Carolyn J. Baglole scite author profile

Diseases such as chronic obstructive pulmonary disease and lung cancer caused by cigarette smoke affect millions of people worldwide. The aryl hydrocarbon receptor (AhR) is a ligandactivated transcription factor that influences responses to certain environmental pollutants such as tobacco smoke. However, the physiological function(s) of the AhR is unknown. Herein we propose that the physiologic role of the AhR is to limit inflammation. We show that lung fibroblasts from AhR ؊/؊ mice produce a heightened inflammatory response to cigarette smoke, typified by increased levels of cyclooxygenase-2 (COX-2) and prostaglandins (PGs), when compared with wild type (AhR ؉/؉ ) fibroblasts. This response was dependent on AhR expression as transient transfection of an AhR expression plasmid into AhR ؊/؊ fibroblasts significantly attenuated the smoke-induced COX-2 and PG production, confirming the anti-inflammatory role of the AhR. The AhR can interact with NF-B. However, the heightened inflammatory response observed in AhR ؊/؊ fibroblasts was not the result of NF-B (p50/p65) activation. Instead it was coupled with a loss of the NF-B family member RelB in AhR ؊/؊ fibroblasts. Taken together, these studies provide compelling evidence that AhR expression limits proinflammatory COX-2 and PG production by maintaining RelB expression. The association between RelB and AhR may represent a new therapeutic and more selective target with which to combat inflammation-associated diseases.Lung inflammation and diseases such as chronic obstructive pulmonary disease and cancer caused by cigarette smoke affect millions of people. The link between chronic inflammation, typified by heightened expression of cyclooxygenase-2 (COX-2; 2 also known as prostaglandin endoperoxide H synthase (PGHS-2)), and these diseases is well established (1-3). COX enzymes catalyze the transformation of arachidonic acid into prostaglandin (PG) H 2 (4, 5), which serves as a substrate for various synthases that generate PGs and thromboxanes (6). There are two COX isoforms. In most tissues, COX-1 is expressed constitutively (7), whereas COX-2 is rapidly up-regulated by a variety of inflammatory stimuli (5) such as interleukin (IL)-1 (8) and cigarette smoke (9).Cigarette smoke is a complex mixture containing more than 4800 compounds. Cigarette smoke and some of its components, such as benzo[a]pyrene (B[a]P), induce COX-2 expression in lymphocytes, epithelial cells, and fibroblasts (9 -11). Fibroblasts are the main cell type in the lung interstitium, are involved in tissue repair and remodeling (12), provide structural support to the alveolar compartment, and are an important target of cigarette smoke (9, 13-18). Importantly fibroblasts are one of the major cell types that express COX-2 and synthesize PGs in humans (19,20).Regulation of COX-2 expression involves several transcriptional regulators (5), including the aryl hydrocarbon receptor (AhR). The AhR is a ligand-activated transcription factor belonging to the basic helix-loop-helix/Per-Arnt-Sim transcription factor ...

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Aryl Hydrocarbon Receptor-Deficient Mice Develop Heightened Inflammatory Responses to Cigarette Smoke and Endotoxin Associated with Rapid Loss of the Nuclear Factor-κB Component RelB

Thatcher

Maggirwar

Baglole

et al. 2007

The American Journal of Pathology

162

174

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The transcription factor aryl hydrocarbon receptor (AhR) plays an important role in the response to environmental pollutants. However, its role in normal physiology is unclear. To investigate the role of AhR in acute lung inflammation, control and AhR knockout (KO) mice were exposed to inhaled cigarette smoke or bacterial endotoxin. Smoke-induced lung inflammation was twofold to threefold more severe in AhR KO mice than controls. Intriguingly, levels of tumor necrosis factor-alpha and interleukin-6 in the bronchoalveolar lavage of air-exposed KO mice were equal to the levels seen in smoke-exposed controls, suggesting that AhR-deficient mice are inflammation prone. AhR KO mice challenged with inhaled endotoxin, which does not contain AhR ligands, also developed greater lung neutrophilia than controls, and bronchoalveolar lavage cells from AhR KO mice produced elevated levels of tumor necrosis factor-alpha and interleukin-6 when treated with endotoxin in vitro. Nuclear factor-kappaB DNA-binding activity was elevated in smoke-exposed AhR KO mice compared with controls and was associated with a rapid loss of RelB only in the KO mice. We propose that AhR is a previously unrecognized regulator of inflammation that interacts with nuclear factor-kappaB so that in the absence of AhR RelB is prematurely degraded, resulting in heightened inflammatory responses to multiple proinflam-matory stimuli.

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Cigarette smoke induces cyclooxygenase-2 and microsomal prostaglandin E₂synthase in human lung fibroblasts: implications for lung inflammation and cancer

Martey¹,

Pollock²,

Turner³

et al. 2004

American Journal of Physiology-Lung Cellular and Molecular Phys

184

164

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Cigarette smoking can lead to many human pathologies including cardiovascular and respiratory disease. Recent studies have defined a role for fibroblasts in the development of colon cancer. Moreover, fibroblasts are now thought of as key "sentinel" cells that initiate inflammation by releasing proinflammatory mediators including prostaglandins (PGs). Pathological overexpression of cyclooxygenase-2 (COX-2) and excess eicosanoid production are found in the early stages of carcinogenesis. By promoting chronic inflammation, COX-2 and eicosanoid production may actually cause a predisposition to malignancy. Furthermore, the associated inflammation induced by production of these mediators is central to the pathogenesis of chronic obstructive pulmonary disease. Little is known of the responses of normal lung fibroblasts to cigarette smoke, despite their abundance. We report herein that normal human lung fibroblasts, when exposed to cigarette smoke extract, induce COX-2 with concurrent synthesis of prostaglandin E2 (PGE2). The mechanisms by which cigarette-derived toxicants lead to increased COX-2 levels and PGE2 synthesis include increases in steady-state COX-2 mRNA levels (approximately four- to fivefold), phosphorylation of ERK1/2, and nuclear translocation of the p50 and p65 subunits of the transcription factor NF-kappaB, which are important elements in COX-2 expression. Furthermore, there was a dramatic 25-fold increase in microsomal prostaglandin E synthase, the key enzyme involved in the production of PGE2. We propose that normal human lung fibroblasts, when exposed to cigarette smoke constituents, elicit COX-2 expression with consequent prostaglandin synthesis, thus creating a proinflammatory environment. This chronic inflammatory state may act as one of the first steps towards epithelial transformation.

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Assessing the carcinogenic potential of low-dose exposures to chemical mixtures in the environment: the challenge ahead

Goodson¹,

Lowe

Carpenter

et al. 2015

CARCIN

246

167

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Environmental immune disruptors, inflammation and cancer risk

Thompson¹,

Khatami

Baglole

et al. 2015

CARCIN

172

137

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An emerging area in environmental toxicology is the role that chemicals and chemical mixtures have on the cells of the human immune system. This is an important area of research that has been most widely pursued in relation to autoimmune diseases and allergy/asthma as opposed to cancer causation. This is despite the well-recognized role that innate and adaptive immunity play as essential factors in tumorigenesis. Here, we review the role that the innate immune cells of inflammatory responses play in tumorigenesis. Focus is placed on the molecules and pathways that have been mechanistically linked with tumor-associated inflammation. Within the context of chemically induced disturbances in immune function as co-factors in carcinogenesis, the evidence linking environmental toxicant exposures with perturbation in the balance between pro- and anti-inflammatory responses is reviewed. Reported effects of bisphenol A, atrazine, phthalates and other common toxicants on molecular and cellular targets involved in tumor-associated inflammation (e.g. cyclooxygenase/prostaglandin E2, nuclear factor kappa B, nitric oxide synthesis, cytokines and chemokines) are presented as example chemically mediated target molecule perturbations relevant to cancer. Commentary on areas of additional research including the need for innovation and integration of systems biology approaches to the study of environmental exposures and cancer causation are presented.

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Molecular regulation of cigarette smoke induced-oxidative stress in human retinal pigment epithelial cells: implications for age-related macular degeneration

Bertram¹,

Baglole²,

Phipps³

et al. 2009

American Journal of Physiology-Cell Physiology

118

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Genetic and histologic evidence for autophagy in asthma pathogenesis

Poon

Chouiali

Tse

et al. 2012

Journal of Allergy and Clinical Immunology

105

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Differential induction of apoptosis by cigarette smoke extract in primary human lung fibroblast strains: implications for emphysema

Baglole¹,

Bushinsky²,

Garcia³

et al. 2006

American Journal of Physiology-Lung Cellular and Molecular Phys

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Cigarette smoke is the principal cause of emphysema. Recent attention has focused on the loss of alveolar fibroblasts in the development of emphysema. Fibroblasts may become damaged by oxidative stress and undergo apoptosis as a result of cigarette smoke exposure. Not all smokers develop lung diseases associated with tobacco smoke, a fact that may reflect individual variation among human fibroblast strains. We hypothesize that fibroblasts from different human beings vary in their ability to undergo apoptosis after cigarette smoke exposure. This could account for emphysematous changes that occur in the lungs of some but not all smokers. Primary human lung fibroblast strains were exposed to cigarette smoke extract (CSE) and assessed for viability, morphological changes, and mitochondrial transmembrane potential as indicators of apoptosis. We also examined the generation of intracellular reactive oxygen species (ROS), 4-hydroxy-2-nonenal, and changes in glutathione (GSH) and glutathione disulfide (GSSG) levels. Each human lung fibroblast strain exhibited a differential sensitivity to CSE as judged by changes in mitochondrial membrane potential, viability, ROS generation, and glutathione production. Interestingly, the thiol antioxidants N-acetyl-L-cysteine and GSH eliminated CSE-induced changes in fibroblast morphology such as membrane blebbing, nuclear condensation, and cell size and prevented alterations in mitochondrial membrane potential and the generation of ROS. These findings support the concept that oxidative stress and apoptosis are responsible for fibroblast death associated with exposure to tobacco smoke. Variations in the sensitivity of fibroblasts to cigarette smoke may account for the fact that only some smokers develop emphysema.

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