGs were enriched in the ‘focal adhesion’ biological pathway (p-value = 2.80e-2). All in all, human exposure to TCE was associated with epigenetic alterations in genes involved in cell-matrix adhesions and interferon subtype expression, which are important in the development of autoimmune diseases; and in genes related to cancer development. These results suggest that DNA methylation may play a role in the pathogenesis of TCE exposure-related diseases and that TCE exposure may contribute to epigenetic drift.

Published

2019

8. The evidence of human exposure to glyphosate: a review

Author

Christina Gillezeau, Maaike van Gerwen, Rachel M. Shaffer, Iemaan Rana, Luoping Zhang, Lianne Sheppard, and Emanuela Taioli

Subjects

Glyphosate, Round-up, Herbicides, Environmental carcinogens, Human biomonitoring, Exposure assessment, Industrial medicine. Industrial hygiene, RC963-969, Public aspects of medicine, RA1-1270

Abstract

Abstract Background Despite the growing and widespread use of glyphosate, a broad-spectrum herbicide and desiccant, very few studies have evaluated the extent and amount of human exposure. Objective We review documented levels of human exposure among workers in occupational settings and the general population. Methods We conducted a review of scientific publications on glyphosate levels in humans; 19 studies were identified, of which five investigated occupational exposure to glyphosate, 11 documented the exposure in general populations, and three reported on both. Results Eight studies reported urinary levels in 423 occupationally and para-occupationally exposed subjects; 14 studies reported glyphosate levels in various biofluids on 3298 subjects from the general population. Average urinary levels in occupationally exposed subjects varied from 0.26 to 73.5 μg/L; environmental exposure urinary levels ranged from 0.16 to 7.6 μg/L. Only two studies measured temporal trends in exposure, both of which show increasing proportions of individuals with detectable levels of glyphosate in their urine over time. Conclusions The current review highlights the paucity of data on glyphosate levels among individuals exposed occupationally, para-occupationally, or environmentally to the herbicide. As such, it is challenging to fully understand the extent of exposure overall and in vulnerable populations such as children. We recommend further work to evaluate exposure across populations and geographic regions, apportion the exposure sources (e.g., occupational, household use, food residues), and understand temporal trends.

Published

2019

9. Combined exposure to formaldehyde and PM2.5: Hematopoietic toxicity and molecular mechanism in mice

Author

Jing Ge, Honglian Yang, Xianxian Lu, Shenqi Wang, Yun Zhao, Jiawei Huang, Zhuge Xi, Luoping Zhang, and Rui Li

Subjects

PM2.5, Formaldehyde, Combined exposure, Hematopoietic toxicity, Molecular mechanism, Environmental sciences, GE1-350

Abstract

PM2.5 and formaldehyde (FA) are major outdoor and indoor air pollutants in China, respectively, and both are known to be harmful to human health and to be carcinogenic. Of all the known chronic health effects, leukaemia is one of the most serious health risks associated with these two pollutants. To explore the influence and underlying mechanisms of exposure to formaldehyde and PM2.5 on hematopoietic toxicity, we systematically studied the toxicity induced in hematopoietic organs: bone marrow (BM); spleen; and myeloid progenitor cells (MPCs). Male Balb/c mice were exposed to: PM2.5 (20, 160 μg/kg·d) at a dose of 40 μL per mouse or formaldehyde (0.5, 3.0 mg/m3) for 8 h per day for 2 weeks or co-exposed to formaldehyde and PM2.5 (20 μg/kg·d PM2.5 + 0.5 mg/m3 FA, 20 μg/kg·d PM2.5 + 3 mg/m3 FA, 160 μg/kg·d PM2.5 + 0.5 mg/m3 FA, 160 μg/kg·d PM2.5 + 3 mg/m3 FA) for 2 weeks. Similar toxic effects were found in the formaldehyde-only and PM2.5-only groups, including significant decrease of blood cells and MPCs, along with decreased expression of hematopoietic growth factors. In addition, individual exposure of formaldehyde or PM2.5 increased oxidative stress, DNA damage and immune system disorder by destroying the balance of Th1/Th2, and Treg/Th17. DNA repair was markedly inhibited by deregulating the mammalian target of rapamycin (mTOR) pathway. Combined exposure to PM2.5 and formaldehyde led to more severe effects. Administration of Vitamin E (VE) was shown to attenuate these effects. In conclusion, our findings suggested that PM2.5 and formaldehyde may induce hematopoietic toxicity by reducing the expression of hematopoietic growth factors, increasing oxidative stress and DNA damage, activating the ‘immune imbalance’ pathway and suppressing the DNA-repair related mTOR pathway. The hematopoietic toxicity induced by combined exposure of PM2.5 and formaldehyde might provide further insights into the increased incidence of hematological diseases, including human myeloid leukaemia.

Published

2020

10. Data on megakaryocytes in the bone marrow of mice exposed to formaldehyde

Author

Yuchao Zhang, Cliona M. McHale, Xudong Liu, Xu Yang, Shumao Ding, and Luoping Zhang

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

Previously, we reported that occupational exposure to formaldehyde (FA) exposure in factory workers reduced platelet counts, http://dx.doi.org/10.1158/1055-9965.EPI-09-0762 [1], while exposure in mice increased platelet counts http://dx.doi.org/10.1371/journal.pone.0074974 [2]. Bone marrow megakaryocyte (MK) numbers were also increased in exposed mice, as determined qualitatively. The data presented here are from a quantitative evaluation of MK numbers in the bone marrow histopathological slides from the previous FA exposure experiments in mice. Bone marrow slides were prepared using a single 5 μm section of femur from 2 mice randomly selected from each exposure group (n=9) treated with 0, 0.5 and 3.0 mg/m3 FA by nose-only inhalation. MKs were systemically counted and average MK frequency was calculated as the total MK per slide divided by the number of fields evaluated. Data are presented visually as microscopy views and graphically as MK frequency.

Published

2016

11. Identification of gene expression predictors of occupational benzene exposure.

Author

Courtney Schiffman, Cliona M McHale, Alan E Hubbard, Luoping Zhang, Reuben Thomas, Roel Vermeulen, Guilan Li, Min Shen, Stephen M Rappaport, Songnian Yin, Qing Lan, Martyn T Smith, and Nathaniel Rothman

Subjects

Medicine, Science

Abstract

BACKGROUND:Previously, using microarrays and mRNA-Sequencing (mRNA-Seq) we found that occupational exposure to a range of benzene levels perturbed gene expression in peripheral blood mononuclear cells. OBJECTIVES:In the current study, we sought to identify gene expression biomarkers predictive of benzene exposure below 1 part per million (ppm), the occupational standard in the U.S. METHODS:First, we used the nCounter platform to validate altered expression of 30 genes in 33 unexposed controls and 57 subjects exposed to benzene (0.7, p0.9 (p

Published

2018

12. Functional toxicogenomic profiling expands insight into modulators of formaldehyde toxicity in yeast

Author

Matthew North, Brandon David Gaytán, Carlos Romero, Vanessa Y. De La Rosa, Alex Loguinov, Martyn Smith, Luoping Zhang, and Chris D. Vulpe

Subjects

Formaldehyde, yeast, toxicogenomics, Functional Genomics, alternative models, Genetics, QH426-470

Abstract

Formaldehyde (FA) is a commercially important chemical with numerous and diverse uses. Accordingly, occupational and environmental exposure to FA is prevalent worldwide. Various adverse effects, including nasopharyngeal, sinonasal, and lymphohematopoietic cancers, have been linked to FA exposure, prompting designation of FA as a human carcinogen by U.S. and international scientific entities. Although the mechanism(s) of FA toxicity have been well studied, additional insight is needed in regard to the genetic requirements for FA tolerance. In this study, a functional toxicogenomics approach was utilized in the model eukaryotic yeast Saccharomyces cerevisiae to identify genes and cellular processes modulating the cellular toxicity of FA. Our results demonstrate mutant strains deficient in multiple DNA repair pathways–including homologous recombination, single strand annealing, and postreplication repair–were sensitive to FA, indicating FA may cause various forms of DNA damage in yeast. The SKI complex and its associated factors, which regulate mRNA degradation by the exosome, were also required for FA tolerance, suggesting FA may have unappreciated effects on RNA stability. Furthermore, various strains involved in osmoregulation and stress response were sensitive to FA. Together, our results are generally consistent with FA-mediated damage to both DNA and RNA. Considering DNA repair and RNA degradation pathways are evolutionarily conserved from yeast to humans, mechanisms of FA toxicity identified in yeast may be relevant to human disease and genetic susceptibility.

Published

2016

13. Characterization of changes in gene expression and biochemical pathways at low levels of benzene exposure.

Author

Reuben Thomas, Alan E Hubbard, Cliona M McHale, Luoping Zhang, Stephen M Rappaport, Qing Lan, Nathaniel Rothman, Roel Vermeulen, Kathryn Z Guyton, Jennifer Jinot, Babasaheb R Sonawane, and Martyn T Smith

Subjects

Medicine, Science

Abstract

Benzene, a ubiquitous environmental pollutant, causes acute myeloid leukemia (AML). Recently, through transcriptome profiling of peripheral blood mononuclear cells (PBMC), we reported dose-dependent effects of benzene exposure on gene expression and biochemical pathways in 83 workers exposed across four airborne concentration ranges (from 10 ppm) compared with 42 subjects with non-workplace ambient exposure levels. Here, we further characterize these dose-dependent effects with continuous benzene exposure in all 125 study subjects. We estimated air benzene exposure levels in the 42 environmentally-exposed subjects from their unmetabolized urinary benzene levels. We used a novel non-parametric, data-adaptive model selection method to estimate the change with dose in the expression of each gene. We describe non-parametric approaches to model pathway responses and used these to estimate the dose responses of the AML pathway and 4 other pathways of interest. The response patterns of majority of genes as captured by mean estimates of the first and second principal components of the dose-response for the five pathways and the profiles of 6 AML pathway response-representative genes (identified by clustering) exhibited similar apparent supra-linear responses. Responses at or below 0.1 ppm benzene were observed for altered expression of AML pathway genes and CYP2E1. Together, these data show that benzene alters disease-relevant pathways and genes in a dose-dependent manner, with effects apparent at doses as low as 100 ppb in air. Studies with extensive exposure assessment of subjects exposed in the low-dose range between 10 ppb and 1 ppm are needed to confirm these findings.

Published

2014

14. Bone marrow injury induced via oxidative stress in mice by inhalation exposure to formaldehyde.

Author

Yuchao Zhang, Xudong Liu, Cliona McHale, Rui Li, Luoping Zhang, Yang Wu, Xin Ye, Xu Yang, and Shumao Ding

Subjects

Medicine, Science

Abstract

OBJECTIVE: Formaldehyde, a ubiquitous environmental pollutant has been classified as a human leukemogen. However, toxicity of formaldehyde in bone marrow, the target site of leukemia induction, is still poorly understood. METHODOLOGY/PRINCIPAL FINDINGS: To investigate bone marrow toxicity (bone marrow pathology, hematotoxicity) and underlying mechanisms (oxidative stress, inflammation, apoptosis) in formaldehyde-exposed mice. Male Balb/c mice were exposed to formaldehyde (0, 0.5, and 3.0 mg/m(3)) by nose-only inhalation for 8 hours/day, over a two week period designed to simulate a factory work schedule, with an exposure-free "weekend" on days 6 and 7, and were sacrificed on the morning of day 13. Counts of white blood cells, red blood cells and lymphocytes were significantly (p

Published

2013

15. Correction: Effect of Chemical Mutagens and Carcinogens on Gene Expression Profiles in Human TK6 Cells.

Author

Lode Godderis, Reuben Thomas, Alan E. Hubbard, Ali M. Tabish, Peter Hoet, Luoping Zhang, Martyn T. Smith, Hendrik Veulemans, and Cliona M. McHale

Subjects

Medicine, Science

Published

2012

16. Effect of chemical mutagens and carcinogens on gene expression profiles in human TK6 cells.

Author

Lode Godderis, Reuben Thomas, Alan E Hubbard, Ali M Tabish, Peter Hoet, Luoping Zhang, Martyn T Smith, Hendrik Veulemans, and Cliona M McHale

Subjects

Medicine, Science

Abstract

Characterization of toxicogenomic signatures of carcinogen exposure holds significant promise for mechanistic and predictive toxicology. In vitro transcriptomic studies allow the comparison of the response to chemicals with diverse mode of actions under controlled experimental conditions. We conducted an in vitro study in TK6 cells to characterize gene expression signatures of exposure to 15 genotoxic carcinogens frequently used in European industries. We also examined the dose-responsive changes in gene expression, and perturbation of biochemical pathways in response to these carcinogens. TK6 cells were exposed at 3 dose levels for 24 h with and without S9 human metabolic mix. Since S9 had an impact on gene expression (885 genes), we analyzed the gene expression data from cells cultures incubated with S9 and without S9 independently. The ribosome pathway was affected by all chemical-dose combinations. However in general, no similar gene expression was observed among carcinogens. Further, pathways, i.e. cell cycle, DNA repair mechanisms, RNA degradation, that were common within sets of chemical-dose combination were suggested by clustergram. Linear trends in dose-response of gene expression were observed for Trichloroethylene, Benz[a]anthracene, Epichlorohydrin, Benzene, and Hydroquinone. The significantly altered genes were involved in the regulation of (anti-) apoptosis, maintenance of cell survival, tumor necrosis factor-related pathways and immune response, in agreement with several other studies. Similarly in S9+ cultures, Benz[a]pyrene, Styrene and Trichloroethylene each modified over 1000 genes at high concentrations. Our findings expand our understanding of the transcriptomic response to genotoxic carcinogens, revealing the alteration of diverse sets of genes and pathways involved in cellular homeostasis and cell cycle control.

Published

2012

17. Genome-wide functional profiling reveals genes required for tolerance to benzene metabolites in yeast.

Author

Matthew North, Vickram J Tandon, Reuben Thomas, Alex Loguinov, Inna Gerlovina, Alan E Hubbard, Luoping Zhang, Martyn T Smith, and Chris D Vulpe

Subjects

Medicine, Science

Abstract

Benzene is a ubiquitous environmental contaminant and is widely used in industry. Exposure to benzene causes a number of serious health problems, including blood disorders and leukemia. Benzene undergoes complex metabolism in humans, making mechanistic determination of benzene toxicity difficult. We used a functional genomics approach to identify the genes that modulate the cellular toxicity of three of the phenolic metabolites of benzene, hydroquinone (HQ), catechol (CAT) and 1,2,4-benzenetriol (BT), in the model eukaryote Saccharomyces cerevisiae. Benzene metabolites generate oxidative and cytoskeletal stress, and tolerance requires correct regulation of iron homeostasis and the vacuolar ATPase. We have identified a conserved bZIP transcription factor, Yap3p, as important for a HQ-specific response pathway, as well as two genes that encode putative NAD(P)H:quinone oxidoreductases, PST2 and YCP4. Many of the yeast genes identified have human orthologs that may modulate human benzene toxicity in a similar manner and could play a role in benzene exposure-related disease.

Published

2011

18. Comparison of proliferation and genomic instability responses to WRN silencing in hematopoietic HL60 and TK6 cells.

Author

Xuefeng Ren, Sophia Lim, Zhiying Ji, Jessica Yuh, Vivian Peng, Martyn T Smith, and Luoping Zhang

Subjects

Medicine, Science

Abstract

Werner syndrome (WS) results from defects in the RecQ helicase (WRN) and is characterized by premature aging and accelerated tumorigenesis. Contradictorily, WRN deficient human fibroblasts derived from WS patients show a characteristically slower cell proliferation rate, as do primary fibroblasts and human cancer cell lines with WRN depletion. Previous studies reported that WRN silencing in combination with deficiency in other genes led to significantly accelerated cellular proliferation and tumorigenesis. The aim of the present study was to examine the effects of silencing WRN in p53 deficient HL60 and p53 wild-type TK6 hematopoietic cells, in order to further the understanding of WRN-associated tumorigenesis.We found that silencing WRN accelerated the proliferation of HL60 cells and decreased the cell growth rate of TK6 cells. Loss of WRN increased DNA damage in both cell types as measured by COMET assay, but elicited different responses in each cell line. In HL60 cells, but not in TK6 cells, the loss of WRN led to significant increases in levels of phosphorylated RB and numbers of cells progressing from G1 phase to S phase as shown by cell cycle analysis. Moreover, WRN depletion in HL60 cells led to the hyper-activation of homologous recombination repair via up-regulation of RAD51 and BLM protein levels. This resulted in DNA damage disrepair, apparent by the increased frequencies of both spontaneous and chemically induced structural chromosomal aberrations and sister chromatid exchanges.Together, our data suggest that the effects of WRN silencing on cell proliferation and genomic instability are modulated probably by other genetic factors, including p53, which might play a role in the carcinogenesis induced by WRN deficiency.

Published

2011

19. The flavoring agent dihydrocoumarin reverses epigenetic silencing and inhibits sirtuin deacetylases.

Author

Andrew J Olaharski, Jasper Rine, Brett L Marshall, Joshua Babiarz, Luoping Zhang, Eric Verdin, and Martyn T Smith

Subjects

Genetics, QH426-470

Abstract

Sirtuins are a family of phylogenetically conserved nicotinamide adenine dinucleotide-dependent deacetylases that have a firmly established role in aging. Using a simple Saccharomyces cerevisiae yeast heterochromatic derepression assay, we tested a number of environmental chemicals to address the possibility that humans are exposed to sirtuin inhibitors. Here we show that dihydrocoumarin (DHC), a compound found in Melilotus officinalis (sweet clover) that is commonly added to food and cosmetics, disrupted heterochromatic silencing and inhibited yeast Sir2p as well as human SIRT1 deacetylase activity. DHC exposure in the human TK6 lymphoblastoid cell line also caused concentration-dependent increases in p53 acetylation and cytotoxicity. Flow cytometric analysis to detect annexin V binding to phosphatidylserine demonstrated that DHC increased apoptosis more than 3-fold over controls. Thus, DHC inhibits both yeast Sir2p and human SIRT1 deacetylases and increases p53 acetylation and apoptosis, a phenotype associated with senescence and aging. These findings demonstrate that humans are potentially exposed to epigenetic toxicants that inhibit sirtuin deacetylases.

Published

2005

20. Epigenome-wide association studies of occupational exposure to benzene and formaldehyde.

Author

Phillips, Rachael V., Linqing Wei, Cardenas, Andres, Hubbard, Alan E., McHale, Cliona M., Vermeulen, Roel, Hu Wei, Smith, Martyn T., Luoping Zhang, Qing Lan, and Rothman, Nathaniel

Subjects

FORMALDEHYDE, OCCUPATIONAL exposure, TUMOR suppressor genes, BENZENE, DNA methylation, MYELOID leukemia

Abstract

Sufficient evidence supports a relationship between certain myeloid neoplasms and exposure to benzene or formaldehyde. DNA methylation could underlie benzene- and formaldehyde-induced health outcomes, but data in exposed human populations are limited. We conducted two crosssectional epigenome-wide association studies (EWAS), one in workers exposed to benzene and another in workers exposed to formaldehyde. Using HumanMethylation450 BeadChips, we investigated differences in blood cell DNA methylation among 50 benzene-exposed subjects and 48 controls, and among 31 formaldehyde-exposed subjects and 40 controls. We performed CpG-level and regional-level analyses. In the benzene EWAS, we found genome-wide significant alterations, i.e., FWER-controlled P-values <0.05, in the mean and variance of methylation at 22 and 318 CpG sites, respectively, and in mean methylation of a large genomic region. Pathway analysis of genes corresponding to benzene-associated differential methylation sites revealed an impact on the AMPK signalling pathway. In formaldehyde-exposed subjects compared to controls, 9 CpGs in the DUSP22 gene promoter had genome-wide significant decreased methylation variability and a large region of the HOXA5 promoter with 44 CpGs was hypomethylated. Our findings suggest that DNA methylation may contribute to the pathogenesis of diseases related to benzene and formaldehyde exposure. Aberrant expression and methylation of HOXA5 previously has been shown to be clinically significant in myeloid leukaemias. The tumour suppressor gene DUSP22 is a potential biomarker of exposure to formaldehyde, and irregularities have been associated with multiple exposures and diseases. [ABSTRACT FROM AUTHOR]

Published

2022

21. Consensus on the Key Characteristics of Immunotoxic Agents as a Basis for Hazard Identification.

Author

Germolec, Dori R., Lebrec, Herve, Anderson, Stacey E., Burleson, Gary R., Cardenas, Andres, Corsini, Emanuela, Elmore, Sarah E., Kaplan, Barbara L. F., Lawrence, B. Paige, Lehmann, Geniece M., Maier, Curtis C., McHale, Cliona M., Myers, L. Peyton, Pallardy, Marc, Rooney, Andrew A., Zeise, Lauren, Luoping Zhang, and Smith, Martyn T.

Subjects

CONSENSUS (Social sciences), CELL differentiation, CARCINOGENS, COMMITTEES, HAZARDOUS substances, MEDICAL personnel, APOPTOSIS, IMMUNE system, IMMUNOSUPPRESSION, RISK assessment, CELLULAR signal transduction, CELL communication, EXPERTISE, CELL proliferation, IMMUNITY, CELL surface antigens, BIOLOGICAL assay, IMMUNODIAGNOSIS, ANTIGENS

Abstract

BACKGROUND: Key characteristics (KCs), properties of agents or exposures that confer potential hazard, have been developed for carcinogens and other toxicant classes. KCs have been used in the systematic assessment of hazards and to identify assay and data gaps that limit screening and risk assessment. Many of the mechanisms through which pharmaceuticals and occupational or environmental agents modulate immune function are well recognized. Thus KCs could be identified for immunoactive substances and applied to improve hazard assessment of immunodulatory agents. OBJECTIVES: The goal was to generate a consensus-based synthesis of scientific evidence describing the KCs of agents known to cause immunotoxicity and potential applications, such as assays to measure the KCs. METHODS: A committee of 18 experts with diverse specialties identified 10 KCs of immunotoxic agents, namely, 1) covalently binds to proteins to form novel antigens, 2) affects antigen processing and presentation, 3) alters immune cell signaling, 4) alters immune cell proliferation, 5) modifies cellular differentiation, 6) alters immune cell–cell communication, 7) alters effector function of specific cell types, 8) alters immune cell trafficking, 9) alters cell death processes, and 10) breaks down immune tolerance. The group considered how these KCs could influence immune processes and contribute to hypersensitivity, inappropriate enhancement, immunosuppression, or autoimmunity. DISCUSSION: KCs can be used to improve efforts to identify agents that cause immunotoxicity via one or more mechanisms, to develop better testing and biomarker approaches to evaluate immunotoxicity, and to enable a more comprehensive and mechanistic understanding of adverse effects of exposures on the immune system. [ABSTRACT FROM AUTHOR]

Published

2022

22. Occupational trichloroethylene exposure and antinuclear antibodies: a cross-sectional study in China.

Author

Purdue, Mark, Luoping Zhang, Vermeulen, Roel, Smith, Martyn T., Wei Hu, Rhee, Jongeun, Cuiju Wen, Yongshun Huang, Xiaojiang Tang, Berndt, Sonja I., Frazer-Abel, Ashley A., Deane, Kevin D., Rothman, Nathaniel, Qing Lan, Zhang, Luoping, Hu, Wei, Wen, Cuiju, Huang, Yongshun, Tang, Xiaojiang, and Lan, Qing

Abstract

Objectives: There has been concern over the possible risk of autoimmune diseases from exposure to trichloroethylene (TCE), an industrial solvent and common pollutant near hazardous waste sites. Studies of TCE-exposed lupus-prone mouse strains have reported increases in serum antinuclear antibodies (ANAs), a marker of autoimmunity, and autoimmune pathologic changes, while epidemiologic studies have provided limited support for an association between TCE exposure and scleroderma. To investigate exposure-related biologic evidence of autoimmunity in humans, we measured ANA levels in sera from a cross-sectional study of TCE-exposed (n=80) and TCE-unexposed (n=96) workers in Guangdong, China.Methods: Full-shift personal air exposure measurements for TCE were taken prior to blood collection. Serum ANAs were detected by immunofluorescence on HEp-2 cells. We calculated ORs and 95% CI relating levels of TCE exposure (categorised using tertiles as cut-points) and ANA positivity (1+ intensity at 1:320 dilution) using multivariable logistic regression.Results: Samples from 16 of 176 participants were ANA-positive. We found higher levels of TCE exposure (concentrations>17.27 ppm) to be associated with an elevated odds of ANA positivity (OR 4.7, 95% CI 1.3 to 16.8) compared with unexposed controls. This association remained after excluding two subjects with diagnosed autoimmune disease (OR 4.5, 95% CI 1.2 to 16.2). We did not observe an association with ANAs at lower exposure levels.Conclusions: Our findings, to our knowledge the first direct human evidence of an association between TCE exposure and systemic autoimmunity, provide biologic plausibility to epidemiologic evidence relating TCE and autoimmune disease. [ABSTRACT FROM AUTHOR]

Published

2022

23. Trade-off between water pollution prevention, agriculture profit, and farmer practice—an optimization methodology for discussion on land-use adjustment in China

Author

Jianchang, Liu, Luoping, Zhang, Yuzhen, Zhang, and Hongbing, Deng

Published

2014

24. Occupational exposure to antimony trioxide: a risk assessment.

Author

Schildroth, Samantha, Osborne, Gwendolyn, Smith, Anna R., Yip, Caryn, Collins, Caroline, Smith, Martyn T., Sandy, Martha S., Luoping Zhang, and Zhang, Luoping

Abstract

Objectives: The US National Toxicology Program (NTP) recently recommended in its Report on Carcinogens Monograph for Antimony Trioxide that antimony trioxide be listed as 'reasonably anticipated to be a human carcinogen' based on sufficient evidence of carcinogenicity in experimental animals and supporting evidence from mechanistic studies. Our goal was to estimate the possible human cancer risk from occupational exposure to antimony trioxide.Methods: We selected data from 2-year inhalation studies in male and female mice conducted by the NTP and performed cancer dose-response analyses using cancer models and benchmark dose methods developed by the US Environmental Protection Agency. In these analyses, we generated benchmark doses and cancer slope factors for antimony trioxide, and then estimated human cancer risk under various exposure scenarios. Typical and worst-case inhalation scenarios in multiple occupational settings were used in risk estimation.Results: In typical case scenarios, the occupational cancer risk from antimony trioxide was estimated to be 0.025 (25 in 1000) for persons working with flame retardants in plastics and textiles for 40 years. Under worst-case scenarios, the occupational cancer risk was estimated to be 0.11 (110 in 1000) for persons working with flame retardants in plastics and textiles. At the current Occupational Safety and Health Administration Permissible Exposure Limit, the cancer risk for occupational inhalation exposure of antimony trioxide was estimated to be 0.096 (96 in 1000).Conclusion: The risk estimates calculated in this study suggest that exposure to antimony trioxide at levels present in certain occupational settings results in a large increase in the risk of developing cancer. [ABSTRACT FROM AUTHOR]

Published

2021

25. Benzene-associated immunosuppression and chronic inflammation in humans: a systematic review.

Author

Helen Guo, Ahn, Stacy, Luoping Zhang, Guo, Helen, and Zhang, Luoping

Abstract

Objective: Recent evidence has accumulated that the immune system is intimately intertwined with cancer development. Two key characteristics of carcinogens in which the immune system plays a central role are chronic inflammation and immunosuppression. In this systematic review, we investigated the association of chronic inflammatory and immunosuppressive outcomes with benzene, a widely used industrial chemical. Benzene has been confirmed to cause acute myeloid leukaemia and suspected to cause non-Hodgkin lymphoma, two cancers of the blood-forming system that affect immune cells.Methods: We systematically searched PubMed and Embase for all relevant studies using a combination of Medical Subject Headings (MeSH) and selected key words. The detailed review protocol, including search strategy, was registered with PROSPERO, the international prospective register of systematic reviews (#CRD42019138611).Results: Based on all human studies selected in the final review, we report new evidence of a benzene-induced immunosuppressive effect on the adaptive immune system and activation of the innate immune system to cause inflammation. In particular, benzene significantly lowers the number of white blood cells, particularly lymphocytes such as CD4+ T-cells, B-cells and natural killer cells, and increases proinflammatory biomarkers at low levels of exposure.Conclusion: To the best of our knowledge, this is the first comprehensive review of benzene's immunotoxicity in humans. Based on results obtained from this review, we propose two potential immunotoxic mechanisms of how benzene induces leukaemia/lymphoma: (1) cancer invasion caused by proinflammatory cytokine production, and (2) cancer promotion via impaired immunosurveillance. Further studies will be required to confirm the connection between benzene exposure and its effects on the immune system. [ABSTRACT FROM AUTHOR]

Published

2021

26. Using the Key Characteristics of Carcinogens to Develop Research on Chemical Mixtures and Cancer.

Author

Rider, Cynthia V., McHale, Cliona M., Webster, Thomas F., Lowe, Leroy, Goodson III, William H., La Merrill, Michele A., Rice, Glenn, Zeise, Lauren, Luoping Zhang, and Smith, Martyn T.

Subjects

TUMOR risk factors, CARCINOGENS, RISK assessment, HUMAN services programs, MEDICAL research, ENVIRONMENTAL exposure

Abstract

BACKGROUND: People are exposed to numerous chemicals throughout their lifetimes. Many of these chemicals display one or more of the key characteristics of carcinogens or interact with processes described in the hallmarks of cancer. Therefore, evaluating the effects of chemical mixtures on cancer development is an important pursuit. Challenges involved in designing research studies to evaluate the joint action of chemicals on cancer risk include the time taken to perform the experiments because of the long latency and choosing an appropriate experimental design. OBJECTIVES: The objectives of this work are to present the case for developing a research program on mixtures of environmental chemicals and cancer risk and describe recommended approaches. METHODS: A working group comprising the coauthors focused attention on the design of mixtures studies to inform cancer risk assessment as part of a larger effort to refine the key characteristics of carcinogens and explore their application. Working group members reviewed the key characteristics of carcinogens, hallmarks of cancer, and mixtures research for other disease end points. The group discussed options for developing tractable projects to evaluate the joint effects of environmental chemicals on cancer development. RESULTS AND DISCUSSION: Three approaches for developing a research program to evaluate the effects of mixtures on cancer development were proposed: a chemical screening approach, a transgenic model-based approach, and a disease-centered approach. Advantages and disadvantages of each are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

27. Proposed Key Characteristics of Female Reproductive Toxicants as an Approach for Organizing and Evaluating Mechanistic Data in Hazard Assessment.

Author

Luderer, Ulrike, Eskenazi, Brenda, Hauser, Russ, Korach, Kenneth S., McHale, Cliona M., Moran, Francisco, Rieswijk, Linda, Solomon, Gina, Udagawa, Osamu, Luoping Zhang, Zlatnik, Marya, Zeise, Lauren, and Smith, Martyn T.

Subjects

CELL receptors, ANIMAL experimentation, CELL physiology, CELLULAR signal transduction, DATABASE management, DIETHYLSTILBESTROL, DIOXINS, DISCUSSION, FEMALE reproductive organs, GENES, GENITOURINARY organs, HAZARDOUS substances, HORMONES, IMMUNE system, MEETINGS, MICE, MITOCHONDRIA, GENETIC mutation, RESEARCH funding, RISK assessment, UNIVERSITIES & colleges, REPRODUCTIVE health, ENVIRONMENTAL exposure, OXIDATIVE stress, CYCLOPHOSPHAMIDE, EPIGENOMICS

Abstract

BACKGROUND: Identification of female reproductive toxicants is currently based largely on integrated epidemiological and in vivo toxicology data and, to a lesser degree, on mechanistic data. A uniform approach to systematically search, organize, integrate, and evaluate mechanistic evidence of female reproductive toxicity from various data types is lacking. OBJECTIVE: We sought to apply a key characteristics approach similar to that pioneered for carcinogen hazard identification to female reproductive toxicant hazard identification. METHODS: A working group of international experts was convened to discuss mechanisms associated with chemical-induced female reproductive toxicity and identified 10 key characteristics of chemicals that cause female reproductive toxicity: 1) alters hormone receptor signaling; alters reproductive hormone production, secretion, or metabolism; 2) chemical or metabolite is genotoxic; 3) induces epigenetic alterations; 4) causes mitochondrial dysfunction; 5) induces oxidative stress; 6) alters immune function; 7) alters cell signal transduction; 8) alters direct cell-cell interactions; 9) alters survival, proliferation, cell death, or metabolic pathways; and 10) alters microtubules and associated structures. As proof of principle, cyclophosphamide and diethylstilbestrol (DES), for which both human and animal studies have demonstrated female reproductive toxicity, display at least 5 and 3 key characteristics, respectively. 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD), for which the epidemiological evidence is mixed, exhibits 5 key characteristics. DISCUSSION: Future efforts should focus on evaluating the proposed key characteristics against additional known and suspected female reproductive toxicants. Chemicals that exhibit one or more of the key characteristics could be prioritized for additional evaluation and testing. A key characteristics approach has the potential to integrate with pathway-based toxicity testing to improve prediction of female reproductive toxicity in chemicals and potentially prevent some toxicants from entering common use. [ABSTRACT FROM AUTHOR]

Published

2019

28. Alterations in immune and renal biomarkers among workers occupationally exposed to low levels of trichloroethylene below current regulatory standards.

Author

Kyoung-Mu Lee, Luoping Zhang, Vermeulen, Roel, Wei Hu, Bassig, Bryan A., Wong, Jason J.J., Chuangyi Qiu, Purdue, Mark, Cuiju Wen, Walker, Douglas I., Jones, Dean P., Laiyu Li, Yongshun Huang, Rothman, Nathaniel, Smith, Martyn T., Qing Lan, Lee, Kyoung-Mu, Zhang, Luoping, Hu, Wei, and Wong, Jason Jj

Abstract

Objectives: The occupational exposure limit for trichloroethylene (TCE) in different countries varies from 1 to 100 ppm as an 8-hour time-weighted average (TWA). Many countries currently use 10 ppm as the regulatory standard for occupational exposures, but the biological effects in humans at this level of exposure remain unclear. The objective of our study was to evaluate alterations in immune and renal biomarkers among workers occupationally exposed to low levels of TCE below current regulatory standards.Methods: We conducted a cross-sectional molecular epidemiology study of 80 healthy workers exposed to a wide range of TCE (ie, 0.4-229 ppm) and 96 comparable unexposed controls in China, and previously reported that TCE exposure was associated with multiple candidate biological markers related to immune function and kidney toxicity. Here, we conducted further analyses of all of the 31 biomarkers that we have measured to determine the magnitude and statistical significance of changes in the subgroup of workers (n=35) exposed to <10 ppm TCE compared with controls.Results: Six immune biomarkers (ie, CD4+ effector memory T cells, sCD27, sCD30, interleukin-10, IgG and IgM) were significantly decreased (% difference ranged from -16.0% to -72.1%) and one kidney toxicity marker (kidney injury molecule-1, KIM-1) was significantly increased (% difference: +52.5%) among workers exposed to <10 ppm compared with the control group. These associations remained noteworthy after taking into account multiple comparisons using the false discovery rate (ie, <0.20).Conclusion: Our results suggest that occupational exposure to TCE below 10 ppm as an 8-hour TWA may alter levels of key markers of immune function and kidney toxicity. [ABSTRACT FROM AUTHOR]

Published

2019

29. Adductomic signatures of benzene exposure provide insights into cancer induction.

Author

Grigoryan, Hasmik, Edmands, William M. B., Qing Lan, Carlsson, Henrik, Vermeulen, Roel, Luoping Zhang, Song-Nian Yin, Gui-Lan Li, Smith, Martyn T., Rothman, Nathaniel, and Rappaport, Stephen M.

Subjects

BENZENE, LEUKEMIA risk factors, METABOLISM, CHEMICAL adducts

Abstract

Although benzene has long been recognized as a cause of human leukemia, the mechanism by which this simple molecule causes cancer has been problematic. A complicating factor is benzene metabolism, which produces many reactive intermediates, some specific to benzene and others derived from redox processes. Using archived serum from 20 nonsmoking Chinese workers, 10 with and 10 without occupational exposure to benzene (exposed: 3.2-88.9 ppm, controls: 0.002-0.020 ppm), we employed an adductomic pipeline to characterize protein modifications at Cys34 of human serum albumin, a nucleophilic hotspot in extracellular fluids. Of the 47 measured human serum albumin modifications, 39 were present at higher concentrations in benzene-exposed workers than in controls and many of the exposed-control differences were statistically significant. Correlation analysis identified three prominent clusters of adducts, namely putative modifications by benzene oxide and a benzene diolepoxide that grouped with other measures of benzene exposure, adducts of reactive oxygen and carbonyl species, and Cys34 disulfides of small thiols that are formed following oxidation of Cys34. Benzene diolepoxides are potent mutagens and carcinogens that have received little attention as potential causes of human leukemia. Reactive oxygen and carbonyl species--generated by redox processes involving polyphenolic benzene metabolites and by Cyp2E1 regulation following benzene exposure--can modify DNA and proteins in ways that contribute to cancer. The fact that these diverse human serum albumin modifications differed between benzene-exposed and control workers suggests that benzene can increase leukemia risks via multiple pathways involving a constellation of reactive molecules. [ABSTRACT FROM AUTHOR]

Published

2018

30. High-Throughput Functional Genomics Identifies Modulators of TCE Metabolite Genotoxicity and Candidate Susceptibility Genes.

Author

De La Rosa, Vanessa Y., Asfaha, Jonathan, Fasullo, Michael, Loguinov, Alex, Peng Li, Moore, Lee E., Rothman, Nathaniel, Nakamura, Jun, Swenberg, James A., Scelo, Ghislaine, Luoping Zhang, Smith, Martyn T., and Vulpe, Chris D.

Subjects

DNA repair, GENOME editing, EUKARYOTES, MUTAGENICITY testing, CHRONIC toxicity testing

Abstract

Trichloroethylene (TCE), an industrial chemical and environmental contaminant, is a human carcinogen. Reactive metabolites are implicated in renal carcinogenesis associated with TCE exposure, yet the toxicity mechanisms of these metabolites and their contribution to cancer and other adverse effects remain unclear. We employed an integrated functional genomics approach that combined functional profiling studies in yeast and avian DT40 cell models to provide new insights into the specific mechanisms contributing to toxicity associated with TCE metabolites. Genome-wide profiling studies in yeast identified the error-prone translesion synthesis (TLS) pathway as an import mechanism in response to TCE metabolites. The role of TLS DNA repair was further confirmed by functional profiling in DT40 avian cell lines, but also revealed that TLS and homologous recombination DNA repair likely play competing roles in cellular susceptibility to TCE metabolites in higher eukaryotes. These DNA repair pathways are highly conserved between yeast, DT40, and humans. We propose that in humans, mutagenic TLS is favored over homologous recombination repair in response to TCE metabolites. The results of these studies contribute to the body of evidence supporting a mutagenic mode of action for TCE-induced renal carcinogenesis mediated by reactive metabolites in humans. Our approach illustrates the potential for highthroughput in vitro functional profiling in yeast to elucidate toxicity pathways (molecular initiating events, key events) and candidate susceptibility genes for focused study. [ABSTRACT FROM AUTHOR]

Published

2017

31. Interactive Influence of N6AMT1 and As3MT Genetic Variations on Arsenic Metabolism in the Population of Inner Mongolia, China.

Author

Xushen Chen, Xiaojuan Guo, Ping He, Jing Nie, Xiaoyan Yan, Jinqiu Zhu, Luoping Zhang, Guangyun Mao, Hongmei Wu, Zhiyue Liu, Aga, Diana, Peilin Xu, Smith, Martyn, and Xuefeng Ren

Subjects

HUMAN genetic variation, ARSENIC metabolism, CACODYLIC acid, DNA methyltransferases, BIOMETHYLATION

Abstract

Chronic arsenic exposure via drinking water has become a worldwide public health concern. In humans, inorganic arsenic (iAs) is metabolized to monomethylarsonic acid (MMA) and dimethylarsinic acid (DMA) mainly mediated by arsenic (þ3 oxidation state) methyltransferase (As3MT). We reported recently that N-6 adenine-specific DNA methyltransferase 1 (N6AMT1) was involved in arsenic metabolism, and examined its interactive effect with As3MT on arsenic metabolism in vitro. To further evaluate the interactive effect of N6AMT1 and As3MT on arsenic biomethylation in humans, we conducted a human population-based study including 289 subjects living in rural villages in Inner Mongolia, China, and assessed their urinary arsenic metabolites profiles in relation to genetic polymorphisms and haplotypes of N6AMT1 and As3MT. Five N6AMT1 single nucleotide polymorphisms (SNPs; rs1003671, rs7282257, rs2065266, rs2738966, rs2248501) and the N6AMT1 haplotype 2_GGCCAT were significantly associated with the percentage of iAs (% iAs) in urine (e.g., for rs7282257, mean was 9.62% for TT, 6.73% for AA). Rs1003671 was also in a significant relationship with urinary MMA and DMA (the mean of %MMA was 24.95% for GA, 31.69% for GG; the mean of % DMA was 69.21% for GA, 59.82% for GG). The combined effect of N6AMT1 haplotype 2_GGCCAT and As3MT haplotype 2_GCAC showed consistence with the additive significance of each haplotype on % iAs: the mean was 5.47% and 9.36% for carriers with both and null haplotypes, respectively. Overall, we showed that N6AMT1 genetic polymorphisms were associated with arsenic biomethylation in the Chinese population, and its interaction with As3MT was observed in specific haplotype combinations. [ABSTRACT FROM AUTHOR]

Published

2017

32. High-resolution metabolomics of occupational exposure to trichloroethylene.

Author

Walker, Douglas I., Uppal, Karan, Luoping Zhang, Vermeulen, Roel, Smith, Martyn, Wei Hu, Purdue, Mark P., Xiaojiang Tang, Reiss, Boris, Sungkyoon Kim, Laiyu Li, Hanlin Huang, Pennell, Kurt D., Jones, Dean P., Rothman, Nathaniel, Qing Lan, Zhang, Luoping, Hu, Wei, Tang, Xiaojiang, and Kim, Sungkyoon

Subjects

METABOLOMICS, PHYSIOLOGICAL effects of trichloroethylene, INDUSTRIAL hygiene, LYMPHOMAS, RENAL cancer, LIVER cancer, HYDROCARBON metabolism, BIOCHEMISTRY, HYDROCARBONS, KIDNEY tumors, LIVER tumors, MASS spectrometry, METABOLISM, OCCUPATIONAL diseases, REGRESSION analysis, RESEARCH funding, OCCUPATIONAL hazards, ENVIRONMENTAL exposure, CROSS-sectional method, CASE-control method

Abstract

Background: Occupational exposure to trichloroethylene (TCE) has been linked to adverse health outcomes including non-Hodgkin's lymphoma and kidney and liver cancer; however, TCE's mode of action for development of these diseases in humans is not well understood.Methods: Non-targeted metabolomics analysis of plasma obtained from 80 TCE-exposed workers [full shift exposure range of 0.4 to 230 parts-per-million of air (ppma)] and 95 matched controls were completed by ultra-high resolution mass spectrometry. Biological response to TCE exposure was determined using a metabolome-wide association study (MWAS) framework, with metabolic changes and plasma TCE metabolites evaluated by dose-response and pathway enrichment. Biological perturbations were then linked to immunological, renal and exposure molecular markers measured in the same population.Results: Metabolic features associated with TCE exposure included known TCE metabolites, unidentifiable chlorinated compounds and endogenous metabolites. Exposure resulted in a systemic response in endogenous metabolism, including disruption in purine catabolism and decreases in sulphur amino acid and bile acid biosynthesis pathways. Metabolite associations with TCE exposure included uric acid (β = 0.13, P-value = 3.6 × 10-5), glutamine (β = 0.08, P-value = 0.0013), cystine (β = 0.75, P-value = 0.0022), methylthioadenosine (β = -1.6, P-value = 0.0043), taurine (β = -2.4, P-value = 0.0011) and chenodeoxycholic acid (β = -1.3, P-value = 0.0039), which are consistent with known toxic effects of TCE, including immunosuppression, hepatotoxicity and nephrotoxicity. Correlation with additional exposure markers and physiological endpoints supported known disease associations.Conclusions: High-resolution metabolomics correlates measured occupational exposure to internal dose and metabolic response, providing insight into molecular mechanisms of exposure-related disease aetiology. [ABSTRACT FROM AUTHOR]

Published

2016

33. Comparison of hematological alterations and markers of B-cell activation in workers exposed to benzene, formaldehyde and trichloroethyl.

Author

A.Bassig, Bryan, Luoping Zhang, Vermeulen, Roel, Xiaojiang Tang, Guilan Li, Wei Hu, Weihong Guo, Purdue, Mark P., Songnian Yin, Rappaport, Stephen M., Min Shen, Zhiying Ji, Chuangyi Qiu, Yichen Ge, Hosgood, H. Dean, Reiss, Boris, Banghua Wu, Yuxuan Xie, Laiyu Li, and Fei Yue

Subjects

*HEMATOLOGY, *TALL-1 (Protein), *BENZENE, *FORMALDEHYDE, *TRICHLOROETHYLENE, *MYELOID leukemia

Abstract

Benzene, formaldehyde (FA) and trichloroethylene (TCE) are ubiquitous chemicals in workplaces and the general environment. Benzene is an established myeloid leukemogen and probable lymphomagen. FA is classified as a myeloid leukemogen but has not been associated with non-Hodgkin lymphoma (NHL), whereas TCE has been associated with NHL but not myeloid leukemia. Epidemiologic associations between FA and myeloid leukemia, and between benzene, TCE and NHL are, however, still debated. Previously, we showed that these chemicals are associated with hematotoxicity in cross-sectional studies of factory workers in China, which included extensive personal monitoring and biological sample collection. Here, we compare and contrast patterns of hematotoxicity, monosomy 7 in myeloid progenitor cells (MPCs), and B-cell activation biomarkers across these studies to further evaluate possible mechanisms of action and consistency of effects with observed hematologic cancer risks. Workers exposed to benzene or FA, but not TCE, showed declines in cell types derived from MPCs, including granulocytes and platelets. Alterations in lymphoid cell types, including B cells and CD4+ T cells, and B-cell activation markers were apparent in workers exposed to benzene or TCE. Given that alterations in myeloid and lymphoid cell types are associated with hematological malignancies, our data provide biologic insight into the epidemiological evidence linking benzene and FA exposure with myeloid leukemia risk, and TCE and benzene exposure with NHL risk. [ABSTRACT FROM AUTHOR]

Published

2016

34. Identification of Genes That Modulate Susceptibility to Formaldehyde and Imatinib by Functional Genomic Screening in Human Haploid KBM7 Cells.

Author

Hua Shen, McHale, Cliona M., Haider, Syed I., Cham Jung, Susie Zhang, Smith, Martyn T., and Luoping Zhang

Subjects

CHRONIC myeloid leukemia, FORMALDEHYDE, GENETICS of disease susceptibility, IMATINIB, FUNCTIONAL genomics, GENETIC testing

Abstract

Though current functional genomic screening systems are useful for investigating human susceptibility to chemical toxicity, they have limitations. Well-established, high-throughput yeast mutant screens identify only evolutionarily conserved processes. RNA interference can be applied in human cells but is limited by incomplete gene knockout and off-target effects. Human haploid cell screening is advantageous as it requires knockdown of only a single copy of each gene. A human haploid cell mutant library (KBM7-Mu), derived from a chronic myeloid leukemia (CML) patient, was recently developed and has been used to identify genes that modulate sensitivity to infectious agents and pharmaceutical drugs. Here, we sought to improve the KBM7-Mu screening process to enable efficient screening of environmental chemicals. We developed a semi-solid medium based screening approach that cultures individual mutant colonies from chemically resistant cells, faster (by 2-3 weeks) and with less labor than the original liquid medium-based approach. As proof of principle, we identified genetic mutants that confer resistance to the carcinogen formaldehyde (FA, 12 genes, 18 hits) and the CML chemotherapeutic agent imatinib (6 genes, 13 hits). Validation experiments conducted on KBM7 mutants lacking each of the 18 genes confirmed resistance of 6 FA mutants (CTC1, FCRLA, GOT1, LPR5, M1AP, and MAP2K5) and 1 imatinib-resistant mutant (LYRM9). Despite the improvements to the method, it remains technically challenging to limit false positive findings. Nonetheless, our findings demonstrate the broad applicability of this optimized haploid approach to screen toxic chemicals to identify novel susceptibility genes and gain insight into potential mechanisms of toxicity. [ABSTRACT FROM AUTHOR]

Published

2016

35. Parental, In Utero, and Early-Life Exposure to Benzene and the Risk of Childhood Leukemia: A Meta-Analysis.

Author

Carlos-Wallace, Frolayne M., Luoping Zhang, Smith, Martyn T., Rader, Gabriella, and Steinmaus, Craig

Subjects

*LEUKEMIA risk factors, *CONFIDENCE intervals, *META-analysis, *RESEARCH funding, *ENVIRONMENTAL exposure, *DATA analysis software, *BENZENE derivatives, *DESCRIPTIVE statistics, *PRENATAL exposure delayed effects, *ODDS ratio, *CHILDREN, *FETUS

Abstract

Benzene is an established cause of adult leukemia, but whether it is associated with childhood leukemia remains unclear. We conducted a meta-analysis in which we reviewed the epidemiologic literature on this topic and explored causal inference, bias, and heterogeneity. The exposure metrics that we evaluated included occupational and household use of benzenes and solvents, traffic density, and traffic-related air pollution. For studies of occupational and household product exposure published from 1987 to 2014, the summary relative risk for childhood leukemia was 1.96 (95% confidence interval (CI): 1.53, 2.52; n = 20). In these studies, the summary relative risk was higher for acute myeloid leukemia (summary relative risk (sRR) = 2.34, 95% CI: 1.72, 3.18; n = 6) than for acute lymphoblastic leukemia (sRR= 1.57; 95% CI: 1.21,2.05; n= 14). The summary relative risk was higher for maternal versus paternal exposure, in studies that assessed benzene versus all solvents, and in studies of gestational exposure. In studies of traffic density or traffic-related air pollution published from 1999 to 2014, the summary relative risk was 1.48 (95% CI: 1.10,1.99; n = 12); it was higher for acute myeloid leukemia (sRR = 2.07; 95% CI: 1.34, 3.20) than for acute lymphoblastic leukemia (sRR = 1.49; 95% CI: 1.07,2.08) and in studies that involved detailed models of traffic pollution (sRR= 1.70; 95% CI: 1.16, 2.49). Overall, we identified evidence of associations between childhood leukemia and several different potential metrics of benzene exposure. [ABSTRACT FROM AUTHOR]

Published

2016

36. Circulating immune/inflammation markers in Chinese workers occupationally exposed to formaldehyde.

Author

Wei Jie Seow, Luoping Zhang, Vermeulen, Roel, Xiaojiang Tang, Wei Hu, Bassig, Bryan A., Zhiying Ji, Shiels, Meredith S., Kemp, Troy J., Min Shen, Chuangyi Qiu, Reiss, Boris, Beane Freeman, Laura E., Blair, Aaron, Kim, Christopher, Weihong Guo, Cuiju Wen, Laiyu Li, Pinto, Ligia A., and Hanlin Huang

Subjects

*GENETIC markers, *PHYSIOLOGICAL effects of formaldehyde, *MYELOID leukemia, *WORKING class, *CROSS-sectional method, *IMMUNOSUPPRESSION, *LEUKEMIA etiology

Abstract

Background. Formaldehyde has been classified as a human myeloid leukemogen. However, the mechanistic basis for this association is still debated. Objectives. We aimed to evaluate whether circulating immune/inflammation markers were altered in workers occupationally exposed to formaldehyde. Methods. Using a multiplexed bead-based assay, we measured serum levels of 38 immune/inflammation markers in a cross-sectional study of 43 formaldehyde-exposed and 51 unexposed factory workers in Guangdong, China. Linear regression models adjusting for potential confounders were used to compare marker levels in exposed and unexposed workers. Results. We found significantly lower circulating levels of two markers among exposed factory workers compared with unexposed controls that remained significant after adjusting for potential confounders and multiple comparisons using a false discovery rate of 10%, including chemokine (C-X-C motif) ligand 11 (36.2 pg/ml in exposed versus 48.4 pg/ml in controls, P = 0.0008) and thymus and activation regulated chemokine (52.7 pg/ml in exposed versus 75.0 pg/ml in controls, P = 0.0028), suggesting immunosuppression among formaldehyde-exposed workers. Conclusions. Our findings are consistent with recently emerging understanding that immunosuppression might be associated with myeloid diseases. These findings, if replicated in a larger study, may provide insights into the mechanisms by which formaldehyde promotes leukemogenesis. [ABSTRACT FROM AUTHOR]

Published

2015

37. Trade-off between water pollution prevention, agriculture profit, and farmer practice—an optimization methodology for discussion on land-use adjustment in China.

Author

Jianchang, Liu, Luoping, Zhang, Yuzhen, Zhang, and Hongbing, Deng

Published

2015

38. Improving Power to Detect Changes in Blood miRNA Expression by Accounting for Sources of Variability in Experimental Designs.

Author

Daniels, Sarah I., Sillé, Fenna C. M., Goldbaum, Audrey, Yee, Brenda, Key, Ellen F., Luoping Zhang, Smith, Martyn T., and Thomas, Reuben

Abstract

The article presents a study which investigates sources of variation in expression of blood microRNA which are used as blood-based biomarkers and determines whether repeated measures can improve power to detect fold-change differences between comparison groups. The study involves investigation of effects of repeated measures on power to detect fold changes in miRNA expression. The study demonstrates the importance of including repeated measures in experimental designs for blood miRNA research.

Published

2014

39. Ubiquitous Formaldehyde Exposure and Public Health Concerns in China.

Author

Luoping Zhang

Published

2011

40. Integrating Multisource Information into Decision-Making by Strategic Environmental Assessment.

Author

Qinhua Fang and Luoping Zhang

Published

2010

41. Modulation of Ras signaling alters the toxicity of hydroquinone, a benzene metabolite and component of cigarette smoke.

Author

North, Matthew, Shuga, Joe, Fromowitz, Michele, Loguinov, Alexandre, Shannon, Kevin, Luoping Zhang, Smith, Martyn T., and Vulpe, Chris D.

Subjects

HYDROQUINONE, CIGARETTE smoke, SACCHAROMYCES cerevisiae, TUMOR suppressor genes, NEUROFIBROMIN, PROGENITOR cells

Abstract

Background Benzene is an established human leukemogen, with a ubiquitous environmental presence leading to significant population exposure. In a genome-wide functional screen in the yeast Saccharomyces cerevisiae, inactivation of IRA2, a yeast ortholog of the human tumor suppressor gene NF1 (Neurofibromin), enhanced sensitivity to hydroquinone, an important benzene metabolite. Increased Ras signaling is implicated as a causal factor in the increased pre-disposition to leukemia of individuals with mutations in NF1. Methods Growth inhibition of yeast by hydroquinone was assessed in mutant strains exhibiting varying levels of Ras activity. Subsequently, effects of hydroquinone on both genotoxicity (measured by micronucleus formation) and proliferation of WT and Nf1 null murine hematopoietic precursors were assessed. Results Here we show that the Ras status of both yeast and mammalian cells modulates hydroquinone toxicity, indicating potential synergy between Ras signaling and benzene toxicity. Specifically, enhanced Ras signaling increases both hydroquinone-mediated growth inhibition in yeast and genotoxicity in mammalian hematopoetic precursors as measured by an in vitro erythroid micronucleus assay. Hydroquinone also increases proliferation of CFUGM progenitor cells in mice with Nf1 null bone marrow relative to WT, the same cell type associated with benzene-associated leukemia. Conclusions Together our findings show that hydroquinone toxicity is modulated by Ras signaling. Individuals with abnormal Ras signaling could be more vulnerable to developing myeloid diseases after exposure to benzene. We note that hydroquinone is used cosmetically as a skinbleaching agent, including by individuals with cafe-au-lait spots (which may be present in individuals with neurofibromatosis who have a mutation in NF1), which could be unadvisable given our findings. [ABSTRACT FROM AUTHOR]

Published

2014

42. Tobacco Smoke Exposure and the Risk of Childhood Acute Lymphoblastic and Myeloid Leukemias by Cytogenetic Subtype.

Author

Metayer, Catherine, Luoping Zhang, Wiemels, Joseph L., Bartley, Karen, Schiffman, Joshua, Xiaomei Ma, Aldrich, Melinda C., Chang, Jeffrey S., Selvin, Steve, Fu, Cecilia H., Ducore, Jonathan, Smith, Martyn T., and Buffler, Patricia A.

Abstract

The article discusses a study that evaluated the association of exposure to tobacco smoke with higher risks for acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL). Topics covered include gathering information on exposure of mothers to tobacco smoke and identification of karyotype and in situ hybridization of fluorescence. Results showed higher risk of ALL with postnatal passive smoke as to the B-cell ALL precursor and its cytogenic subtypes.

Published

2013

43. Using Bioinformatic Approaches to Identify Pathways Targeted by Human Leukemogens.

Author

Thomas, Reuben, Phuong, Jimmy, McHale, Cliona M., and Luoping Zhang

Published

2012

44. Effect of Chemical Mutagens and Carcinogens on Gene Expression Profiles in Human TK6 Cells.

Author

Godderis, Lode, Thomas, Reuben, Hubbard, Alan E., Tabish, Ali M., Hoet, Peter, Luoping Zhang, Smith, Martyn T., Veulemans, Hendrik, and McHale, Cliona M.

Subjects

CARCINOGENS, MUTAGENS, GENE expression, CELLS, RNA, ETHYLENE

Abstract

Characterization of toxicogenomic signatures of carcinogen exposure holds significant promise for mechanistic and predictive toxicology. In vitro transcriptomic studies allow the comparison of the response to chemicals with diverse mode of actions under controlled experimental conditions. We conducted an in vitro study in TK6 cells to characterize gene expression signatures of exposure to 15 genotoxic carcinogens frequently used in European industries. We also examined the dose-responsive changes in gene expression, and perturbation of biochemical pathways in response to these carcinogens. TK6 cells were exposed at 3 dose levels for 24 h with and without S9 human metabolic mix. Since S9 had an impact on gene expression (885 genes), we analyzed the gene expression data from cells cultures incubated with S9 and without S9 independently. The ribosome pathway was affected by all chemical-dose combinations. However in general, no similar gene expression was observed among carcinogens. Further, pathways, i.e. cell cycle, DNA repair mechanisms, RNA degradation, that were common within sets of chemical-dose combination were suggested by clustergram. Linear trends in dose-response of gene expression were observed for Trichloroethylene, Benz[a]anthracene, Epichlorohydrin, Benzene, and Hydroquinone. The significantly altered genes were involved in the regulation of (anti-) apoptosis, maintenance of cell survival, tumor necrosis factor-related pathways and immune response, in agreement with several other studies. Similarly in S9+ cultures, Benz[a]pyrene, Styrene and Trichloroethylene each modified over 1000 genes at high concentrations. Our findings expand our understanding of the transcriptomic response to genotoxic carcinogens, revealing the alteration of diverse sets of genes and pathways involved in cellular homeostasis and cell cycle control. [ABSTRACT FROM AUTHOR]

Published

2012

45. Water quality and non-point sources of risk: the Jiulong River Watershed, P. R. of China.

Author

Jingjing Zhang, Luoping Zhang, and Ricci, Paolo F.

Subjects

*WATER quality, *NITROGEN in water, *FACTOR analysis, *TREND analysis, *MONTE Carlo method, *WATER pollution

Abstract

Retrospective water quality assessment plays an essential role in identifying trends and causal associations between exposures and risks, thus it can be a guide for water resources management. We have developed empirical relationships between several time-varying social and economic factors of economic development, water quality variables such as nitrate-nitrogen, CODMn, BOD5, and DO, in the Jiulong River Watershed and its main tributary, the West River. Our analyses used alternative statistical methods to reduce the dimensionality of the analysis first and then strengthen the study's causal associations. The statistical methods included: factor analysis (FA), trend analysis, Monte Carlo/bootstrap simulations, robust regressions and a coupled equations model, integrated into a framework that allows an investigation and resolution of the issues that may affect the estimated results. After resolving these, we found that the concentrations of nitrogen compounds increased over time in the west River region, and that fertilizer used in agricultural fruit crops was the main risk with regard to nitrogen pollution. The relationships we developed can identify hazards and explain the impact of sources of different types of pollution, such as urbanization, and agriculture. [ABSTRACT FROM AUTHOR]

Published

2012

46. Global Gene Expression Profiling of a Population Exposed to a Range of Benzene Levels.

Author

McHale, Cliona M., Luoping Zhang, Qing Lan, Vermeulen, Roel, Guilan Li, Hubbard, Alan E., Porter, Kristin E., Thomas, Reuben, Portier, Christopher J., Min Shen, Rappaport, Stephen M., Songnian Yin, Smith, Martyn T., and Rothman, Nathaniel

Subjects

*BENZENE, *BIOMARKERS, *COMPUTER software, *DOSE-effect relationship in pharmacology, *GENE expression, *GENETIC techniques, *INDOOR air pollution, *MOLECULAR epidemiology, *PATH analysis (Statistics), *PROBABILITY theory, *RESEARCH funding, *STATISTICS, *OCCUPATIONAL hazards, *DATA analysis, *ENVIRONMENTAL exposure, *INTER-observer reliability, *CROSS-sectional method, *MICROARRAY technology

Abstract

Background: Benzene, an established cause of acute myeloid leukemia (AML), may also cause one or more lymphoid malignancies in humans. Previously, we identified genes and pathways associated with exposure to high (> 10 ppm) levels of benzene through transcriptomic analyses of blood cells from a small number of occupationally exposed workers. Objectives: The goals of this study were to identify potential biomarkers of benzene exposure and/or early effects and to elucidate mechanisms relevant to risk of hematotoxicity, leukemia, and lymphoid malignancy in occupationally exposed individuals, many of whom were exposed to benzene levels < 1 ppm, the current U.S. occupational standard. Methods: We analyzed global gene expression in the peripheral blood mononuclear cells of 125 workers exposed to benzene levels ranging from < 1 ppm to > 10 ppm. Study design and analysis with a mixed-effects model minimized potential confounding and experimental variability. Results: We observed highly significant widespread perturbation of gene expression at all exposure levels. The AML pathway was among the pathways most significantly associated with benzene exposure. Immune response pathways were associated with most exposure levels, potentially providing biological plausibility for an association between lymphoma and benzene exposure. We identified a 16-gene expression signature associated with all levels of benzene exposure. Conclusions: Our findings suggest that chronic benzene exposure, even at levels below the current U.S. occupational standard, perturbs many genes, biological processes, and pathways. These findings expand our understanding of the mechanisms by which benzene may induce hematotoxicity, leukemia, and lymphoma and reveal relevant potential biomarkers associated with a range of exposures. [ABSTRACT FROM AUTHOR]

Published

2011

47. Paternal Smoking and Risk of Childhood Acute Lymphoblastic Leukemia: Systematic Review and Meta-Analysis.

Author

Ruiling Liu, Luoping Zhang, McHale, Cliona M., and Hammond, S. Katharine

Subjects

*SMOKING, *LYMPHOBLASTIC leukemia, *EPIDEMIOLOGICAL research, *META-analysis, *SYSTEMATIC reviews

Abstract

Objective. To investigate the association between paternal smoking and childhood acute lymphoblastic leukemia (ALL). Method. We identified 18 published epidemiologic studies that reported data on both paternal smoking and childhood ALL risk. We performed a meta-analysis and analyzed dose-response relationships on ALL risk for smoking during preconception, during pregnancy, after birth, and ever smoking. Results. The summary odds ratio (OR) of childhood ALL associated with paternal smoking was 1.11 (95% Confidence Interval (CI): 1.05-1.18, I² = 18%) during any time period, 1.25 (95% CI: 1.08-1.46, I² = 53%) preconception; 1.24 (95% CI: 1.07-1.43, I² = 54%) during pregnancy, and 1.24 (95% CI: 0.96-1.60, I² = 64%) after birth, with a dose-response relationship between childhood ALL and paternal smoking preconception or after birth. Conclusion. The evidence supports a positive association between childhood ALL and paternal ever smoking and at each exposure time period examined. Future epidemiologic studies should assess paternal smoking during well-defined exposure windows and should include biomarkers to assess smoking exposure and toxicological mechanisms. [ABSTRACT FROM AUTHOR]

Published

2011

48. An Emerging Role for Epigenetic Dysregulation in Arsenic Toxicity and Carcinogenesis.

Author

Xuefeng Ren, McHale, Cliona M., Skibola, Christine F., Smith, Allan H., Smith, Martyn T., and Luoping Zhang

Subjects

ARSENIC, ARSENIC poisoning, CARCINOGENS, DNA, GENE expression, METHYLATION, RNA, TUMORS, WATER supply, ENVIRONMENTAL exposure, PHARMACODYNAMICS

Abstract

Background: Exposure to arsenic, an established human carcinogen, through consumption of highly contaminated drinking water is a worldwide public health concern. Several mechanisms by which arsenical compounds induce tumorigenesis have been proposed, including oxidative stress, genotoxic damage, and chromosomal abnormalities. Recent studies have suggested that epigenetic mechanisms may also mediate toxicity and carcinogenicity resulting from arsenic exposure. Objective: We examined the evidence supporting the roles of the three major epigenetic mechanisms--DNA methylation, histone modification, and microRNA (miRNA) expression--in arsenic toxicity and, in particular, carcinogenicity. We also investigated future research directions necessary to clarify epigenetic and other mechanisms in humans. Data sources and synthesis: We conducted a PubMed search of arsenic exposure and epigenetic modification through April 2010 and summarized the in vitro and in vivo research findings, from both our group and others, on arsenic-associated epigenetic alteration and its potential role in toxicity and carcinogenicity. Conclusions: Arsenic exposure has been shown to alter methylation levels of both global DNA and gene promoters; histone acetylation, methylation, and phosphorylation; and miRNA expression, in studies analyzing mainly a limited number of epigenetic end points. Systematic epigenomic studies in human populations exposed to arsenic or in patients with arsenic-associated cancer have not yet been performed. Such studies would help to elucidate the relationship between arsenic exposure, epigenetic dysregulation, and carcinogenesis and are becoming feasible because of recent technological advancements. [ABSTRACT FROM AUTHOR]

Published

2011

49. Formaldehyde and Leukemia: An Updated Meta-Analysis and Evaluation of Bias.

Author

Schwilk, Erika, Luoping Zhang, Smith, Martyn T., Smith, Allan H., and Steinmaus, Craig

Subjects

*ANALYSIS of variance, *COMPUTER software, *CONFIDENCE intervals, *DOSE-response relationship in biochemistry, *FORMALDEHYDE, *LEUKEMIA, *META-analysis, *PROBABILITY theory, *STATISTICS, *OCCUPATIONAL hazards, *DATA analysis, *ENVIRONMENTAL exposure, *RELATIVE medical risk, *DIAGNOSIS, *DRUG side effects

Abstract

The article presents a study on the relationship between formaldehyde and leukemia. It states that meta-analysis is used to evaluate the associative relation between the two factors. It mentions two groups of people involved in the study such as the less than 25,000 workers in formaldehyde industries in the U.S. and the less than 13,000 embalmers and funeral directors. Results of the study show that exposure to formaldehyde increased the risk of leukemia, particularly myeloid leukemia.

Published

2010

50. Occupational exposure to trichloroethylene is associated with a decline in lymphocyte subsets and soluble CD27 and CD30 markers.

Author

Qing Lan, Luoping Zhang, Xiaojiang Tang, Min Shen, Smith, Martyn T., Chuangyi Qiu, Yichen Ge, Zhiying Ji, Jun Xiong, Jian He, Reiss, Boris, Zhenyue Hao, Songwang Liu, Yuxuan Xie, Weihong Guo, Purdue, Mark P., Galvan, Noe, Xin, Kerry X., Wei Hu, and Beane Freeman, Laura E.

Subjects

*TRICHLOROETHYLENE, *LYMPHOMAS, *LYMPHOCYTE transformation, *CANCER genetics, *INDUSTRIAL hygiene, *EPIDEMIOLOGY

Abstract

Occupational cohort and case–control studies suggest that trichloroethylene (TCE) exposure may be associated with non-Hodgkin lymphoma (NHL) but findings are not consistent. There is a need for mechanistic studies to evaluate the biologic plausibility of this association. We carried out a cross-sectional molecular epidemiology study of 80 healthy workers that used TCE and 96 comparable unexposed controls in Guangdong, China. Personal exposure measurements were taken over a three-week period before blood collection. Ninety-six percent of workers were exposed to TCE below the current US Occupational Safety and Health Administration Permissible Exposure Limit (100 p.p.m. 8 h time-weighted average), with a mean (SD) of 22.2 (36.0) p.p.m. The total lymphocyte count and each of the major lymphocyte subsets including CD4+ T cells, CD8+ T cells, natural killer (NK) cells and B cells were significantly decreased among the TCE-exposed workers compared with controls (P < 0.05), with evidence of a dose-dependent decline. Further, there was a striking 61% decline in sCD27 plasma level and a 34% decline in sCD30 plasma level among TCE-exposed workers compared with controls. This is the first report that TCE exposure under the current Occupational Safety and Health Administration workplace standard is associated with a decline in all major lymphocyte subsets and sCD27 and sCD30, which play an important role in regulating cellular activity in subsets of T, B and NK cells and are associated with lymphocyte activation. Given that altered immunity is an established risk factor for NHL, these results add to the biologic plausibility that TCE is a possible lymphomagen. [ABSTRACT FROM PUBLISHER]

Published

2010