Your search keyword '"Thivanka Muthumalage"' showing total 68 results

1. Challenges in current inhalable tobacco toxicity assessment models: A narrative review

Author

Thivanka Muthumalage, Alexandra Noel, Yasmin Thanavala, Aleksandra Alcheva, and Irfan Rahman

Subjects

electronic cigarettes, vaping, heated tobacco products, inhalation toxicology, in vitro and in vivo, Diseases of the respiratory system, RC705-779, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Emerging tobacco products such as electronic nicotine delivery systems (ENDS) and heated tobacco products (HTPs) have a dynamic landscape and are becoming widely popular as they claim to offer a low-risk alternative to conventional smoking. Most pre-clinical laboratories currently exploit in vitro , ex vivo , and in vivo experimental models to assess toxicological outcomes as well as to develop risk-estimation models. While most laboratories have produced a wide range of cell culture and mouse model data utilizing current smoke/aerosol generators and standardized puffing profiles, much variation still exists between research studies, hindering the generation of usable data appropriate for the standardization of these tobacco products. In this review, we discuss current state-of-the-art in vitro and in vivo models and their challenges, as well as insights into risk estimation of novel products and recommendations for toxicological parameters for reporting, allowing comparability of the research studies between laboratories, resulting in usable data for regulation of these products before approval by regulatory authorities.

Published

2024

2. Club cell‐specific telomere protection protein 1 (TPP1) protects against tobacco smoke‐induced lung inflammation, xenobiotic metabolic dysregulation, and injurious responses

Author

Thivanka Muthumalage, Chiara Goracci, and Irfan Rahman

Subjects

ACD, basal cells, bronchogenic carcinomas, cigarette smoke, club cells, COPD, Biology (General), QH301-705.5

Abstract

Abstract Inhaling xenobiotics, such as tobacco smoke is a major risk factor for pulmonary diseases, e.g., COPD/emphysema, interstitial lung disease, and pre‐invasive diseases. Shelterin complex or telosome provides telomeric end protection during replication. Telomere protection protein 1 (TPP1) is one of the main six subunits of the shelterin complex supporting the telomere stability and genomic integrity. Dysfunctional telomeres and shelterin complex are associated as a disease mechanism of tobacco smoke‐induced pulmonary damage and disease processes. The airway epithelium is critical to maintaining respiratory homeostasis and is implicated in lung diseases. Club cells (also known as clara cells) play an essential role in the immune response, surfactant production, and metabolism. Disrupted shelterin complex may lead to dysregulated cellular function, DNA damage, and disease progression. However, it is unknown if the conditional removal of TPP1 from Club cells can induce lung disease pathogenesis caused by tobacco smoke exposure. In this study, conditional knockout of Club‐cell specific TPP1 demonstrated the instability of other shelterin protein subunits, such as TRF1, dysregulation of cell cycle checkpoint proteins, p53 and downstream targets, and dysregulation of telomeric genes. This was associated with age‐dependent senescence‐associated genes, increased DNA damage, and upregulated RANTES/IL13/IL33 mediated lung inflammation and injury network by cigarette smoke (CS). These phenomena are also associated with alterations in cytochrome P450 and glutathione transferases, upregulated molecular pathways promoting lung lesions, bronchial neoplasms, and adenocarcinomas. These findings suggest a pivotal role of TPP1 in maintaining lung homeostasis and injurious responses in response to CS. Thus, these data TPP1 may have therapeutic value in alleviating telomere‐related chronic lung diseases.

Published

2024

3. Correction: Lamb et al. Nose-Only Exposure to Cherry- and Tobacco-Flavored E-Cigarettes Induced Lung Inflammation in Mice in a Sex-Dependent Manner. Toxics 2022, 10, 471

Author

Thomas Lamb, Thivanka Muthumalage, Jiries Meehan-Atrash, and Irfan Rahman

Subjects

n/a, Chemical technology, TP1-1185

Abstract

In the original publication [...]

Published

2023

4. Epithelial Ablation of Miro1/Rhot1 GTPase Augments Lung Inflammation by Cigarette Smoke

Author

Shikha Sharma, Qixin Wang, Thivanka Muthumalage, and Irfan Rahman

Subjects

Miro1, lung inflammation, mitochondrial quality control, cigarette smoke, COPD, Physiology, QP1-981

Abstract

Mitochondrial quality control is sustained by Miro1 (Rhot1), a calcium-binding membrane-anchored GTPase during mitophagy. The exact mechanism that operates the interaction of Miro1 with mitophagy machinery and their role in cigarette smoke (CS)-induced mitochondrial dysfunction that often results in lung inflammation is unclear. We hypothesized that Miro1 plays an important role in regulating mitophagy machinery and the resulting lung inflammation by CS exposure to mice. The lung epithelial Rhot1fl/fl (WT) and Rhot1CreCC10 mice were exposed to mainstream CS for 3 days (acute) and 4 months (chronic). Acute CS exposure showed a notable increase in the total inflammatory cells, macrophages, and neutrophils that are associated with inflammatory mediators. Chronic exposure showed increased infiltration of neutrophils versus air controls. The effects of acute and chronic CS exposure were augmented in the Rhot1CreCC10 group, indicating that epithelial Miro1 ablation led to the augmentation of inflammatory cell infiltration with alteration in the inflammatory mediators. Thus, Rhot1/Miro1 plays an important role in regulating CS-induced lung inflammatory responses with implications in mitochondrial quality control.

Published

2021

5. E-cigarette-induced pulmonary inflammation and dysregulated repair are mediated by nAChR α7 receptor: role of nAChR α7 in SARS-CoV-2 Covid-19 ACE2 receptor regulation

Author

Qixin Wang, Isaac K. Sundar, Dongmei Li, Joseph H. Lucas, Thivanka Muthumalage, Samantha R. McDonough, and Irfan Rahman

Subjects

E-cig exposure, nAChRα7, Inflammation, Dysregulated repair, Extracellular matrix, Diseases of the respiratory system, RC705-779

Abstract

Abstract Electronic cigarette (e-cig) vaping is increasing rapidly in the United States, as e-cigs are considered less harmful than combustible cigarettes. However, limited research has been conducted to understand the possible mechanisms that mediate toxicity and pulmonary health effects of e-cigs. We hypothesized that sub-chronic e-cig exposure induces inflammatory response and dysregulated repair/extracellular matrix (ECM) remodeling, which occur through the α7 nicotinic acetylcholine receptor (nAChRα7). Adult wild-type (WT), nAChRα7 knockout (KO), and lung epithelial cell-specific KO (nAChRα7 CreCC10) mice were exposed to e-cig aerosol containing propylene glycol (PG) with or without nicotine. Bronchoalveolar lavage fluids (BALF) and lung tissues were collected to determine e-cig induced inflammatory response and ECM remodeling, respectively. Sub-chronic e-cig exposure with nicotine increased inflammatory cellular influx of macrophages and T-lymphocytes including increased pro-inflammatory cytokines in BALF and increased SARS-Cov-2 Covid-19 ACE2 receptor, whereas nAChRα7 KO mice show reduced inflammatory responses associated with decreased ACE2 receptor. Interestingly, matrix metalloproteinases (MMPs), such as MMP2, MMP8 and MMP9, were altered both at the protein and mRNA transcript levels in female and male KO mice, but WT mice exposed to PG alone showed a sex-dependent phenotype. Moreover, MMP12 was increased significantly in male mice exposed to PG with or without nicotine in a nAChRα7-dependent manner. Additionally, sub-chronic e-cig exposure with or without nicotine altered the abundance of ECM proteins, such as collagen and fibronectin, significantly in a sex-dependent manner, but without the direct role of nAChRα7 gene. Overall, sub-chronic e-cig exposure with or without nicotine affected lung inflammation and repair responses/ECM remodeling, which were mediated by nAChRα7 in a sex-dependent manner.

Published

2020

6. Noninvasive systemic biomarkers of e-cigarette or vaping use-associated lung injury: a pilot study

Author

Stephanie Podguski, Gagandeep Kaur, Thivanka Muthumalage, Matthew D. McGraw, and Irfan Rahman

Subjects

Medicine

Abstract

Background Electronic cigarette (e-cigarette) vaping, containing nicotine and/or Δ8, Δ9 or Δ10 or Δo tetrahydrocannabinol (Δn-THC), is associated with an outbreak of e-cigarette, or vaping, product use-associated lung injury (EVALI). Despite thousands being hospitalised with EVALI, much remains unknown about diagnosis, treatment and disease pathogenesis. Biomarkers of inflammation, oxidative stress and lipid mediators may help identify e-cigarette users with EVALI. Methods We collected plasma and urine along with demographic and vaping-related data of EVALI subjects (age 18–35 years) and non-users matched for sex and age in a pilot study. Biomarkers were assessed by ELISA/EIA and Luminex-based assays. Results Elevated levels of THC metabolite (11-nor-9-carboxy-Δ9-THC) were found in plasma from EVALI subjects compared to non-users. Levels of 8-hydroxy-2′-deoxyguanosine (8-OHdG), an oxidative DNA damage biomarker, and 8-isoprostane, an oxidative stress marker, were slightly increased in urine samples from EVALI subjects compared to non-users. Conversely, plasma levels of lipid mediators, including resolvin D1 (RvD1) and prostaglandin E2 (PGE2), were significantly lower in EVALI subjects compared to non-users. Both pro-inflammatory biomarkers, such as tumour necrosis factor-α, macrophage inflammatory protein-1β, RANTES (regulated on activation, normal T-cell expressed and secreted) and granulocyte–macrophage colony-stimulating factor, as well as anti-inflammatory biomarkers, such as interleukin-9 and CC10/16, were decreased in plasma from EVALI subjects compared to non-users, supportive of a possible dysregulated inflammatory response in EVALI subjects. Conclusions Significant elevations in urine and plasma biomarkers of oxidative stress, as well as reductions in lipid mediators, were shown in EVALI subjects. These noninvasive biomarkers (8-OHdG, 8-isoprostane, RvD1 and CC10/16), either individually or collectively, may serve as tools in diagnosing future EVALI subjects.

Published

2022

7. Dysregulated repair and inflammatory responses by e‐cigarette‐derived inhaled nicotine and humectant propylene glycol in a sex‐dependent manner in mouse lung

Author

Qixin Wang, Naushad Ahmad Khan, Thivanka Muthumalage, Gina R. Lawyer, Samantha R. McDonough, Tsai‐Der Chuang, Ming Gong, Isaac K. Sundar, Virender K. Rehan, and Irfan Rahman

Subjects

dysregulated repair, extracellular matrix remodeling, inflammation, nicotine, propylene glycol, Biology (General), QH301-705.5

Abstract

Abstract Nicotine inhalation via electronic cigarettes (e‐cigs) is an emerging concern. However, little is known about the acute toxicity in the lungs following inhalation of nicotine‐containing e‐cig aerosols. We hypothesized that acute exposure to aerosolized nicotine causes lung toxicity by eliciting inflammatory and dysregulated repair responses. Adult C57BL/6J mice were exposed 2 hours daily for 3 days to e‐cig aerosols containing propylene glycol (PG) with or without nicotine. Acute exposure to nicotine‐containing e‐cig aerosols induced inflammatory cell influx (neutrophils and CD8a+ T lymphocytes), and release of pro‐inflammatory cytokines in bronchoalveolar lavage fluid in a sex‐dependent manner. Inhalation of e‐cig aerosol containing PG alone significantly augmented the lung levels of various homeostasis/repair mediators (PPARγ, ADRP, ACTA2, CTNNB1, LEF1, β‐catenin, E‐cadherin, and MMP2) in a sex‐dependent manner when compared to air controls. These findings were accompanied by an increase in protein abundance and altered gene expression of lipogenic markers (PPARγ, ADRP) and myogenic markers (fibronectin, α‐smooth muscle actin and β‐catenin), suggesting a dysregulated repair response in mouse lungs. Furthermore, exposure to nicotine‐containing e‐cig aerosols or PG alone differentially affected the release of pro‐inflammatory cytokines in healthy and COPD human 3D EpiAirway tissues. Overall, acute exposure to nicotine‐containing e‐cig aerosols was sufficient to elicit a pro‐inflammatory response and altered mRNA and protein levels of myogenic, lipogenic, and extracellular matrix markers in mouse lung in a sex‐dependent manner. Thus, acute exposure to inhaled nicotine via e‐cig leads to dysregulated repair and inflammatory responses, which may lead to airway remodeling in the lungs.

Published

2019

8. Molecular clock REV-ERBα regulates cigarette smoke–induced pulmonary inflammation and epithelial-mesenchymal transition

Author

Qixin Wang, Isaac K. Sundar, Joseph H. Lucas, Thivanka Muthumalage, and Irfan Rahman

Subjects

Inflammation, Pulmonology, Medicine

Abstract

Cigarette smoke (CS) is the main etiological factor in the pathogenesis of emphysema/chronic obstructive pulmonary disease (COPD), which is associated with abnormal epithelial-mesenchymal transition (EMT). Previously, we have shown an association among circadian rhythms, CS-induced lung inflammation, and nuclear heme receptor α (REV-ERBα), acting as an antiinflammatory target in both pulmonary epithelial cells and fibroblasts. We hypothesized that molecular clock REV-ERBα plays an important role in CS-induced circadian dysfunction and EMT alteration. C57BL/6J WT and REV-ERBα heterozygous (Het) and –KO mice were exposed to CS for 30 days (subchronic) and 4 months (chronic), and WT mice were exposed to CS for 10 days with or without REV-ERBα agonist (SR9009) administration. Subchronic/chronic CS exposure caused circadian disruption and dysregulated EMT in the lungs of WT and REV-ERBα–KO mice; both circadian and EMT dysregulation were exaggerated in the REV-ERBα–KO condition. REV-ERBα agonist, SR9009 treatment reduced acute CS-induced inflammatory response and abnormal EMT in the lungs. Moreover, REV-ERBα agonist (GSK4112) inhibited TGF-β/CS–induced fibroblast differentiation in human fetal lung fibroblast 1 (HFL-1). Thus, CS-induced circadian gene alterations and EMT activation are mediated through a Rev-erbα–dependent mechanism, which suggests activation of REV-ERBα as a novel therapeutic approach for smoking-induced chronic inflammatory lung diseases.

Published

2021

9. Persistently Increased Systemic ACE2 Activity Is Associated With an Increased Inflammatory Response in Smokers With COVID-19

Author

Gagandeep Kaur, Shaiesh Yogeswaran, Thivanka Muthumalage, and Irfan Rahman

Subjects

COVID-19, inflammation, ACE2, furin, smokers, Physiology, QP1-981

Abstract

Background: Tobacco smoking is known to be involved in the pathogenesis of several cardiopulmonary diseases. Additionally, smokers are highly susceptible to infectious agents due to weakened immunity. However, the progression of lung injury based on SARS-CoV-2-mediated COVID-19 pathogenesis amongst smokers and those with pre-existing pulmonary diseases is not known. We determined the systemic levels and activity of COVID-19 associated proteins, cytokine/chemokines, and lipid mediators (lipidomics) amongst COVID-19 patients with and without a history of smoking to understand the underlying susceptible factor in the pathogenesis of COVID-19.Methods: We obtained serum from healthy (CoV−), COVID-19 positive (CoV+), and COVID-19 recovered (CoV Rec) subjects with and without a history of smoking. We conducted a Luminex multiplex assay (cytokine levels), LC/MS (eicosanoids or oxylipin panel), and ACE2 enzymatic activity assays on the serum samples to determine the systemic changes in COVID-19 patients.Results: On comparing the levels of serum ACE2 amongst COVID-19 (positive and recovered) patients and healthy controls, we found a pronounced increase in serum ACE2 levels in patients with COVID-19 infection. Furthermore, ACE2 enzyme activity was significantly increased amongst COVID-19 patients with a smoking history. Also, we analyzed the levels of Angiotensin 1–7 (Ang1–7) peptide, the product of enzymatic action of ACE2, in the serum samples. We found significantly high levels of Ang1–7 in the serum of both CoV+ and CoV Rec patients. Our data further demonstrated a smoking-induced increase in serum furin and inflammatory cytokine [IFNγ(p = 0.0836), Eotaxin (p < 0.05), MCP-1 (p < 0.05), and IL-9 (p = 0.0991)] levels in COVID-19 patients as compared to non-smoking controls. Overall, our results show that smoking adversely affects the levels of systemic inflammatory markers and COVID-19 associated proteins, thus suggesting that COVID-19 infection may have severe outcomes amongst smokers.

Published

2021

10. Nose-Only Exposure to Cherry- and Tobacco-Flavored E-Cigarettes Induced Lung Inflammation in Mice in a Sex-Dependent Manner

Author

Thomas Lamb, Thivanka Muthumalage, Jiries Meehan-Atrash, and Irfan Rahman

Subjects

e-cigarettes, ENDS, flavors, tobacco, mint, lung, Chemical technology, TP1-1185

Abstract

Flavoring chemicals in electronic nicotine delivery systems have been shown to cause cellular inflammation; meanwhile, the effects of fruit and tobacco flavors on lung inflammation by nose-only exposures to mice are relatively unknown. We hypothesized that exposure to flavored e-cigarettes would cause lung inflammation in C57BL/6 J mice. The mice were exposed to air, propylene glycol/vegetable glycerin, and flavored e-liquids: Apple, Cherry, Strawberry, Wintergreen, and Smooth & Mild Tobacco, one hour per day for three days. Quantification of flavoring chemicals by proton nuclear magnetic resonance spectroscopy (1H NMR), differential cell counts by flow cytometry, pro-inflammatory cytokines/chemokines by ELISA, and matrix metalloproteinase levels by western blot were performed. Exposure to PG/VG increased neutrophil cell count in lung bronchoalveolar lavage fluid (BALF). KC and IL6 levels were increased by PG/VG exposure and female mice exposed to Cherry flavored e-cigarettes, in lung homogenate. Mice exposed to PG/VG, Apple, Cherry, and Wintergreen increased MMP2 levels. Our results revealed flavor- and sex-based e-cigarette effects in female mice exposed to cherry-flavored e-liquids and male mice exposed to tobacco-flavored e-liquids, namely, increased lung inflammation.

Published

2022

11. Current Perspectives on Characteristics, Compositions, and Toxicological Effects of E-Cigarettes Containing Tobacco and Menthol/Mint Flavors

Author

Gurjot Kaur, Anshuman Gaurav, Thomas Lamb, Melanie Perkins, Thivanka Muthumalage, and Irfan Rahman

Subjects

e-cigarettes, menthol, mint, tobacco, toxicity, Physiology, QP1-981

Abstract

Electronic nicotine delivery systems/devices (ENDS) such as electronic cigarettes (e-cigarettes) have been made available globally, with the intent to reduce tobacco smoking. To make these products more appealing to young adults, many brands have added flavoring agents. However, these flavoring agents are shown to progressively result in lung toxicity when inhaled via e-cigarettes. While recent federal regulations have banned the sale of flavored e-cigarettes other than tobacco or menthol flavors, concerns have been raised about the health effects of even these flavors. In this review, we evaluate the current toxicological data with regard to effects upon exposure in animal models and in vitro cell culture for these popular flavorants. We have tabulated the current e-cigarette products containing these most common flavors (menthol, mint, and tobacco) in the market. We have also indicated the prevalence of tobacco and menthol-flavor use among e-cigarette users and highlighted the possible challenges and benefits that will result from new federal regulations.

Published

2020

12. E-Liquid Containing a Mixture of Coconut, Vanilla, and Cookie Flavors Causes Cellular Senescence and Dysregulated Repair in Pulmonary Fibroblasts: Implications on Premature Aging

Author

Joseph H. Lucas, Thivanka Muthumalage, Qixin Wang, Michelle R. Friedman, Alan E. Friedman, and Irfan Rahman

Subjects

e-cigarette, e-liquid, senescence, wound healing, extracellular matrix, Physiology, QP1-981

Abstract

Electronic cigarette (e-cig) usage has risen dramatically worldwide over the past decade. While they are touted as a safe alternative to cigarettes, recent studies indicate that high levels of nicotine and flavoring chemicals present in e-cigs may still cause adverse health effects. We hypothesized that an e-liquid containing a mixture of tobacco, coconut, vanilla, and cookie flavors would induce senescence and disrupt wound healing processes in pulmonary fibroblasts. To test this hypothesis, we exposed pulmonary fibroblasts (HFL-1) to e-liquid at varying doses and assessed cytotoxicity, inflammation, senescence, and myofibroblast differentiation. We found that e-liquid exposure caused cytotoxicity, which was accompanied by an increase in IL-8 release in the conditioned media. E-liquid exposure resulted in elevated senescence-associated beta-galactosidase (SA-β-gal) activity. Transforming growth factor-β1 (TGF-β1) induced myofibroblast differentiation was inhibited by e-liquid exposure, resulting in decreased α-smooth muscle actin and fibronectin protein levels. Together, our data suggest that an e-liquid containing a mixture of flavors induces inflammation, senescence and dysregulated wound healing responses.

Published

2020

13. Cellular stress responses and dysfunctional Mitochondrial–cellular senescence, and therapeutics in chronic respiratory diseases

Author

Marko Manevski, Thivanka Muthumalage, Dinesh Devadoss, Isaac K. Sundar, Qixin Wang, Kameshwar P. Singh, Hoshang J. Unwalla, Hitendra S. Chand, and Irfan Rahman

Subjects

Mitochondrial dysfunction, ROS, UPR, DAMPs, Cellular senescence, Cigarette smoke, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The abnormal inflammatory responses due to the lung tissue damage and ineffective repair/resolution in response to the inhaled toxicants result in the pathological changes associated with chronic respiratory diseases. Investigation of such pathophysiological mechanisms provides the opportunity to develop the molecular phenotype-specific diagnostic assays and could help in designing the personalized medicine-based therapeutic approaches against these prevalent diseases. As the central hubs of cell metabolism and energetics, mitochondria integrate cellular responses and interorganellar signaling pathways to maintain cellular and extracellular redox status and the cellular senescence that dictate the lung tissue responses. Specifically, as observed in chronic obstructive pulmonary disease (COPD) and pulmonary fibrosis, the mitochondria-endoplasmic reticulum (ER) crosstalk is disrupted by the inhaled toxicants such as the combustible and emerging electronic nicotine-delivery system (ENDS) tobacco products. Thus, the recent research efforts have focused on understanding how the mitochondria-ER dysfunctions and oxidative stress responses can be targeted to improve inflammatory and cellular dysfunctions associated with these pathologic illnesses that are exacerbated by viral infections. The present review assesses the importance of these redox signaling and cellular senescence pathways that describe the role of mitochondria and ER on the development and function of lung epithelial responses, highlighting the cause and effect associations that reflect the disease pathogenesis and possible intervention strategies.

Published

2020

14. Pulmonary Toxicity and the Pathophysiology of Electronic Cigarette, or Vaping Product, Use Associated Lung Injury

Author

Hitendra S. Chand, Thivanka Muthumalage, Wasim Maziak, and Irfan Rahman

Subjects

E-cigarettes, vaping, tetrahydrocannabinol (THC), lipoid pneumonia, EVALI, Therapeutics. Pharmacology, RM1-950

Abstract

New emerging tobacco products, especially electronic cigarettes (E-Cig) or electronic nicotine delivery systems (ENDS), have gained a huge popularity, particularly in younger populations. The lack of sufficient evidence-based health effect studies has promoted widespread use/abuse with the assumption that E-Cig or ENDS and/or vaping products are safer and less toxic than conventional tobacco smoking. However, the recent escalation in acute lung injuries and their associated fatalities among ENDS or vaping product users has now brought attention to this silent epidemic via investigation into the constituents of ENDS/vaping products and their toxic effects on pulmonary health. Accordingly, CDC has declared an “outbreak” of the e-cigarette or vaping product use associated lung injury (EVALI). EVALI is characterized by sterile exogenous pneumonitis like reaction with substantial involvement of innate immune mechanisms. Vitamin-E acetate (VEA) is found in counterfeit cartridges and bronchoalveolar lavage fluid of EVALI patients. Other reports implicated the presence of aromatic/volatile hydrocarbons and oils consisting of medium-chain triglycerides (MCT oil), including terpenes and mineral oil in tetrahydrocannabinol (THC) containing counterfeit vaping products. These compounds are involved in oxidative stress and inflammatory responses in the lung. Here, we provide the perspectives on the recent case reports on EVALI, etiology, and discuss pulmonary toxicity as well as the mechanisms underlying EVALI susceptibility and lung pathophysiology.

Published

2020

15. Systemic biomarkers in electronic cigarette users: implications for noninvasive assessment of vaping-associated pulmonary injuries

Author

Kameshwar P. Singh, Gina Lawyer, Thivanka Muthumalage, Krishna P. Maremanda, Naushad Ahmad Khan, Samantha R. McDonough, Dongxia Ye, Scott McIntosh, and Irfan Rahman

Subjects

Medicine

Abstract

Background Electronic cigarettes (e-cigs) were introduced as electronic nicotine delivery systems, and have become very popular in the USA and globally. There is a paucity of data on systemic injury biomarkers of vaping in e-cig users that can be used as a noninvasive assessment of vaping-associated lung injuries. We hypothesised that characterisation of systemic biomarkers of inflammation, anti-inflammatory, oxidative stress, vascular and lipid mediators, growth factors, and extracellular matrix breakdown may provide information regarding the toxicity of vaping in e-cig users. Methods We collected various biological fluids, i.e. plasma, urine, saliva and exhaled breath condensate (EBC), measured pulmonary function and vaping characteristics, and assessed various biomarkers in e-cig users and nonusers. Results The plasma samples of e-cig users showed a significant increase in biomarkers of inflammation (interleukin (IL)-1β, IL-6, IL-8, IL-13, interferon (IFN)-γ, matrix metalloproteinase-9, intercellular cell adhesion molecule-1) and extracellular matrix breakdown (desmosine), and decreased pro-resolving lipid mediators (resolvin D1 and resolvin D2). There was a significant increase in growth factor (endothelial growth factor, vascular endothelial growth factor, β-nerve growth factor, platelet-derived growth factor-AA, stem cell factor, hepatocyte growth factor and placental growth factor) levels in plasma of e-cig users versus nonusers. E-cig users showed a significant increase in levels of inflammatory biomarker IFN-γ, oxidative stress biomarker 8-isoprostane and oxidative DNA damage biomarker 8-oxo-dG in urine samples, and of inflammatory biomarker IL-1β in saliva samples. EBC showed a slight increase in levels of triglycerides and 8-isoprostane in e-cig users compared with normal nonusers. Conclusion E-cig users have increased levels of biomarkers of inflammation and oxidative stress, reduced pro-resolving anti-inflammatory mediators, and endothelial dysfunction, which may act as risk factors for increasing susceptibility to systemic diseases. The identified noninvasive biomarkers can be used for determining e-cig vaping-associated lung injuries, and for regulatory and diagnostic aspects of vaping in humans.

Published

2019

16. Comparative Reactive Oxygen Species (ROS) Content among Various Flavored Disposable Vape Bars, including Cool (Iced) Flavored Bars

Author

Shaiesh Yogeswaran, Thivanka Muthumalage, and Irfan Rahman

Subjects

vaping, ENDS, disposable e-cigarettes, vape bars, flavoring, flavoring chemicals, Chemical technology, TP1-1185

Abstract

Studies have shown that aerosols generated from flavored e-cigarettes contain Reactive Oxygen Species (ROS), promoting oxidative stress-induced damage within pulmonary cells. Our lab investigated the ROS content of e-cigarette vapor generated from disposable flavored e-cigarettes (vape bars) with and without nicotine. Specifically, we analyzed vape bars belonging to multiple flavor categories (Tobacco, Minty Fruit, Fruity, Minty/Cool (Iced), Desserts, and Drinks/Beverages) manufactured by various vendors and of different nicotine concentrations (0–6.8%). Aerosols from these vape bars were generated via a single puff aerosol generator; these aerosols were then individually bubbled through a fluorogenic solution to semi-quantify ROS generated by these bars in H2O2 equivalents. We compared the ROS levels generated by each vape bar as an indirect determinant of their potential to induce oxidative stress. Our results showed that ROS concentration (μM) within aerosols produced from these vape bars varied significantly among different flavored vape bars and identically flavored vape bars with varying nicotine concentrations. Furthermore, our results suggest that flavoring chemicals and nicotine play a differential role in generating ROS production in vape bar aerosols. Our study provides insight into the differential health effects of flavored vape bars, in particular cool (iced) flavors, and the need for their regulation.

Published

2021

17. Multi-Walled Carbon Nanotubes (MWCNTs) Cause Cellular Senescence in TGF-β Stimulated Lung Epithelial Cells

Author

Joseph H. Lucas, Qixin Wang, Thivanka Muthumalage, and Irfan Rahman

Subjects

MWCNT, senescence, pulmonary fibrosis, epithelial cell, Chemical technology, TP1-1185

Abstract

Multi-walled carbon nanotubes are engineered nanomaterials (ENMs) that have a fiber-like structure which may be a concern for the development of cellular senescence. Premature senescence, a state of irreversible cell cycle arrest, is implicated in the pathogenesis of chronic lung diseases such as pulmonary fibrosis (PF). However, the crosstalk between downstream pathways mediating fibrotic and senescent responses of MWCNTs is not well-defined. Here, we exposed human bronchial epithelial cells (BEAS-2B) to MWCNTs for up to 72 h and demonstrate that MWCNTs increase reactive oxygen species (ROS) production accompanied by inhibition of cell proliferation. In addition, MWCNT exposure resulted in the increase of p21 protein abundance and senescence associated β-galactosidase (SA β-gal) activity. We also determined that co-exposure with the cytokine, transforming growth factor-β (TGF-β) exacerbated cellular senescence indicated by increased protein levels of p21, p16, and γH2A.X. Furthermore, the production of fibronectin and plasminogen activator inhibitor (PAI-1) was significantly elevated with the co-exposure compared to MWCNT or TGF-β alone. Together, our study suggests that the cellular senescence potential of MWCNTs may be enhanced by pro-fibrotic mediators, such as TGF-β in the surrounding microenvironment.

Published

2021

18. Pulmonary Toxicity and Inflammatory Response of Vape Cartridges Containing Medium-Chain Triglycerides Oil and Vitamin E Acetate: Implications in the Pathogenesis of EVALI

Author

Thivanka Muthumalage, Joseph H. Lucas, Qixin Wang, Thomas Lamb, Matthew D. McGraw, and Irfan Rahman

Subjects

EVALI, e-cigarettes, oxidative stress, inflammation, barrier dysfunction, MCT, Chemical technology, TP1-1185

Abstract

Recently, there has been an outbreak of a condition named e-cigarette or vaping products-associated lung injury (EVALI). The primary components of vaping products include tetrahydrocannabinol (THC), vitamin E acetate (VEA) and medium-chain triglycerides (MCT), may be responsible for acute lung toxicity. Currently, little information is available on the physiological and biological effects of exposure to these products. We hypothesized that these CBD/counterfeit vape cartridges and their constituents (VEA and MCT) induce pulmonary toxicity, mediated by oxidative damage and inflammatory responses, leading to acute lung injury. We studied the potential mechanisms of CBD/counterfeit vape cartridge aerosol induced inflammatory response by evaluating the generation of reactive oxygen species by MCT, VEA, and cartridges and their effects on the inflammatory state of pulmonary epithelium and immune cells both in vitro and in vivo. Cells exposed to these aerosols generated reactive oxygen species, caused cytotoxicity, induced epithelial barrier dysfunction, and elicited an inflammatory response. Using a murine model, the parameters of acute toxicity to aerosol inhalation were assessed. Infiltration of neutrophils and lymphocytes was accompanied by significant increases in IL-6, eotaxin, and G-CSF in the bronchoalveolar lavage fluid (BALF). In mouse BALF, eicosanoid inflammatory mediators, leukotrienes, were significantly increased. Plasma from e-cig users also showed increased levels of hydroxyeicosatetraenoic acid (HETEs) and various eicosanoids. Exposure to CBD/counterfeit vape cartridge aerosols showed the most significant effects and toxicity compared to MCT and VEA. In addition, we determined SARS-CoV-2 related proteins and found no impact associated with aerosol exposures from these tested cartridges. Overall, this study demonstrates acute exposure to specific CBD/counterfeit vape cartridges induces in vitro cytotoxicity, barrier dysfunction, and inflammation and in vivo mouse exposure induces acute inflammation with elevated proinflammatory markers in the pathogenesis of EVALI.

Published

2020

19. Classification of flavors in cigarillos and little cigars and their variable cellular and acellular oxidative and cytotoxic responses.

Author

Gina R Lawyer, Monica Jackson, Melanie Prinz, Thomas Lamb, Qixin Wang, Thivanka Muthumalage, and Irfan Rahman

Subjects

Medicine, Science

Abstract

Flavored tobacco products are increasing in popularity but remain unregulated, with the exception of the ban on flavored conventional cigarettes. Lack of regulation of cigarillos and little cigars allows vendors to have their own version of popular flavors, each with different chemical components. A new classification system was created for flavored cigars in order to easily communicate our results with the scientific community. To understand the physicochemical characteristics of flavored little cigars and cigarillo smoke, size distribution and concentration of particulate matter in smoke were determined. Acellular reactive oxygen species generation was measured as an indirect measurement of the potential to cause oxidative stress in cells. In addition, cigarillo smoke extract treatment on bronchial epithelial (Beas-2b) cells were assessed to determine the flavor-induced cellular toxicity. Flavored cigars/cigarillos showed significant variability in the tested parameters between flavors as well as brands of the same flavor, but most of the cigars showed higher potential of generating oxidative stress, than research grade cigarettes. Flavored cigars produced maximum particle concentrations at 1.0μm and 4.0 μm compared with 3R4F reference research cigarettes. A differential cytotoxic response was observed with cigarillo smoke extract treatments, with "fruits/candy" and "drinks" being the most toxic, but were not more cytotoxic than smoke from cigarettes. These cigarillos with flavors must be well characterized for toxicity in order to prevent adverse effects caused by exposure to flavor chemicals. Our study provides insight into understanding the potential health effects of flavor-infused cigars/cigarillos and the need for the regulation of those flavoring chemicals in these products. Future research is directed to determine the flavoring toxicity of little cigars and cigarillos in vivo studies.

Published

2019

20. Waterpipe smoke and e-cigarette vapor differentially affect circadian molecular clock gene expression in mouse lungs.

Author

Naushad Ahmad Khan, Shaiesh Yogeswaran, Qixin Wang, Thivanka Muthumalage, Isaac K Sundar, and Irfan Rahman

Subjects

Medicine, Science

Abstract

The use of emerging tobacco products, such as waterpipe or hookah and electronic cigarettes (e-cigs), has gained significant popularity and are promoted as safer alternatives to conventional cigarettes. Circadian systems are internal biological oscillations that are considered important regulators of immune functions in mammals. Tobacco induced inflammatory lung diseases frequently exhibit time-of-day/night variation in lung function and symptom severity. We investigated the impact of inhaled e-cig vapor and waterpipe smoke (WPS) on pulmonary circadian molecular clock disruption by determining the changes in expression levels and abundance of core clock component genes (BMAL1, CLOCK) and clock-controlled output genes (Rev-erbα, Per2, Rev-erbβ, Cry2, Rorα) in mouse lungs. We showed that the expression levels of these pulmonary core clock genes and clock-controlled output genes were altered significantly following exposure to WPS (Bmal1, Clock, and Rev-erbα). We further showed a significant yet differential effect on expression levels of core clock and clock-controlled genes (Bmal1, Per2) in the lungs of mice exposed to e-cig vapor containing nicotine. Thus, acute exposure to WPS and e-cig vapor containing nicotine contributes to altered expression of circadian molecular clock genes in mouse lungs, which may have repercussions on lung cellular and biological functions.

Published

2019

21. Chemical Constituents Involved in E-Cigarette, or Vaping Product Use-Associated Lung Injury (EVALI)

Author

Thivanka Muthumalage, Michelle R. Friedman, Matthew D. McGraw, Gary Ginsberg, Alan E. Friedman, and Irfan Rahman

Subjects

Vaping, EVALI, VAPI, e-cigarette, THC, cannabis, Chemical technology, TP1-1185

Abstract

The Centers for Disease Control declared e-cigarette, or vaping, product use-associated lung injury (EVALI) a national outbreak due to the high incidence of emergency department admissions and deaths. We have identified chemical constituents in e-cig counterfeit cartridges and compared these to medical-grade and CBD containing cartridges. Apart from vitamin E acetate (VEA) and tetrahydrocannabinol (THC), other potential toxicants were identified including solvent-derived hydrocarbons, silicon conjugated compounds, various terpenes, pesticides/plasticizers/polycaprolactones, and metals. This study provides additional insights into the chemicals associated with EVALI cartridges and thus may contribute to the underlying disease mechanism of acute lung injury.

Published

2020

22. Inflammatory and Oxidative Responses Induced by Exposure to Commonly Used e-Cigarette Flavoring Chemicals and Flavored e-Liquids without Nicotine

Author

Thivanka Muthumalage, Melanie Prinz, Kwadwo O. Ansah, Janice Gerloff, Isaac K. Sundar, and Irfan Rahman

Subjects

cigarettes, flavors, interleukin-8, monocytes, oxidative stress, inflammation, Physiology, QP1-981

Abstract

Background: The respiratory health effects of inhalation exposure to e-cigarette flavoring chemicals are not well understood. We focused our study on the immuno-toxicological and the oxidative stress effects by these e-cigarette flavoring chemicals on two types of human monocytic cell lines, Mono Mac 6 (MM6) and U937. The potential to cause oxidative stress by these flavoring chemicals was assessed by measuring the production of reactive oxygen species (ROS). We hypothesized that the flavoring chemicals used in e-juices/e-liquids induce an inflammatory response, cellular toxicity, and ROS production.Methods: Two monocytic cell types, MM6 and U937 were exposed to commonly used e-cigarette flavoring chemicals; diacetyl, cinnamaldehyde, acetoin, pentanedione, o-vanillin, maltol and coumarin at different doses between 10 and 1,000 μM. Cell viability and the concentrations of the secreted inflammatory cytokine interleukin 8 (IL-8) were measured in the conditioned media. Cell-free ROS produced by these commonly used flavoring chemicals were also measured using a 2′,7′dichlorofluorescein diacetate probe. These DCF fluorescence data were expressed as hydrogen peroxide (H2O2) equivalents. Cytotoxicity due to the exposure to selected e-liquids was assessed by cell viability and the IL-8 inflammatory cytokine response in the conditioned media.Results: Treatment of the cells with flavoring chemicals and flavored e-liquid without nicotine caused cytotoxicity dose-dependently. The exposed monocytic cells secreted interleukin 8 (IL-8) chemokine in a dose-dependent manner compared to the unexposed cell groups depicting a biologically significant inflammatory response. The measurement of cell-free ROS by the flavoring chemicals and e-liquids showed significantly increased levels of H2O2 equivalents in a dose-dependent manner compared to the control reagents. Mixing a variety of flavors resulted in greater cytotoxicity and cell-free ROS levels compared to the treatments with individual flavors, suggesting that mixing of multiple flavors of e-liquids are more harmful to the users.Conclusions: Our data suggest that the flavorings used in e-juices can trigger an inflammatory response in monocytes, mediated by ROS production, providing insights into potential pulmonary toxicity and tissue damage in e-cigarette users.

Published

2018

23. Pulmonary immune response regulation, genotoxicity, and metabolic reprogramming by menthol- and tobacco-flavored e-cigarette exposures in mice

Author

Thivanka Muthumalage and Irfan Rahman

Subjects

Toxicology

Abstract

Menthol and tobacco flavors are available for almost all tobacco products, including electronic cigarettes (e-cigs). These flavors are a mixture of chemicals with overlapping constituents. There are no comparative toxicity studies of these flavors produced by different manufacturers. We hypothesized that acute exposure to menthol and tobacco-flavored e-cig aerosols induces inflammatory, genotoxicity, and metabolic responses in mouse lungs. We compared two brands, A and B, of e-cig flavors (PG/VG, menthol, and tobacco) with and without nicotine for their inflammatory response, genotoxic markers, and altered genes and proteins in the context of metabolism by exposing mouse strains, C57BL/6J (Th1-mediated) and BALB/cJ (Th2-mediated). Brand A nicotine-free menthol exposure caused increased neutrophils and differential T-lymphocyte influx in bronchoalveolar lavage fluid and induced significant immunosuppression, while brand A tobacco with nicotine elicited an allergic inflammatory response with increased Eotaxin, IL-6, and RANTES levels. Brand B elicited a similar inflammatory response in menthol flavor exposure. Upon e-cig exposure, genotoxicity markers significantly increased in lung tissue. These inflammatory and genotoxicity responses were associated with altered NLRP3 inflammasome and TRPA1 induction by menthol flavor. Nicotine decreased surfactant protein D and increased PAI-1 by menthol and tobacco flavors, respectively. Integration of inflammatory and metabolic pathway gene expression analysis showed immunometabolic regulation in T cells via PI3K/Akt/p70S6k-mTOR axis associated with suppressed immunity/allergic immune response. Overall, this study showed the comparative toxicity of flavored e-cig aerosols, unraveling potential signaling pathways of nicotine and flavor-mediated pulmonary toxicological responses, and emphasized the need for standardized toxicity testing for appropriate premarket authorization of e-cigarette products.

Published

2023

24. Clearance of senescent cells reverts the cigarette smoke‐induced lung senescence and airspace enlargement in <scp>p16‐3MR</scp> mice

Author

Gagandeep Kaur, Thivanka Muthumalage, and Irfan Rahman

Subjects

Aging, Cell Biology

Published

2023

25. Dysregulated repair and inflammatory responses by e‐cigarette‐derived inhaled nicotine and humectant propylene glycol in a sex‐dependent manner in mouse lung

Author

Naushad Ahmad Khan, Tsai-Der Chuang, Virender K. Rehan, Isaac K. Sundar, Irfan Rahman, Gina Lawyer, Qixin Wang, Thivanka Muthumalage, Samantha R. McDonough, and Ming Gong

Subjects

Cancer Research, Physiology, Inflammation, Pharmacology, Biochemistry, Genetics and Molecular Biology (miscellaneous), Nicotine, 03 medical and health sciences, 0302 clinical medicine, medicine, extracellular matrix remodeling, dysregulated repair, lcsh:QH301-705.5, Research Articles, 030304 developmental biology, 0303 health sciences, Lung, Inhalation, biology, medicine.diagnostic_test, business.industry, respiratory system, Acute toxicity, 3. Good health, Bronchoalveolar lavage, medicine.anatomical_structure, 030228 respiratory system, lcsh:Biology (General), inflammation, propylene glycol, biology.protein, Molecular Medicine, ACTA2, medicine.symptom, business, Homeostasis, medicine.drug, Research Article, nicotine

Abstract

Nicotine inhalation via electronic cigarettes (e‐cigs) is an emerging concern. However, little is known about the acute toxicity in the lungs following inhalation of nicotine‐containing e‐cig aerosols. We hypothesized that acute exposure to aerosolized nicotine causes lung toxicity by eliciting inflammatory and dysregulated repair responses. Adult C57BL/6J mice were exposed 2 hours daily for 3 days to e‐cig aerosols containing propylene glycol (PG) with or without nicotine. Acute exposure to nicotine‐containing e‐cig aerosols induced inflammatory cell influx (neutrophils and CD8a+ T lymphocytes), and release of pro‐inflammatory cytokines in bronchoalveolar lavage fluid in a sex‐dependent manner. Inhalation of e‐cig aerosol containing PG alone significantly augmented the lung levels of various homeostasis/repair mediators (PPARγ, ADRP, ACTA2, CTNNB1, LEF1, β‐catenin, E‐cadherin, and MMP2) in a sex‐dependent manner when compared to air controls. These findings were accompanied by an increase in protein abundance and altered gene expression of lipogenic markers (PPARγ, ADRP) and myogenic markers (fibronectin, α‐smooth muscle actin and β‐catenin), suggesting a dysregulated repair response in mouse lungs. Furthermore, exposure to nicotine‐containing e‐cig aerosols or PG alone differentially affected the release of pro‐inflammatory cytokines in healthy and COPD human 3D EpiAirway tissues. Overall, acute exposure to nicotine‐containing e‐cig aerosols was sufficient to elicit a pro‐inflammatory response and altered mRNA and protein levels of myogenic, lipogenic, and extracellular matrix markers in mouse lung in a sex‐dependent manner. Thus, acute exposure to inhaled nicotine via e‐cig leads to dysregulated repair and inflammatory responses, which may lead to airway remodeling in the lungs.

Published

2019

26. Epithelial Ablation of Miro1/Rhot1 GTPase Leads to Mitochondrial Dysfunction and Lung Inflammation by Cigarette Smoke

Author

Irfan Rahman, Thivanka Muthumalage, Qixin Wang, and Shikha Sharma

Subjects

COPD, Lung, business.industry, medicine.medical_treatment, other, Inflammation, GTPase, Ablation, medicine.disease, medicine.anatomical_structure, Mitophagy, Cancer research, biochemistry, Cigarette smoke, Medicine, medicine.symptom, business

Abstract

Cigarette smoke (CS) exposure results in lung damage and inflammation through mitochondrial dysfunction. Mitochondria quality control is sustained by Miro1 (Rhot1), a calcium-binding membrane-anchored GTPase by its interaction with PINK1/Parkin during mitophagy. However, the exact mechanism that operates this interaction of mitophagy machinery in Miro1 degradation and CS-induced mitochondrial dysfunction that results in lung inflammation remains unclear. We hypothesized that mitochondrial Miro1 plays an important role in regulating mitophagy machinery and resulting lung inflammation by CS in mouse lung. We showed a role of Miro1 in CS-induced mitochondrial dysfunction and quality control mechanisms. The Rhot1Fl/Fl (WT) and lung epithelial cell-specific Rhot1 KO were exposed to mainstream CS for 3 days (acute) and 4 months (chronic). The cellular infiltration, cytokines, and lung histopathology were studied for the inflammatory response in the lungs. Acute CS exposure showed a notable increase in the total inflammatory cells, macrophages, and neutrophils associated with inflammatory mediators and Miro1 associated mitochondrial quality control proteins Parkin and OPA1. Chronic exposure showed an increase infiltration of total inflammatory cells and neutrophils versus air controls. Histopathological changes, such as pulmonary macrophages and neutrophils were increased in CS exposed mice. The epithelial Miro1 ablation led to augmentation of inflammatory cell infiltration with alteration in the levels of pro-inflammatory cytokines and histopathological changes. Thus, CS induces disruption of mitochondrial quality control mechanisms, and Rhot1/Miro1 mediates the process of CS-induced mitochondrial dysfunction ensuing lung inflammatory responses.

Published

2021

27. Epithelial Ablation of Miro1/Rhot1 GTPase Augments Lung Inflammation by Cigarette Smoke

Author

Irfan Rahman, Qixin Wang, Shikha Sharma, and Thivanka Muthumalage

Subjects

Chronic exposure, COPD, Lung, business.industry, mitochondrial quality control, Physiology, cigarette smoke, Miro1, lung inflammation, Inflammation, GTPase, medicine.disease, medicine.anatomical_structure, Mitophagy, Cancer research, Medicine, Cigarette smoke, QP1-981, medicine.symptom, business, Infiltration (medical)

Abstract

Mitochondrial quality control is sustained by Miro1 (Rhot1), a calcium-binding membrane-anchored GTPase during mitophagy. The exact mechanism that operates the interaction of Miro1 with mitophagy machinery and their role in cigarette smoke (CS)-induced mitochondrial dysfunction that often results in lung inflammation is unclear. We hypothesized that Miro1 plays an important role in regulating mitophagy machinery and the resulting lung inflammation by CS exposure to mice. The lung epithelial Rhot1fl/fl (WT) and Rhot1CreCC10 mice were exposed to mainstream CS for 3 days (acute) and 4 months (chronic). Acute CS exposure showed a notable increase in the total inflammatory cells, macrophages, and neutrophils that are associated with inflammatory mediators. Chronic exposure showed increased infiltration of neutrophils versus air controls. The effects of acute and chronic CS exposure were augmented in the Rhot1CreCC10 group, indicating that epithelial Miro1 ablation led to the augmentation of inflammatory cell infiltration with alteration in the inflammatory mediators. Thus, Rhot1/Miro1 plays an important role in regulating CS-induced lung inflammatory responses with implications in mitochondrial quality control.

Published

2021

28. Comparative Reactive Oxidative Species (ROS) Content among Disposable Flavored Vape Bars

Author

Irfan Rahman, Thivanka Muthumalage, and Shaiesh Yogeswaran

Subjects

environmental_sciences, chemistry.chemical_classification, Reactive oxygen species, Chemistry, medicine, food and beverages, Food science, equipment and supplies, medicine.disease_cause, Oxidative stress

Abstract

Studies have shown that aerosols generated from flavored e-cigarettes contain Reactive Oxygen Species (ROS), promoting oxidative stress-induced damage within pulmonary cells. Our lab investigated the ROS content of e-cigarette vapor generated from disposable vape bars, a product exempt from the Federal Drug Enforcement Agency’s (FDA) 2020 flavor ban. Specifically, we analyzed vape bars belonging to multiple flavor categories (Tobacco, Minty Fruit, Fruity, Minty/Menthol, Desserts, and Drinks), manufactured by various vendors and of various nicotine concentrations (0-6.8%). Aerosols from these flavored vape bars were generated by a single puff aerosol generator and individually bubbled through a fluorogenic solution to detect and semi-quantify ROS in H2O2 equivalents generated by the vape bars. We compared and contrasted the ROS levels generated by each flavor as an indirect determinant of oxidative stress potential by these disposable vape bars. Our results showed that ROS concentration (μM) of aerosols produced from the vape bars varied significantly between different flavors and a function of nicotine concentration. Likewise, our results suggest that flavoring chemicals and nicotine concentration play a role in alerting ROS production in e-cigarette aerosols. Our study provides insight into the differential health effects of flavored disposable vape bars and the need for their regulation.

Published

2021

29. Molecular clock REV-ERBα regulates cigarette smoke–induced pulmonary inflammation and epithelial-mesenchymal transition

Author

Isaac K. Sundar, Joseph H. Lucas, Qixin Wang, Thivanka Muthumalage, and Irfan Rahman

Subjects

0301 basic medicine, Agonist, Male, Epithelial-Mesenchymal Transition, Pulmonology, medicine.drug_class, Inflammation, Pathogenesis, 03 medical and health sciences, Mice, 0302 clinical medicine, Smoke, Medicine, COPD, Animals, Circadian rhythm, Epithelial–mesenchymal transition, Receptor, Fibroblast, Lung, business.industry, General Medicine, Pneumonia, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Nuclear Receptor Subfamily 1, Group D, Member 1, Cancer research, Female, medicine.symptom, business, Research Article

Abstract

Cigarette smoke (CS) is the main etiological factor in the pathogenesis of emphysema/chronic obstructive pulmonary disease (COPD), which is associated with abnormal epithelial-mesenchymal transition (EMT). Previously, we have shown an association among circadian rhythms, CS-induced lung inflammation, and nuclear heme receptor α (REV-ERBα), acting as an antiinflammatory target in both pulmonary epithelial cells and fibroblasts. We hypothesized that molecular clock REV-ERBα plays an important role in CS-induced circadian dysfunction and EMT alteration. C57BL/6J WT and REV-ERBα heterozygous (Het) and -KO mice were exposed to CS for 30 days (subchronic) and 4 months (chronic), and WT mice were exposed to CS for 10 days with or without REV-ERBα agonist (SR9009) administration. Subchronic/chronic CS exposure caused circadian disruption and dysregulated EMT in the lungs of WT and REV-ERBα-KO mice; both circadian and EMT dysregulation were exaggerated in the REV-ERBα-KO condition. REV-ERBα agonist, SR9009 treatment reduced acute CS-induced inflammatory response and abnormal EMT in the lungs. Moreover, REV-ERBα agonist (GSK4112) inhibited TGF-β/CS-induced fibroblast differentiation in human fetal lung fibroblast 1 (HFL-1). Thus, CS-induced circadian gene alterations and EMT activation are mediated through a Rev-erbα-dependent mechanism, which suggests activation of REV-ERBα as a novel therapeutic approach for smoking-induced chronic inflammatory lung diseases.

Published

2021

30. Toxicological assessment of e‐cigarette or vaping product use associated lung injury (EVALI) cartridges and constituents

Author

Thivanka Muthumalage, Michelle R. Friedman, Matthew D. McGraw, Alan E. Friedman, and Irfan Rahman

Subjects

Lung, Inhalation, medicine.diagnostic_test, Pulmonary toxicity, Chemistry, respiratory system, Pharmacology, Lung injury, Biochemistry, medicine.anatomical_structure, Bronchoalveolar lavage, Eicosanoid, Lipidomics, Toxicity, Genetics, medicine, Molecular Biology, Biotechnology

Abstract

Rationale Definitive causative agents of the outbreak associated with the use of e-cigarette, or vaping product use associated lung injury (EVALI) are unknown. Patients diagnosed with EVALI have used vape products containing tetrahydrocannabinol (THC) and vitamin E acetate (VEA). Hypothesis We hypothesized that inhalation of these EVALI vape cartridges and their constituents induce pulmonary toxicity, mediated by oxidative damage and inflammatory responses, leading to acute lung injury, and alters SARS-CoV-2 related proteins. Methods Vaping products were recovered from hospitalized patients at the University of Rochester Medical Center. Cartridge constituents were characterized by gas chromatography and mass spectrometry. Comparative toxicity of exposure to common vape cartridge components such as medium-chain triglyceride (MCT) oil, VEA, and patient-derived cartridge aerosols was assessed by in vitro and in vivo models. Lung epithelial cells (BEAS-2B) and monocytes (Mono-Mac-6). Cells were exposed to MCT, VEA, and cartridge aerosols and the elicited inflammatory response, barrier function, and lipid-laden index were determined. C57BL/6 mice were exposed to MCT, VEA, and vape cartridge aerosols for three days (1 hr/day). The immune response was determined by differential cell counts, cytokine milieu, and lipidomics analysis in bronchoalveolar lavage fluid (BALF). Lung surfactant protein (SP-A), SARS-CoV-2 proteins (ACE2 and TMPRSS2) were quantified in the lung homogenates. Results Constituents identified patient-derived vaping products included reactive hydrocarbons and various forms of cannabinoids. VEA and cartridge aerosols induced significantly increased IL-6 and IL-8 responses in lung epithelial cells and monocytes. MCT, VEA, and cartridge aerosols induced barrier dysfunction. Increased lipid-laden indices were observed in MM6 cells. In mice, acute exposure to cartridge aerosols caused a significant infiltration of leukocytes in BALF and increased IL-6, eotaxin, and G-CSF in the BALF. Lipidomics analysis showed significantly increased eicosanoid inflammatory mediators and leukotrienes. Reduced levels of SP-A levels were seen in lung homogenates. Exposure to cartridge aerosols showed the most significant effects and toxicity compared to MCT and VEA. SARS-CoV-2 related proteins were not affected. Conclusion Acute exposure to vape cartridges induces cytotoxicity, barrier dysfunction, and elicit an inflammatory response in lung cells and mice, which are potential predictive toxicological markers of EVALI. Toxicity of vape cartridges was independent of SARS-CoV-2 proteins. This study provides important identification of potential chemical constituents, toxicological responses, and potential biomarkers of EVALI.

Published

2021

31. Genetic Ablation of Miro1 Leads to Mitochondrial Dysfunction and Lung Inflammation by Cigarette Smoke

Author

Gagandeep Kaur, Thivanka Muthumalage, Krishna Prahlad Maremanda, Isaac K. Sundar, L. Chakrapani, Shikha Sharma, Qixin Wang, and Irfan Rahman

Subjects

Pathology, medicine.medical_specialty, Lung, medicine.anatomical_structure, business.industry, medicine, Cigarette smoke, Inflammation, medicine.symptom, business, Genetic ablation

Published

2021

32. Selective Ablation of Telomere Protection Protein 1 (TPP1) in Lung Epithelium Induce an Age-Dependent Augmentation of the Inflammatory Response by Tobacco Smoke Exposure

Author

Irfan Rahman and Thivanka Muthumalage

Subjects

business.industry, Selective ablation, Inflammatory response, Lung epithelium, Tobacco smoke exposure, Cancer research, Medicine, Age dependent, business, Telomere

Published

2021

33. Persistently Increased Systemic ACE2 Activity Is Associated With an Increased Inflammatory Response in Smokers With COVID-19

Author

Thivanka Muthumalage, Shaiesh Yogeswaran, Gagandeep Kaur, and Irfan Rahman

Subjects

0301 basic medicine, Eotaxin, Chemokine, Physiology, medicine.medical_treatment, ACE2, Inflammation, smokers, 030204 cardiovascular system & hematology, Lung injury, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Medicine, QP1-981, Original Research, Cardiopulmonary disease, biology, business.industry, COVID-19, 030104 developmental biology, Cytokine, inflammation, Immunology, biology.protein, Increased inflammatory response, medicine.symptom, business, furin

Abstract

Background: Tobacco smoking is known to be involved in the pathogenesis of several cardiopulmonary diseases. Additionally, smokers are highly susceptible to infectious agents due to weakened immunity. However, the progression of lung injury based on SARS-CoV-2-mediated COVID-19 pathogenesis amongst smokers and those with pre-existing pulmonary diseases is not known. We determined the systemic levels and activity of COVID-19 associated proteins, cytokine/chemokines, and lipid mediators (lipidomics) amongst COVID-19 patients with and without a history of smoking to understand the underlying susceptible factor in the pathogenesis of COVID-19.Methods: We obtained serum from healthy (CoV−), COVID-19 positive (CoV+), and COVID-19 recovered (CoV Rec) subjects with and without a history of smoking. We conducted a Luminex multiplex assay (cytokine levels), LC/MS (eicosanoids or oxylipin panel), and ACE2 enzymatic activity assays on the serum samples to determine the systemic changes in COVID-19 patients.Results: On comparing the levels of serum ACE2 amongst COVID-19 (positive and recovered) patients and healthy controls, we found a pronounced increase in serum ACE2 levels in patients with COVID-19 infection. Furthermore, ACE2 enzyme activity was significantly increased amongst COVID-19 patients with a smoking history. Also, we analyzed the levels of Angiotensin 1–7 (Ang1–7) peptide, the product of enzymatic action of ACE2, in the serum samples. We found significantly high levels of Ang1–7 in the serum of both CoV+ and CoV Rec patients. Our data further demonstrated a smoking-induced increase in serum furin and inflammatory cytokine [IFNγ(p = 0.0836), Eotaxin (p < 0.05), MCP-1 (p < 0.05), and IL-9 (p = 0.0991)] levels in COVID-19 patients as compared to non-smoking controls. Overall, our results show that smoking adversely affects the levels of systemic inflammatory markers and COVID-19 associated proteins, thus suggesting that COVID-19 infection may have severe outcomes amongst smokers.

Published

2021

34. Persistently increased systemic ACE2 activity and Furin levels are associated with increased inflammatory response in smokers with SARS-CoV-2 COVID-19

Author

Gagandeep Kaur, Thivanka Muthumalage, Irfan Rahman, and Shaiesh Yogeswaran

Subjects

Eotaxin, Chemokine, biology, business.industry, medicine.medical_treatment, Lung injury, Pathogenesis, Cytokine, Immunology, medicine, biology.protein, Increased inflammatory response, business, Furin, Cardiopulmonary disease

Abstract

BackgroundTobacco smoking is known to be involved in the pathogenesis of several cardiopulmonary diseases, and smokers are susceptible to infectious agents. However, the progression of lung injury based on COVID-19 susceptibility and severity amongst smokers and those with pre-existing pulmonary diseases is not known. We determined the systemic expression and activity of COVID-19 related proteins, cytokine/chemokines, and lipid mediators (lipidomics) amongst COVID-19 patients with and without a history of smoking with a view to define biomarkers.MethodsWe obtained serum from COVID-19 positive and COVID-19 recovered patients with and without a history of smoking. We conducted a Luminex multiplex assay (cytokine levels), LC/MS (eicosanoids or oxylipin panel) and enzymatic activity assays on the serum samples to study the systemic changes in COVID-19 patients.ResultsOn comparing the cytokine profiles among COVID-19 positive and COVID-19 negative patients, we found a significant upregulation in the production of pro-inflammatory cytokines like IL-1α, IL-8, IL-2, VEGF and IL-10 in COVID-19 positive patients as compared to the respective controls. Interestingly, smoking history resulted in further augmentation of the release of some hyper-inflammatory cytokines, like IFN-γ, Eotaxin, MCP-1 and IL-9 amongst COVID-19 positive patients. The enzymatic activity for ACE2, the binding partner for SARS-CoV2 virus in the host cell, was found to be significantly increased in the serum of patients with a smoking history compared to the serum collected from the non-smoking controls. Similarly to our cytokine analysis, our measurement of serum Furin levels was also affected by the patient’s smoking history, in which we reported a substantial rise in serum Furin levels of COVID-19 patients. The analysis of lipid mediators revealed a distinct signature amongst the COVID-19 positive versus recovered subjects in PGF2α, HETEs, LXA4 and LTB4 levels. However, we did not find any changes in the levels of any lipid mediators based on the smoking history of the patients. Overall, our results point towards distinct systemic signatures amongst COVID-19 positive patients. We also show that smoking adversely affects the systemic levels of inflammatory markers and COVID-19 related proteins, thus suggesting that COVID-19 infection may have severe outcomes amongst smokers which is reflected systemically.

Published

2021

35. E-Liquid Containing a Mixture of Coconut, Vanilla, and Cookie Flavors Causes Cellular Senescence and Dysregulated Repair in Pulmonary Fibroblasts: Implications on Premature Aging

Author

Irfan Rahman, Joseph H. Lucas, Thivanka Muthumalage, Qixin Wang, Alan E. Friedman, and Michelle R. Friedman

Subjects

0301 basic medicine, Premature aging, Senescence, senescence, Physiology, extracellular matrix, Inflammation, wound healing, Pharmacology, e-cigarette, lcsh:Physiology, Nicotine, Extracellular matrix, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), medicine, biology, lcsh:QP1-981, Chemistry, e-liquid, Fibronectin, 030104 developmental biology, 030220 oncology & carcinogenesis, biology.protein, medicine.symptom, Wound healing, Myofibroblast, medicine.drug

Abstract

Electronic cigarette (e-cig) usage has risen dramatically worldwide over the past decade. While they are touted as a safe alternative to cigarettes, recent studies indicate that high levels of nicotine and flavoring chemicals present in e-cigs may still cause adverse health effects. We hypothesized that an e-liquid containing a mixture of tobacco, coconut, vanilla, and cookie flavors would induce senescence and disrupt wound healing processes in pulmonary fibroblasts. To test this hypothesis, we exposed pulmonary fibroblasts (HFL-1) to e-liquid at varying doses and assessed cytotoxicity, inflammation, senescence, and myofibroblast differentiation. We found that e-liquid exposure caused cytotoxicity, which was accompanied by an increase in IL-8 release in the conditioned media. E-liquid exposure resulted in elevated senescence-associated beta-galactosidase (SA-β-gal) activity. Transforming growth factor-β1 (TGF-β1) induced myofibroblast differentiation was inhibited by e-liquid exposure, resulting in decreased α-smooth muscle actin and fibronectin protein levels. Together, our data suggest that an e-liquid containing a mixture of flavors induces inflammation, senescence and dysregulated wound healing responses.

Published

2020

36. Acute Effects of Heated Tobacco Product (IQOS) Aerosol Inhalation on Lung Tissue Damage and Inflammatory Changes in the Lungs

Author

Tariq A. Bhat, Suresh Gopi Kalathil, Yasmin Thanavala, Irfan Rahman, Thivanka Muthumalage, Maciej L. Goniewicz, and Noel J. Leigh

Subjects

Chemokine, medicine.medical_treatment, Original Investigations, Inflammation, Proinflammatory cytokine, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, RAR-related orphan receptor gamma, Smoke, Tobacco, medicine, Animals, 030212 general & internal medicine, Lung, Aerosols, Inhalation, biology, business.industry, Public Health, Environmental and Occupational Health, Tobacco Products, respiratory system, respiratory tract diseases, medicine.anatomical_structure, Cytokine, Immunology, biology.protein, medicine.symptom, business, 030215 immunology

Abstract

IntroductionEmerging heated tobacco products (HTPs) were designed to reduce exposure to toxicants from cigarette smoke (CS) by avoiding burning tobacco and instead heating tobacco. We studied the effects of short-term inhalation of aerosols emitted from HTP called IQOS, on lung damage and immune-cell recruitment to the lungs in mice.MethodsNumerous markers of lung damage and inflammation including albumin and lung immune-cell infiltrates, proinflammatory cytokines, and chemokines were quantified in lungs and bronchoalveolar (BAL) fluid from IQOS, CS, or air-exposed (negative control) mice.ResultsImportantly, as a surrogate marker of lung epithelial-cell damage, we detected significantly increased levels of albumin in the BAL fluid of both HTP- and CS-exposed mice compared with negative controls. Total numbers of leukocytes infiltrating the lungs were equivalent following both IQOS aerosols and CS inhalation and significantly increased compared with air-exposed controls. We also observed significantly increased numbers of CD4+IL-17A+ T cells, a marker of a T-cell immune response, in both groups compared with air controls; however, numbers were the highest following CS exposure. Finally, the numbers of CD4+RORγt+ T cells, an inflammatory T-cell subtype expressing the transcription factor that is essential for promoting differentiation into proinflammatory Th17 cells, were significantly augmented in both groups compared with air-exposed controls. Levels of several cytokines in BAL were significantly elevated, reflecting a proinflammatory milieu.ConclusionsOur study demonstrates that short-term inhalation of aerosols from IQOS generates damage and proinflammatory changes in the lung that are substantially similar to that elicited by CS exposure.ImplicationsExposure of mice to IQOS, one of the candidate modified-risk tobacco products, induces inflammatory immune-cell accumulation in the lungs and augments the levels of proinflammatory cytokines and chemokines in the BAL fluid. Such an exacerbated pulmonary proinflammatory microenvironment is associated with lung epithelial-cell damage in IQOS-exposed mice, suggesting a potential association with the impairment of lung function.

Published

2020

37. Pulmonary toxicity and inflammatory response of e-cigarettes containing medium-chain triglyceride oil and vitamin E acetate: Implications in the pathogenesis of EVALI but independent of SARS-COV-2 COVID-19 related proteins

Author

Thivanka Muthumalage, Thomas Lamb, Matthew D. McGraw, Joseph H. Lucas, Irfan Rahman, and Qixin Wang

Subjects

medicine.diagnostic_test, Chemistry, Pulmonary toxicity, Inflammation, Lung injury, Pharmacology, respiratory system, Acute toxicity, Bronchoalveolar lavage, Eicosanoid, Toxicity, medicine, medicine.symptom, Vitamin E Acetate

Abstract

Recently, there has been an outbreak associated with the use of e-cigarette or vaping products, associated lung injury (EVALI). The primary components of vaping products, vitamin E acetate (VEA) and medium-chain triglycerides (MCT) may be responsible for acute lung toxicity. Currently, little information is available on the physiological and biological effects of exposure to these products. We hypothesized that these e-cig cartridges and their constituents (VEA and MCT) induce pulmonary toxicity, mediated by oxidative damage and inflammatory responses, leading to acute lung injury. We studied the potential mechanisms of cartridge aerosol induced inflammatory response by evaluating the generation of reactive oxygen species by MCT, VEA, and cartridges, and their effects on the inflammatory state of pulmonary epithelium and immune cells both in vitro and in vivo. Cells exposed to these aerosols generated reactive oxygen species, caused cytotoxicity, induced epithelial barrier dysfunction, and elicited an inflammatory response. Using a murine model, the parameters of acute toxicity to aerosol inhalation were assessed. Infiltration of neutrophils and lymphocytes was accompanied by significant increases in IL-6, eotaxin, and G-CSF in the bronchoalveolar lavage fluid (BALF). In mouse plasma, eicosanoid inflammatory mediators, leukotrienes, were significantly increased. Plasma from e-cig users also showed increased levels of hydroxyeicosatetraenoic acid (HETEs) and various eicosanoids. Exposure to e-cig cartridge aerosols showed the most significant effects and toxicity compared to MCT and VEA. In addition, we determined at SARS-COV-2 related proteins and found no impact associated with aerosol exposures from these tested cartridges. Overall, this study demonstrates acute exposure to specific e-cig cartridges induces in vitro cytotoxicity, barrier dysfunction, and inflammation and in vivo mouse exposure induces acute inflammation with elevated pro-inflammatory markers in the pathogenesis of EVALI.

Published

2020

38. Cellular stress responses and dysfunctional Mitochondrial–cellular senescence, and therapeutics in chronic respiratory diseases

Author

Hitendra S. Chand, Marko Manevski, Hoshang J. Unwalla, Isaac K. Sundar, Thivanka Muthumalage, Irfan Rahman, Qixin Wang, Kameshwar P. Singh, and Dinesh Devadoss

Subjects

0301 basic medicine, Clinical Biochemistry, UPR, Mitochondrion, Bioinformatics, medicine.disease_cause, Cellular senescence, Biochemistry, Article, 03 medical and health sciences, Pulmonary Disease, Chronic Obstructive, 0302 clinical medicine, Fibrosis, Pulmonary fibrosis, medicine, COPD, Humans, Lung, lcsh:QH301-705.5, DAMPs, lcsh:R5-920, business.industry, Organic Chemistry, Cigarette smoke, ROS, medicine.disease, Mitochondria, Oxidative Stress, 030104 developmental biology, Cell metabolism, medicine.anatomical_structure, lcsh:Biology (General), Signal transduction, business, Mitochondrial dysfunction, lcsh:Medicine (General), 030217 neurology & neurosurgery, Oxidative stress

Abstract

The abnormal inflammatory responses due to the lung tissue damage and ineffective repair/resolution in response to the inhaled toxicants result in the pathological changes associated with chronic respiratory diseases. Investigation of such pathophysiological mechanisms provides the opportunity to develop the molecular phenotype-specific diagnostic assays and could help in designing the personalized medicine-based therapeutic approaches against these prevalent diseases. As the central hubs of cell metabolism and energetics, mitochondria integrate cellular responses and interorganellar signaling pathways to maintain cellular and extracellular redox status and the cellular senescence that dictate the lung tissue responses. Specifically, as observed in chronic obstructive pulmonary disease (COPD) and pulmonary fibrosis, the mitochondria-endoplasmic reticulum (ER) crosstalk is disrupted by the inhaled toxicants such as the combustible and emerging electronic nicotine-delivery system (ENDS) tobacco products. Thus, the recent research efforts have focused on understanding how the mitochondria-ER dysfunctions and oxidative stress responses can be targeted to improve inflammatory and cellular dysfunctions associated with these pathologic illnesses that are exacerbated by viral infections. The present review assesses the importance of these redox signaling and cellular senescence pathways that describe the role of mitochondria and ER on the development and function of lung epithelial responses, highlighting the cause and effect associations that reflect the disease pathogenesis and possible intervention strategies.

Published

2020

39. Telomere Protection Protein 1 (TPP1) Deletion in Lung Epithelial Cells Augments Cigarette Smoke-Induced Lung Inflammation

Author

Thivanka Muthumalage, Isaac K. Sundar, and Irfan Rahman

Subjects

Lung, medicine.anatomical_structure, business.industry, Cancer research, Medicine, Cigarette smoke, Inflammation, medicine.symptom, business, Telomere

Published

2020

40. Clinical, Chemical, and Toxicological Analyses of E-cigarette, or Vaping, Product Use-Associated Lung Injury (EVALI)

Author

Matthew D. McGraw, Milton Friedman, Alan E. Friedman, Nicholas Nacca, Thivanka Muthumalage, Daniel P. Croft, and Irfan Rahman

Subjects

business.industry, Medicine, Product (category theory), Pharmacology, Lung injury, business

Published

2020

41. Propylene Glycol/Vegetable Glycerin and Menthol-Flavored E-cigarette Aerosol Induced Strain and Sex Dependent Immune-Toxicity in Mice

Author

Irfan Rahman, Thivanka Muthumalage, and Isaac K. Sundar

Subjects

chemistry.chemical_compound, chemistry, Strain (chemistry), Immune toxicity, Food science, Menthol, Polyvinyl alcohol, Aerosol

Published

2020

42. Biomarkers of Inflammation, Oxidative Stress, Pro-Resolving Lipid Mediators, Triglycerides, Growth Factors and Tissue Injury in Electronic Cigarette Users: Implications for Non-Invasive Assessment of Vaping Associated Lung Injuries

Author

Irfan Rahman, Kameshwar P. Singh, Naushad Ahmad Khan, Samantha R. McDonough, Dongxia Ye, Krishna Prahlad Maremanda, Scott McIntosh, Gina Lawyer, and Thivanka Muthumalage

Subjects

Lung, business.industry, Non invasive, Inflammation, Lipid signaling, medicine.disease_cause, law.invention, medicine.anatomical_structure, law, Immunology, medicine, medicine.symptom, business, Electronic cigarette, Oxidative stress

Published

2020

43. E-cigarette-Induced Pulmonary Inflammation and Dysregulated Repair are Mediated by nAChR α7 Receptor: Role of nAChR α7 in ACE2 Covid-19 receptor regulation

Author

Isaac K. Sundar, Thivanka Muthumalage, Joseph Lucas, Dongmei Li, Qixin Wang, Samantha R. McDonough, and Irfan Rahman

Subjects

Inflammation, medicine.medical_specialty, Chemistry, Matrix metalloproteinase, MMP9, MMP8, Article, nAChR α7, Nicotine, Extracellular matrix, Endocrinology, Dysregulated repair, Internal medicine, Toxicity, medicine, E-cig exposure, medicine.symptom, Receptor, medicine.drug

Abstract

Electronic cigarette (e-cig) vaping is increasing rapidly in the United States, as e-cigs are considered less harmful than combustible cigarettes. However, limited research has been conducted to understand the possible mechanism that mediate, toxicity and pulmonary health effects of e-cigs. We hypothesized that sub-chronic e-cig exposure induces inflammatory response and dysregulated repair/extracellular matrix (ECM) remodeling, which occur through the α7 nicotinic acetylcholine receptor (nAChR α7). Adult wild-type (WT), nAChRα7 knockout (KO), and lung epithelial cell-specific KO (nAChRα7 CreCC10) mice were exposed to e-cig aerosol containing propylene glycol (PG) with or without nicotine. Bronchoalveolar lavage fluids (BALF) and lungs tissues were collected to determine e-cig induced inflammatory response and ECM remodeling, respectively. Sub-chronic e-cig exposure with nicotine increased the inflammatory cellular influx of macrophages and T-lymphocytes including increased pro-inflammatory cytokines in BALF and increased ACE2 Covid-19 receptor, whereas nAChR α7 KO mice show reduced inflammatory responses associated with decreased ACE2 receptor. Interestingly, matrix metalloproteinases (MMPs), such as MMP2, MMP8, and MMP9 were altered both at the protein and mRNA transcript levels in female and male, but WT mice exposed to PG alone showed a sex-dependent phenotype. Moreover, MMP12 was increased significantly in male mice exposed to PG with or without nicotine in a nAChR α7-dependent manner. Additionally, sub-chronic e-cig exposure with or without nicotine altered the abundance of ECM proteins, such as collagen and fibronectin significantly in a sex-dependent manner, but without the direct role of nAChR α7 gene. Overall, sub-chronic e-cig exposure with or without nicotine affected lung inflammation and repair responses/ECM remodeling, which were mediated by nAChR α7 in a sex-dependent manner.

Published

2020

44. Pod-based menthol and tobacco flavored e-cigarettes cause mitochondrial dysfunction in lung epithelial cells

Author

Thomas Lamb, Irfan Rahman, and Thivanka Muthumalage

Subjects

0301 basic medicine, Oxidative phosphorylation, Pharmacology, Electronic Nicotine Delivery Systems, Toxicology, Article, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Respiration, medicine, Coupling efficiency, Humans, Lung, chemistry.chemical_classification, Aerosols, Reactive oxygen species, Electron Transport Complex I, Smoking, Epithelial Cells, General Medicine, Tobacco Products, Electron transport chain, Mitochondria, Flavoring Agents, Menthol, 030104 developmental biology, Point of delivery, medicine.anatomical_structure, chemistry, Energy Metabolism, 030217 neurology & neurosurgery

Abstract

Current FDA regulations have resulted in a ban of flavored e-cigarette pods, with only menthol and tobacco flavored pods being exempted. Previous work using menthol and tobacco-flavored e-cigarettes have been shown to induce mitochondrial reactive oxygen species. We hypothesized that exposure to pod-based JUUL Menthol and Virginia Tobacco aerosols will alter mitochondrial respiration and electron transport chain protein levels. We determined mitochondrial respiration by using a Seahorse technique and electron transport chain complexes by total OXPHOS antibodies after exposing lung epithelial cells, Beas-2b, to pod-based Menthol and Virginia Tobacco favored aerosols. Menthol pod exposure resulted in an immediate increase in proton leak and decrease coupling efficiency, as well as a decrease in complex I, II, and IV. Menthol pod exposure twenty-four hour post exposure resulted in a decrease in basal respiration, maximal respiration, and spare capacity, as well as a decrease in complex I. Tobacco pod exposure resulted in no significant alterations to mitochondrial respiration, but immediately post final exposure resulted in a significant increase in complex I, IV, and V. Our results indicate that exposure to Menthol flavored e-cigarette pods causes mitochondrial respiration dysfunction in lung epithelial cells.

Published

2020

45. Testing of an oral dosing technique for double-crested cormorants, Phalacocorax auritus , laughing gulls, Leucophaeus atricilla , homing pigeons, Columba livia , and western sandpipers, Calidris mauri , with artificially weather MC252 oil

Author

Steven J. Bursian, Karen L. Pritsos, I. Lipton, Thivanka Muthumalage, K. E. Harr, Michael W. Carney, Fred L. Cunningham, Karen M. Dean, John K. Moye, John P. Isanhart, Chris A. Pritsos, Cristina R. Perez, Katherine A. Healy, Jane E. Link, Lisa V. Kennedy, Andrew K. McFadden, Susan A. Shriner, Katherine E. Horak, Christopher G. Guglielmo, Dave Cacela, Alexander R. Gerson, Christine K. Ellis, and Katie C. Hanson-Dorr

Subjects

Male, food.ingredient, Metabolic Clearance Rate, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Administration, Oral, Zoology, 02 engineering and technology, 010501 environmental sciences, Biology, 01 natural sciences, Birds, chemistry.chemical_compound, food, Toxicity Tests, Animals, Weather, Leucophaeus, Oil toxicity, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Homing (biology), Public Health, Environmental and Occupational Health, Blood Proteins, Organ Size, General Medicine, Glutathione, biology.organism_classification, Pollution, Blood Cell Count, Oxidative Stress, Calidris, Petroleum, Liver, chemistry, Biochemistry, Organ Specificity, biology.protein, Uric acid, Glutathione disulfide, Female, Creatine kinase, Biomarkers, Water Pollutants, Chemical

Abstract

Scoping studies were designed to determine if double-crested cormorants (Phalacocorax auritus), laughing gulls (Leucophaues atricilla), homing pigeons (Columba livia) and western sandpipers (Calidris mauri) that were gavaged with a mixture of artificially weathered MC252 oil and food for either a single day or 4-5 consecutive days showed signs of oil toxicity. Where volume allowed, samples were collected for hematology, plasma protein electrophoresis, clinical chemistry and electrolytes, oxidative stress and organ weigh changes. Double-crested cormorants, laughing gulls and western sandpipers all excreted oil within 30min of dose, while pigeons regurgitated within less than one hour of dosing. There were species differences in the effectiveness of the dosing technique, with double-crested cormorants having the greatest number of responsive endpoints at the completion of the trial. Statistically significant changes in packed cell volume, white cell counts, alkaline phosphatase, alanine aminotransferase, creatine phosphokinase, gamma glutamyl transferase, uric acid, chloride, sodium, potassium, calcium, total glutathione, glutathione disulfide, reduced glutathione, spleen and liver weights were measured in double-crested cormorants. Homing pigeons had statistically significant changes in creatine phosphokinase, total glutathione, glutathione disulfide, reduced glutathione and Trolox equivalents. Laughing gulls exhibited statistically significant decreases in spleen and kidney weight, and no changes were observed in any measurement endpoints tested in western sandpipers.

Published

2017

46. E-cigarette-Induced Pulmonary Inflammation and Dysregulated Repair are Mediated by nAChR α7 Receptor

Author

Qixin Wang, Samantha R. McDonough, Isaac K. Sundar, Thivanka Muthumalage, Joseph H. Lucas, Dongmei Li, and Irfan Rahman

Subjects

business.industry, Pulmonary inflammation, Cancer research, Medicine, Receptor, business

Abstract

Electronic cigarette (e-cig) vaping is increasing rapidly in the United States, as e-cigs are considered less harmful than combustible cigarettes. However, limited research has conducted to understand the mechanism of toxicological and pulmonary effects of e-cigs. We hypothesized that sub-chronic exposure of e-cigs induced inflammatory response and dysregulated repair/extracellular matrix (ECM) remodeling, which occur through the α7 nicotinic acetylcholine receptor (nAChR α7). Adult wild-type (WT), nAChRα7 knockout (KO), and lung epithelial-cell-specific KO (nAChRα7 CreCC10) mice were exposed to e-cig aerosol containing propylene glycol (PG) with or without nicotine. Bronchoalveolar lavage fluids (BALF) and lungs were collected for determination of inflammatory responses and ECM remodeling, respectively. Sub-chronic e-cig exposure with nicotine increased the lung influx of macrophages and T-lymphocytes, and the levels of pro-inflammatory cytokines, while nAChR α7 knockdown blocked the inflammatory responses. Interestingly, matrix metalloproteinases (MMPs), such as MMP2, MMP8, and MMP9, in both sex mice were altered at both protein and gene levels when WT mice were exposed to PG alone in a sex-dependent manner. Moreover, MMP12 increased significantly in male mice exposed to PG with or without nicotine in a nAChR α7 dependent manner. Additionally, the abundance of ECM proteins, such as collagen and fibronectin, was significantly altered after sub-chronic e-cig exposure with or without nicotine in a sex-dependent manner, but nAChR α7 independent manner. Overall, sub-chronic e-cig exposure with or without nicotine affected lung inflammation and repair responses/ECM remodeling, which were mediated by nAChR α7 in a sex-dependent manner.

Published

2020

47. E-cigarette-induced pulmonary inflammation and dysregulated repair are mediated by nAChR α7 receptor: role of nAChR α7 in SARS-CoV-2 Covid-19 ACE2 receptor regulation

Author

Dongmei Li, Samantha R. McDonough, Irfan Rahman, Qixin Wang, Isaac K. Sundar, Thivanka Muthumalage, and Joseph H. Lucas

Subjects

0301 basic medicine, Male, alpha7 Nicotinic Acetylcholine Receptor, MMP9, Matrix metalloproteinase, Electronic Nicotine Delivery Systems, MMP8, Severe Acute Respiratory Syndrome, Nicotine, Mice, Random Allocation, 0302 clinical medicine, Reference Values, Receptor, Mice, Knockout, medicine.diagnostic_test, Chemistry, Vaping, Extracellular matrix, Dysregulated repair, Toxicity, E-cig exposure, Cytokines, Female, Angiotensin-Converting Enzyme 2, medicine.symptom, nAChRα7, Coronavirus Infections, Bronchoalveolar Lavage Fluid, medicine.drug, Signal Transduction, medicine.medical_specialty, Blotting, Western, Pneumonia, Viral, Inflammation, Peptidyl-Dipeptidase A, 03 medical and health sciences, Internal medicine, medicine, Animals, Humans, Pandemics, lcsh:RC705-779, Research, Role, COVID-19, lcsh:Diseases of the respiratory system, Pneumonia, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Bronchoalveolar lavage, Endocrinology, Blood Gas Analysis, 030217 neurology & neurosurgery

Abstract

Electronic cigarette (e-cig) vaping is increasing rapidly in the United States, as e-cigs are considered less harmful than combustible cigarettes. However, limited research has been conducted to understand the possible mechanisms that mediate toxicity and pulmonary health effects of e-cigs. We hypothesized that sub-chronic e-cig exposure induces inflammatory response and dysregulated repair/extracellular matrix (ECM) remodeling, which occur through the α7 nicotinic acetylcholine receptor (nAChRα7). Adult wild-type (WT), nAChRα7 knockout (KO), and lung epithelial cell-specific KO (nAChRα7 CreCC10) mice were exposed to e-cig aerosol containing propylene glycol (PG) with or without nicotine. Bronchoalveolar lavage fluids (BALF) and lung tissues were collected to determine e-cig induced inflammatory response and ECM remodeling, respectively. Sub-chronic e-cig exposure with nicotine increased inflammatory cellular influx of macrophages and T-lymphocytes including increased pro-inflammatory cytokines in BALF and increased SARS-Cov-2 Covid-19 ACE2 receptor, whereas nAChRα7 KO mice show reduced inflammatory responses associated with decreased ACE2 receptor. Interestingly, matrix metalloproteinases (MMPs), such as MMP2, MMP8 and MMP9, were altered both at the protein and mRNA transcript levels in female and male KO mice, but WT mice exposed to PG alone showed a sex-dependent phenotype. Moreover, MMP12 was increased significantly in male mice exposed to PG with or without nicotine in a nAChRα7-dependent manner. Additionally, sub-chronic e-cig exposure with or without nicotine altered the abundance of ECM proteins, such as collagen and fibronectin, significantly in a sex-dependent manner, but without the direct role of nAChRα7 gene. Overall, sub-chronic e-cig exposure with or without nicotine affected lung inflammation and repair responses/ECM remodeling, which were mediated by nAChRα7 in a sex-dependent manner.

Published

2020

48. Chemical constituents involved in e-cigarette, or vaping product use-associated lung injury (EVALI)

Author

Matthew D. McGraw, Alan E. Friedman, Thivanka Muthumalage, Michelle R. Friedman, and Irfan Rahman

Subjects

medicine.diagnostic_test, business.industry, Lung injury, Pharmacology, Terpene, Bronchoalveolar lavage, Weight loss, medicine, Vomiting, medicine.symptom, Tetrahydrocannabinol, business, Cannabidiol, Vitamin E Acetate, medicine.drug

Abstract

BackgroundThe Centers for Disease Control (CDC) declared e-cigarette (e-cig), or vaping product use-associated lung injury (EVALI) a national outbreak due to the high incidence of emergency department admissions and deaths. Investigators have identified vitamin E acetate (VEA) as the plausible cause for EVALI, based on compounds found in bronchoalveolar lavage fluid.ObjectivesWe defined the chemical constituents present in e-cig cartridges associated with EVALI and compared constituents to medical-grade and cannabidiol (CBD) containing cartridges.MethodsWe measured chemicals and elemental metals in e-liquid and vapor phases of e-cig counterfeit cartridges by Gas Chromatography (GC) and Mass Spectrometry (MS), EPA method TO-15 by GCMS, and ICP-MS analysis.ResultsWe have identified chemical constituents in e-cig vaping tetrahydrocannabinol (THC)-containing counterfeit cartridges compared to medical-grade and cannabidiol (CBD) containing cartridges. Apart from VEA and THC, other potential toxicants correlated with EVALI included solvent-derived hydrocarbons, silicon conjugated compounds, various terpenes, pesticides/plasticizers/polycaprolactones, and metals. These chemicals are known to cause symptoms, such as cough, shortness of breath or chest pain, nausea, vomiting or diarrhea, fatigue, fever, or weight loss, all symptoms presenting in patients with EVALI.ConclusionThis study provides insights into understanding the chemical-induced disease mechanism of acute lung injury.

Published

2020

49. Additional file 2 of E-cigarette-induced pulmonary inflammation and dysregulated repair are mediated by nAChR α7 receptor: role of nAChR α7 in SARS-CoV-2 Covid-19 ACE2 receptor regulation

Author

Qixin Wang, Sundar, Isaac K., Dongmei Li, Lucas, Joseph H., Thivanka Muthumalage, McDonough, Samantha R., and Rahman, Irfan

Abstract

Additional file 2 Table S1. Sub-chronic e-cig exposure using PG with or without nicotine altered blood gas but not hematology. Table S2. Sub-chronic e-cig exposure using PG with nicotine increased pro-inflammatory cytokines in BALF.

Published

2020

50. Additional file 1 of E-cigarette-induced pulmonary inflammation and dysregulated repair are mediated by nAChR α7 receptor: role of nAChR α7 in SARS-CoV-2 Covid-19 ACE2 receptor regulation

Author

Qixin Wang, Sundar, Isaac K., Dongmei Li, Lucas, Joseph H., Thivanka Muthumalage, McDonough, Samantha R., and Rahman, Irfan

Abstract

Additional file 1 Figure S1. Sub-chronic e-cig with PG + Nic exposure increased cotinine levels in mouse serum. Mice were exposed to e-cig with or without nicotine for 30 days, and blood was collected through submandibular venipuncture following the final exposure. Cotinine levels were measured in serum samples from WT and nAChR α7 KO mice exposed to PG or PG with nicotine by ELISA (Cat# CO096D, Calbiotech), (n = 3–10/group). Figure S2. Sub-chronic e-cig exposure decreased exercise capacity in nAChR α7 KO mice. Mice were exposed to e-cig with or without nicotine for 30 days, and treadmill for exercise ability measurements were performed before the day of sacrifice, after the last exposure. The running distance and running time for nAChR α7 global KO and WT mice (A and B, respectively) and nAChR α7 lung epithelial cell-specific floxed/Cre-CC10 KO mice (C and D, respectively) were recorded separately. (n = 3–6/group), (*P

Published

2020