Your search keyword '"Bhalla, DK"' showing total 69 results

1. Respiratory Tract Responses to Repeated Inhalation of an Oxidant and Acid Gas-Particle Air Pollutant Mixture

Author

Mautz, WJ, Kleinman, MT, Bhalla, DK, and Phalen, RF

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Lung, Respiratory, Air Pollutants, Ammonium Sulfate, Animals, Bronchoalveolar Lavage Fluid, Carbon, Cell Division, Dose-Response Relationship, Drug, Drug Interactions, Inhalation Exposure, Macrophages, Alveolar, Male, Mucociliary Clearance, Nitric Acid, Nitrogen Dioxide, Oxidants, Ozone, Particle Size, Phagocytosis, Rats, Rats, Inbred F344, Respiratory System, air pollution, particles, ozone, nitrogen dioxide, nitric acid, ammonium bisulfate, oxidants acids, complex mixtures, inhalation toxicology, Pharmacology and Pharmaceutical Sciences, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

The purpose of this study was to examine a broad range of toxicologic responses in rats exposed to a multi-component pollutant atmosphere. Cumulative and adaptive respiratory tract responses to 3 concentrations of an inhaled particle-oxidant mixture were examined in Fisher 344 N rats exposed 4 h/day, 3 days/week for 4 weeks. The mixtures contained O3, NO2, NH4HSO4, carbon particles, and HNO3 vapor. Irritant-induced, rapid-shallow breathing responses were present during the first 4-h exposure to medium and high concentrations. Successive exposures showed diminished responses in medium concentrations and exacerbated responses in high concentrations. At the end of 4 weeks, rats exposed to high concentrations exhibited lung lesions. Lavaged pulmonary macrophages showed dose-dependent depressions of Fc-receptor binding and phagocytosis. Lung tissue macrophages showed dose-dependent increases in acid phosphatase staining density and carbon particles. Respiratory tract clearance of tracer particles was not significantly affected by the exposures. Broncho-alveolar epithelial permeability was increased by the high concentration. Epithelial cell-proliferation labeling showed a dose-dependent increase at all levels of the respiratory tract. Progressively exacerbated breathing-pattern responses at high concentrations were associated with lung lesions and high cell-proliferation labeling in the nose transitional epithelium and terminal bronchioles. Attenuating or adaptive breathing-pattern responses occurred in the presence of smaller, but in many cases still significant, compromise of respiratory functions. Either attenuating or exacerbated breathing-pattern responses can occur in the presence of a significant dose-dependent compromise of other respiratory functions and lung tissue injury.

Published

2001

2. Surfactant dysfunction after inhalation of nitric oxide

Author

Hallman, M, Waffarn, F, Bry, K, Turbow, R, Kleinman, MT, Mautz, WJ, Rasmussen, RE, Bhalla, DK, and Phalen, RF

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Health Sciences, Lung, Pediatric, Hematology, Perinatal Period - Conditions Originating in Perinatal Period, Administration, Inhalation, Animals, Bronchoalveolar Lavage, Male, Nitric Oxide, Rats, Rats, Inbred F344, Respiration, Surface-Active Agents, bronchoalveolar lavage, inhibitors of surface activity, iron, hemoglobin, methemoglobin, Medical and Health Sciences, Physiology, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

To study whether nitric oxide (NO) affects surfactant function, 36 young rats inhaled one of the following humidified environments for 24 h: 1) air; 2) 95% O2; 3) air and 100 parts/million (ppm) NO; and 4) 95% O2 and 100 ppm NO. The treatments did not change the recovery of phospholipid from bronchoalveolar lavage (BAL). Exposure to NO of animals that breathed either air or 95% O2 increased the minimum surface tension of surfactant from BAL at low (1.5 mumol/ml), but not at high (4 mumol/ml), phosphatidylcholine concentration. After inhaled NO, the nonsedimentable protein of BAL decreased the surface activity of surfactant (1 mumol phosphatidylcholine/ml) more than the protein from the controls. NO treatment of animals that breathed either air or 95% O2 affected neither the quantity nor the molecular weight distribution of nonsedimentable protein. Hyperoxia increased the amount of the nonsedimentable protein, whereas NO increased the iron saturation of transferrin. The surfactant fraction and the nonsedimentable protein from BAL were separately exposed to 80 ppm NO in vitro. NO exposure had no effect on the surface activity of surfactant fraction. NO exposure of nonsedimentable protein from the control animals (no NO) increased the inhibition of the surface activity and changed the adsorption spectrum of the protein, suggesting conversion of hemoglobin to methemoglobin. Nonsedimentable protein from NO-exposed animals contained methemoglobin. We propose that surfactant dysfunction caused by inhaled NO is in part due to alteration of protein(s) in epithelial lining fluid that in turn inactivates surfactant.

Published

1996

3. Cellular and Immunologic Injury with PM-10 Inhalation

Author

Kleinman, MT, Bhalla, DK, Mautz, WJ, and Phalen, RF

Subjects

Lung, Respiratory, Good Health and Well Being, Pharmacology and Pharmaceutical Sciences, Toxicology

Abstract

Airborne particles Jess than 10 μsm (PM-10) in mass median aerodynamic diameter (MMAD) are associated with adverse effects on human health including chronic lung diseases and mortality, but the mechanisms by which these particles might cause or aggravate diseases are not specifically known. PM-10 represents a complex mixture, both in terms of size and chemical composition, and it contains both aqueous-media soluble and insoluble particles. Furthermore, the ambient aerosol composition varies markedly in different locations and at different times in the same location. To test the effects of PM-10 on pulmonary defenses in relation to specific cell targets, barrier-reared Sprague-Dawley rats were exposed to purified air (control), to two important constituents of the fine-particle < 1 μm MMAD) fraction of PM-10-ammonium sulfate [(NH4)2SO42-] (20 or 70 μg SO42- m-3, 0.2 μm MMAD) and ammonium nitrate [NH4NO31 (90 or 350 NO3 μg m -3, 0.6 μm MMAD). Rats were also exposed to resuspended road dust (300 and 900 μg m-3, 4.0 μm MMAD), an important contributor to the coarse (> 2.5 μm MMAD) fraction of PM-10. Exposures were 4 h/day, 4 dayslwk for 8 wk. Macrophage-dependent lung defense functions (antigen binding to Fc receptors and respiratory burst activity) were significantly depressed by NOf, SO42-, and the high-concentration road dust exposures, compared to purified air controls. Lung permeability, as determined from measurements of albumin concentrations in bronchoalveolar lavage fluid, was significantly greater in rats exposed to high concentrations of road dust and NO3-, but not to SO42-, when compared to air-exposed controls. Quantitative histopathologic analyses, which included measurements of alveolar nuclear density, alveolar chord length, alveolar septal thickness, and alveolar cross sectional area, showed moderate to substantial changes. In general, the severity of the responses was in the order of SO42-NO3-road dust. The findings are consistent with those of epidemiological studies. This study also supports the hypothesis that the fine fraction of PM-10 is more toxic than the coarse fraction. © 1995 Informa UK Ltd All rights reserved: reproduction in whole or part not permitted.

Published

1995

4. Tracheal and bronchoalveolar permeability changes in rats inhaling oxidant atmospheres during rest or exercise

Author

Bhalla, DK, Mannix, RC, Lavan, SM, Phalen, RF, Kleinman, MT, and Crocker, TT

Subjects

Environmental Sciences, Pollution and Contamination, Administration, Inhalation, Aerosols, Animals, Male, Nitrogen Dioxide, Ozone, Permeability, Physical Exertion, Pulmonary Alveoli, Rats, Rats, Inbred Strains, Rest, Trachea, Chemical Sciences, Medical and Health Sciences, Toxicology, Biomedical and clinical sciences, Chemical sciences, Environmental sciences

Abstract

Permeability of tracheal and bronchoalveolar airways of rats was measured and used to examine the effects of inhaled oxidant-containing atmospheres. The atmospheres studied were (a) ozone (O3) at 0.6 ppm (1.2 mg/m3) or 0.8 ppm (1.6 mg/m3); (b) nitrogen dioxide (NO2) at 6 ppm (11.3 mg/m3) or 12 ppm (22.6 mg/m3); (c) O3 + NO2 at 0.6 ppm (1.2 mg/m3) and 2.5 ppm (4.7 mg/m3), respectively; and (d) a 7-component particle and gas mixture (complex atmosphere) representing urban air pollution in a photochemical environment. The rats were exposed for 2 h. The effects of exercise during exposure were evaluated by exposing additional groups in an enclosed treadmill. Exposure of resting rats to 0.8 ppm O3 increased tracheal permeability to DTPA and bronchoalveolar permeability to diethylenetriamine pentaacetate (DTPA) and bovine serum albumin (BSA) at 1 h after the exposure. Bronchoalveolar, but not tracheal, permeability remained elevated at 24 h after the exposure. Exercise during exposure to O3 increased permeability to both tracers in the tracheal and the bronchoalveolar zones, and prolonged the duration of increased permeability in the tracheal zone from 1 h to 24 h, and in the bronchoalveolar zone from 24 h to 48 h. Permeability in the tracheal and bronchoalveolar zones of rats exposed at rest to 6 or 12 ppm NO2 did not differ from controls. However, rats exposed during exercise to 12 ppm NO2 for 2 h developed a significant increase in tracheal and bronchoalveolar permeability to DTPA and BSA at 1 h, but not at 24 or 48 h, after exposure. Exposure at rest to 0.6 ppm O3 plus 2.5 ppm NO2 significantly increased bronchoalveolar permeability at 1 and 24 h after exposure, although exposure at rest to 0.6 ppm O3 alone increased bronchoalveolar permeability only at 1 h after exposure. Exposure to O3 + NO2 during exercise led to significantly greater permeability to DTPA than did exercising exposure to O3 alone. Resting rats exposed to a complex gas/aerosol atmosphere composed of the above O3 and NO2 concentrations, plus 5 ppm (13.1 mg/m3) sulfur dioxide (SO2) and an aerosol of insoluble colloidal Fe2O3 with an aerosol of manganese, ferric, and ammonium salts, demonstrated increased permeability at 1 and 24 h after exposure. Nitric acid vapor was formed in both the O3 + NO2 atmosphere and the complex gas/aerosol atmosphere.(ABSTRACT TRUNCATED AT 400 WORDS)

Published

1987

5. BRONCHOALVEOLAR PERMEABILITY CHANGES IN RATS INHALING GAS PARTICLE COMBINATIONS DURING REST OR EXERCISE

Author

BHALLA, DK, PHALEN, RF, MANNIX, RC, LAVAN, SM, and CROCKER, TT

Subjects

Biochemistry & Molecular Biology, Biochemistry and Cell Biology, Physiology, Medical Physiology

Published

1986

6. Tobacco smoke modulates ozone-induced toxicity in rat lungs and central nervous system.

Author

Bhoopalan V, Han SG, Shah MM, Thomas DM, and Bhalla DK

Subjects

Animals, Antioxidants metabolism, Blotting, Western, Brain metabolism, Brain pathology, Bronchoalveolar Lavage Fluid chemistry, Bronchoalveolar Lavage Fluid cytology, Dopamine metabolism, Drug Interactions, Leukocyte Count, Lung metabolism, Lung pathology, Male, Neutrophils drug effects, Oxidative Stress drug effects, Rats, Rats, Sprague-Dawley, Brain drug effects, Inhalation Exposure adverse effects, Lung drug effects, Oxidants, Photochemical toxicity, Ozone toxicity, Tobacco Smoke Pollution

Abstract

Adult Sprague-Dawley (SD) male rats were exposed for a single 3 h period to air, ozone (O₃) or O₃) followed by tobacco smoke (O₃/TS). For pulmonary effects, bronchoalveolar lavage (BAL) cells and fluid were analyzed. Data revealed a significant increase in polymorphonuclear leukocytes (PMN), total protein and albumin concentrations in the O₃ group, reflecting inflammatory and toxic responses. A subsequent exposure to TS attenuated PMN infiltration into the airspaces and their recovery in the BAL. A similar reduction was observed for BAL protein and albumin in the O₃/TS group, but it was not statistically significant. We also observed a significant increase in BAL total antioxidant capacity following O₃ exposure, suggesting development of protective mechanisms for oxidative stress damage from O₃. Exposure to TS attenuated the levels of total antioxidant capacity. Lung tissue protein analysis showed a significant reduction of extracellular superoxide dismutase (EC-SOD) in the O₃ or O₃/TS group and catalase in the O₃/TS group. TS further altered O₃-induced EC-SOD and catalase protein expression, but the reductions were not significant. For effects in the central nervous system (CNS), we measured striatal dopamine levels by HPLC with electrochemical detection. O₃ exposure produced a nonsignificant decrease in the striatal dopamine content. The effect was partially reversed in the O₃/TS group. Overall, the results show that the toxicity of O₃ in the lung is modulated by TS exposure, and the attenuating trend, though nonsignificant in many cases, is contrary to the synergistic toxicity predicted for TS and O₃, suggesting limited cross-tolerance following such exposures.

Published

2013

7. In utero tobacco smoke exposure alters pulmonary responses of newborn rats to ozone.

Author

Han SG, Bhoopalan V, Akinbiyi T, Gairola CG, and Bhalla DK

Subjects

Animals, Animals, Newborn, Female, Lung metabolism, Male, Neutrophils drug effects, Oxidative Stress drug effects, Peroxidase metabolism, Pregnancy, Rats, Rats, Sprague-Dawley, Superoxide Dismutase metabolism, Air Pollutants toxicity, Lung drug effects, Ozone toxicity, Prenatal Exposure Delayed Effects metabolism, Tobacco Smoke Pollution adverse effects

Abstract

Prenatal tobacco smoke (TS) exposure has been implicated in various adverse health outcomes in the offspring, including poor development of lung and immune system, which in turn can alter the response of neonates to environmental challenges. This study was performed to determine whether in utero exposure to TS influences the pulmonary response of newborn rat pups to ozone (O₃). Timed pregnant Sprague-Dawley (SD) rats were exposed to TS or air for 3 h/d from gestation d 7 through 21. The pulmonary response of pups was assessed following a single 3-h exposure to air or 0.6 ppm O₃ on d 13 after birth. In all, 4 exposure groups were evaluated: (1) Air/Air (in utero air and postnatal air), (2) Air/O₃ (in utero air and postnatal O₃), (3) TS/Air (in utero TS and postnatal air), and (4) TS/O₃ (in utero TS and postnatal O₃). Bronchoalveolar lavage (BAL) was performed, and BAL cells and fluid were analyzed. Data revealed a significant increase in polymorphonuclear leukocytes (PMN) and total BALF protein in the Air/O₃ group compared to the Air/Air control, reflecting the inflammatory and cytotoxic effects of O₃. However, in utero exposure to TS attenuated PMN infiltration into the air spaces for recovery in the BAL of TS/O₃ pups. Lung tissue myeloperoxidase activity significantly increased only in the TS/O₃ group but not in Air/O₃ pups, thus suggesting that PMN are sequestered in the lung tissue and that the in utero TS likely inhibits O₃-mediated influx of PMN into the air spaces. Lung tissue analyses further showed a significant rise in manganese superoxide dismutase (SOD) protein and a decrease in extracellular SOD protein in the Air/O₃ group, suggesting oxidative effects of O₃. Interestingly, in utero TS exposure again suppressed these effects in the TS/O₃ group. Overall, results suggest that in utero exposure to TS alone produced minimal acute pulmonary effects in newborn rats, but modulated adverse effects of postnatal O₃ exposure. The results are contrary to the interactive toxic responses predicted for sequential exposures to TS and O₃, and may represent the development of "cross-tolerance."

Published

2011

8. Cigarette smoke, inflammation, and lung injury: a mechanistic perspective.

Author

Bhalla DK, Hirata F, Rishi AK, and Gairola CG

Subjects

Animals, Humans, Inflammation immunology, Inflammation Mediators immunology, Inflammation Mediators metabolism, Lung Diseases immunology, Oxidative Stress drug effects, Pulmonary Emphysema chemically induced, Pulmonary Emphysema metabolism, Pulmonary Emphysema pathology, Tobacco Smoke Pollution analysis, Inflammation chemically induced, Inflammation pathology, Lung Diseases chemically induced, Lung Diseases pathology, Tobacco Smoke Pollution adverse effects

Abstract

Inflammation is a common feature in the pathogenesis of cigarette smoke-associated diseases. The recruitment of inflammatory cells into the lung following cigarette smoke exposure presents a risk of tissue damage through the release of toxic mediators, including proteolytic enzymes and reactive oxygen species. This review represents a toxicological approach to investigation of cigarette smoke-induced lung injury, with a focus on laboratory studies and an emphasis on inflammatory mechanisms. The studies discussed in this review analyze the role of inflammation and inflammatory mediators in the development of injury. In cases where information relating to cigarette smoke is limited, examples are taken from other models of lung injury applicable to cigarette smoke. The primary aim of the review is to summarize published work so as to permit (1) an evaluation of chronic lung injury and inflammatory responses in animal models, (2) a discussion of inflammatory mediators in the development of chronic injury, and (3) identification of immunological mechanisms of injury. These studies discuss the currently understood roles of cytokines, cell adhesion molecules, and oxidative stress in inflammatory reactions and lung injury. A role for lipocortin 1 (annexin 1), a naturally occurring defense factor against inflammation, is discussed because of the possibility that impaired synthesis and degradation of lipocortin 1 will influence immune responses in animals exposed to cigarette smoke either by augmenting T helper cell Th1 response or by shifting Th1 to Th2 response. While Th1 augmentation will increase the risk for development of emphysema, Th1 to Th2 shift will favor development of asthma.

Published

2009

9. Acute pulmonary effects of combined exposure to carbon nanotubes and ozone in mice.

Author

Han SG, Andrews R, Gairola CG, and Bhalla DK

Subjects

Acute Disease, Administration, Inhalation, Animals, Biomarkers analysis, Bronchoalveolar Lavage Fluid chemistry, Bronchoalveolar Lavage Fluid cytology, Cell Count, Drug Interactions, Drug Therapy, Combination, Female, Inhalation Exposure, Interleukin-1beta analysis, L-Lactate Dehydrogenase analysis, Lung metabolism, Lung pathology, Mice, Mice, Inbred C57BL, Mucins analysis, Neutrophils drug effects, Neutrophils pathology, Oxidative Stress, Pneumonia metabolism, Pneumonia pathology, Proteins analysis, Superoxide Dismutase metabolism, Tumor Necrosis Factor-alpha analysis, Air Pollutants toxicity, Lung drug effects, Nanotubes, Carbon toxicity, Oxidants, Photochemical toxicity, Ozone toxicity, Pneumonia chemically induced

Abstract

Ozone (O3) is a well-investigated gaseous air pollutant known to produce acute and chronic toxicity in the respiratory system. Whether prior exposure to nanoparticles influences the toxicity of O3 has not been well investigated. To determine if there are toxicological interactions between particulate and gas exposures, we examined acute pulmonary effects of a 3-h ozone exposure (0.5 ppm) in female C57Bl mice that had been preexposed to a single dose of 20 microg multiwall carbon nanotubes (CNT) by pharyngeal aspiration 12 h earlier. A total of four groups were compared: (1) PBS/air-control, (2) PBS/O3, (3) CNT/air, and (4) CNT/O3. Analyses of the bronchoalveolar lavage fluid (BALF) and lung tissue samples collected at 5 and 24 h post O3 exposure were performed for various markers of cytotoxicity and inflammation using standard enzyme-linked immunosorbent assay (ELISA) and immunoblot procedures. The results showed a pronounced cellular response and increase in various cytotoxicity/inflammatory markers in the lungs of CNT-exposed mice. Ozone by itself produced minimal effects, but in CNT-exposed animals there was a significant increase in total brochoalveolar lavage (BAL) cells and polymorphonuclear leukocytes. Additionally, protein, lactate dehydrogenase (LDH), tumor necrosis factor (TNF)-alpha, interleukin (IL)-1beta, and mucin levels in BALF at 5 and 24 h were higher in CNT-exposed animals than in corresponding air-exposed controls or animals exposed to O3 alone. A comparable increase over the controls was also observed in the CNT/O3 group, but neither an additive nor a synergistic interaction was observed in mice that received sequential exposure to CNT and ozone. In fact, some CNT-induced cytotoxic/inflammatory responses were attenuated in mice following exposure to both CNT and low levels of ozone. These results are contrary to enhanced responses that were anticipated and may represent the development of "cross-tolerance" reported by others for some sequentially administered pollutants.

Published

2008

10. Cigarette smoke and adverse health effects: An overview of research trends and future needs.

Author

Saha SP, Bhalla DK, Whayne TF Jr, and Gairola C

Abstract

A large volume of data has accumulated on the issues of tobacco and health worldwide. The relationship between tobacco use and health stems initially from clinical observations about lung cancer, the first disease definitively linked to tobacco use. Almost 35 years ago, the Office of the Surgeon General of the United States Health Service reviewed over 7000 research papers on the topic of smoking and health, and publicly recognized the role of smoking in various diseases, including lung cancer. Since then, numerous studies have been published that substantiate the strong association of tobacco use with a variety of adverse human health effects, most prominently with cancer and cardiovascular diseases. Cigarette smoking is regarded as a major risk factor in the development of lung cancer, which is the main cause of cancer deaths in men and women in the United States and the world. Major advances have been made by applying modern genetic technologies to examine the relationship between exposure to tobacco smoke and the development of diseases in human populations. The present review summarizes the major research areas of the past decade, important advances, future research needs and federal funding trends.

Published

2007

11. Biological agents with potential for misuse: a historical perspective and defensive measures.

Author

Bhalla DK and Warheit DB

Subjects

Anthrax history, Anthrax therapy, Anthrax transmission, History, 18th Century, History, 20th Century, History, 21st Century, Humans, Smallpox diagnosis, Smallpox therapy, Smallpox transmission, Virus Diseases history, Virus Diseases transmission, Biological Warfare history, Biological Warfare methods, Biological Warfare prevention & control, Virus Diseases prevention & control

Abstract

Biological and chemical agents capable of producing serious illness or mortality have been used in biowarfare from ancient times. Use of these agents has progressed from crude forms in early and middle ages, when snakes and infected cadavers were used as weapons in battles, to sophisticated preparations for use during and after the second World War. Cults and terrorist organizations have attempted the use of biological agents with an aim to immobilize populations or cause serious harm. The reasons for interest in these agents by individuals and organizations include relative ease of acquisition, potential for causing mass casualty or panic, modest financing requirement, availability of technology, and relative ease of delivery. The Centers for Disease Control and Prevention has classified Critical Biological Agents into three major categories. This classification was based on several criteria, which include severity of impact on human health, potential for delivery in a weapon, capacity to cause panic and special needs for development, and stockpiling of medication. Agents that could cause the greatest harm following deliberate use were placed in category A. Category B included agents capable of producing serious harm and significant mortality but of lower magnitude than category A agents. Category C included emerging pathogens that could be developed for mass dispersion in future and their potential as a major health threat. A brief description of the category A bioagents is included and the pathophysiology of two particularly prominent agents, namely anthrax and smallpox, is discussed in detail. The potential danger from biological agents and their ever increasing threat to human populations have created a need for developing technologies for their early detection, for developing treatment strategies, and for refinement of procedures to ensure survival of affected individuals so as to attain the ultimate goal of eliminating the threat from intentional use of these agents. International treaties limiting development and proliferation of weapons and continuing development of defense strategies and safe guards against agents of concern are important elements of plans for eliminating this threat.

Published

2004

12. Toxicity of chemical components of fine particles inhaled by aged rats: effects of concentration.

Author

Kleinman MT, Hyde DM, Bufalino C, Basbaum C, Bhalla DK, and Mautz WJ

Subjects

Aerosols, Animals, Dose-Response Relationship, Drug, Drug Interactions, Lung drug effects, Lung physiology, Particle Size, Rats, Rats, Inbred F344, Aging, Ammonium Sulfate toxicity, Lung pathology, Oxidants, Photochemical toxicity, Ozone toxicity

Abstract

This study tested the hypothesis that exposure to mixtures containing fine particles and ozone (O3) would cause pulmonary injury and decrements in functions of immunological cells in exposed rats (22-24 months old) in a dose-dependent manner. Rats were exposed to high and low concentrations of ammonium bisulfate and elemental carbon and to 0.2 ppm O3. Control groups were exposed to purified air or O3 alone. The biological end points measured included histopathological markers of lung injury, bronchoalveolar lung fluid proteins, and measures of the function of the lung's innate immunological defenses (macrophage antigen-directed phagocytosis and respiratory burst activity). Exposure to O3 alone at 0.2 ppm did not result in significant changes in any of the measured end points. Exposures to the particle mixtures plus O3 produced statistically significant changes consistent with adverse effects. The low-concentration mixture produced effects that were statistically significant compared to purified air but, with the exception of macrophage Fc receptor binding, exposure to the high-concentration mixture did not. The effects of the low- and high-concentration mixtures were not significantly different. The study supports previous work that indicated that particle + O3 mixtures were more toxic than O3 alone.

Published

2003

13. Amelioration of ozone-induced lung injury by anti-tumor necrosis factor-alpha.

Author

Bhalla DK, Reinhart PG, Bai C, and Gupta SK

Subjects

Albumins analysis, Animals, Bronchoalveolar Lavage Fluid cytology, Cytokines genetics, Fibronectins metabolism, Gene Expression Profiling, Gene Expression Regulation drug effects, Immunoglobulin G immunology, Immunoglobulin G pharmacology, Inflammation pathology, Lung pathology, Lung Diseases pathology, Male, Protein Array Analysis, Rabbits immunology, Rats, Rats, Sprague-Dawley, Tumor Necrosis Factor-alpha immunology, Antibodies, Blocking pharmacology, Lung Diseases chemically induced, Lung Diseases prevention & control, Oxidants, Photochemical toxicity, Ozone toxicity, Tumor Necrosis Factor-alpha antagonists & inhibitors

Abstract

Ozone (O(3)) is a significant component of atmospheric air pollution and produces detrimental effects in the lung. Although the mechanism of O(3)-induced lung inflammation and injury is unclear, the increased release of the proinflammatory cytokine tumor necrosis factor-alpha (TNF-alpha) by lung cells following O(3) exposure may shed some light on this subject. To investigate the role of TNF-alpha in the O(3)-induced pulmonary insult, we intraperitoneally injected rats with either rabbit preimmune serum or rabbit antirat TNF-alpha 1 h prior to O(3) exposure. Approximately 12 h after the end of O(3) exposure the animals were sacrificed, the lungs lavaged, and tissue samples collected for expression of cytokine genes relevant to inflammation. The bronchoalveolar lavage fluid (BALF) was analyzed for albumin as a marker of pulmonary epithelial permeability changes and for fibronectin for its role in lung injury and repair. The lavage cells were collected, counted, and identified to quantitate the inflammatory response. Ozone exposure resulted in a significant increase in BALF albumin and fibronectin as compared to air-exposed controls and a significant increase in BALF polymorphonuclear leukocytes (PMNs). Antibody treatment produced a significant decrease in BALF albumin and PMNs as compared to O(3)-exposed rats given preimmune serum. Antibody treatment did not affect the BALF fibronectin concentration or the total cell count in the BAL. Tissue analysis for gene arrays revealed an activation of IL-1alpha, IL-6, and IL-10 in animals exposed to O(3). The gene expression was downregulated in animals treated with anti-TNF-alpha antibody prior to O(3) exposure. The results suggest a central role for TNF-alpha in the mechanistic pathways critical to lung inflammation. The significance of TNF-alpha in the inflammation and epithelial injury produced by ozone exposure reflects its overall contribution through modulation of other cytokines.

Published

2002

14. Interactive effects of cigarette smoke and ozone in the induction of lung injury.

Author

Bhalla DK

Subjects

Animals, Drug Interactions, Epithelium drug effects, Epithelium pathology, Lung pathology, Mice, Models, Biological, Air Pollutants adverse effects, Inhalation Exposure adverse effects, Lung drug effects, Ozone toxicity, Tobacco Smoke Pollution adverse effects

Abstract

The article highlighted in this issue is "Short-Term Exposure to Aged and Diluted Sidestream Cigarette Smoke Enhances Ozone-Induced Lung Injury in B6C3F1 Mice" by Mang Yu, Kent E. Pinkerton, and Hanspeter Witschi (pp. 99-106).

Published

2002

15. Oxidative effects and inflammatory responses in the lung.

Author

Bhalla DK

Subjects

Animals, Humans, Oxidation-Reduction, Inflammation physiopathology, Lung physiopathology, Pneumonia physiopathology

Published

2000

16. Toxicity of chemical components of ambient fine particulate matter (PM 2.5) inhaled by aged rats.

Author

Kleinman MT, Bufalino C, Rasmussen R, Hyde D, Bhalla DK, and Mautz WJ

Subjects

Aerosols, Animals, Bronchoalveolar Lavage Fluid cytology, Collagen metabolism, Lung pathology, Lung Diseases chemically induced, Lung Diseases metabolism, Lung Diseases pathology, Macrophages drug effects, Oxidants, Photochemical toxicity, Ozone toxicity, Particle Size, Phagocytosis drug effects, Rats, Rats, Inbred F344, Superoxides metabolism, Air Pollutants toxicity

Abstract

The toxicity of two important chemical components of fine ambient particulate matter (PM 2.5)-ammonium bisulfate (ABS) and elemental carbon (C)-was studied using aged (senescent) rats. The study tested the hypotheses that fine particle exposure can damage lungs and impair host defenses in aged rats and that ozone would potentiate the toxicity of these particles. Ammonium bisulfate aerosols were generated by nebulization of dilute aqueous solutions. Elemental carbon was generated from an aqueous suspension of carbon black. Carbon and ABS mixtures were generated by nebulization of a suspension of carbon black in a dilute aqueous solution of ABS. Rats were exposed, nose-only, for 4 h a day, three consecutive days a week, for 4 weeks. The rats were exposed to one of six atmospheres: (1) purified air; (2) C, 50 microg m(-3), 0.3 microm mass median aerodynamic diameter (MMAD); (3) ABS, 70 microg m(-3), 0.3 microm MMAD; (4) O3, 0.2 ppm; (5) ABS + C, 0.46 microm MMAD; and (6) ABS + C + O3, 0.45 microm MMAD. Data were analyzed using ANOVA and Tukey multiple comparison tests; a two-tailed significance level of 0.05 was used. The nuclei of lung epithelial and interstitial cells were examined to determine the labeling of the DNA of dividing cells by 5-bromo-2-deoxyuridine and to identify the location of injury-repair-related cell replication. Increased labeling of both epithelial and interstitial lung cells occurred following all pollutant exposures. Although epithelial cells are most likely impacted by inhaled particles first, the adjacent interstitial cells were the cells that showed the greatest degree of response. Exposure to the ABS + C + O3 mixture resulted in losses of lung collagen and increases in macrophage respiratory burst and phagocytic activities that were statistically significant. Our results demonstrate that ozone can increase the toxicity of inhaled particles (or vice versa), and suggest that detailed study of mixtures could provide a more comprehensive understanding of the mechanisms by which inhaled pollutants adversely affect human health.

Published

2000

17. Lung injury, inflammation, and inflammatory stimuli in rats exposed to ozone.

Author

Bhalla DK and Gupta SK

Subjects

Albumins analysis, Animals, Blotting, Western, Bronchoalveolar Lavage Fluid chemistry, Bronchoalveolar Lavage Fluid cytology, CD18 Antigens analysis, DNA Primers, Enzyme-Linked Immunosorbent Assay, Inflammation, Intercellular Adhesion Molecule-1 analysis, Leukotriene B4 analysis, Lung Diseases pathology, Macrophage Inflammatory Proteins analysis, Macrophage Inflammatory Proteins genetics, Male, Neutrophils pathology, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Reverse Transcriptase Polymerase Chain Reaction, Specific Pathogen-Free Organisms, Time Factors, Air Pollution, Environmental Exposure, Lung pathology, Lung Diseases chemically induced, Oxidants, Photochemical toxicity, Ozone toxicity

Abstract

The effects of ozone (O3) on airway epithelia, inflammation, and expression of inflammatory stimuli were investigated to delineate the mechanisms of inflammatory reactions relevant to lung injury. Because the airway responses to O3 develop gradually, this investigation included a time-sequence analysis. Rats exposed for 3 h to 1 ppm O3 were studied at 4-h intervals up to 20 h postexposure. Bronchoalveolar lavage fluid (BAL) was analyzed for albumin as an indicator of increased permeability, polymorphonuclear leukocytes (PMNs) to assess the inflammatory status, macrophage inflammatory protein-2 (MIP-2, an inflammatory chemokine), and cell adhesion molecules for their role in inflammation and PMN functions. The time-related increase in albumin was matched by a similar significant increase for PMNs, MIP-2, and intercellular adhesion molecule-1 (ICAM-1). However, no marked change occurred for beta-2 integrin (CD-18) and leukotriene B4 (LTB4). The results establish a temporal correlation of epithelial permeability with changes in inflammatory activity and stimuli responsible for PMN recruitment in the lung. The observations of elevated MIP-2 and ICAM-1 levels are consistent with their role in injury and inflammation. An early expression of MIP-2 mRNA in BAL cells, that is, immediately post O3 exposure, and the peak increase in BAL MIP-2 levels 4 h later support the chemotactic role of MIP-2 in PMN recruitment at 4- and 12-h time points. The rapid drop in MIP-2 and ICAM-1 levels appears to signal the termination of inflammatory cell recruitment, which is accompanied by an onset of recovery.

Published

2000

18. Attenuation of ozone-induced lung injury by interleukin-10.

Author

Reinhart PG, Gupta SK, and Bhalla DK

Subjects

Albumins metabolism, Animals, Bronchoalveolar Lavage Fluid cytology, Cell Count, Fibronectins metabolism, Interleukin-10 pharmacology, Lung Diseases chemically induced, Male, Neutrophil Infiltration, Oxidants, Photochemical administration & dosage, Ozone administration & dosage, Proteins metabolism, RNA, Messenger biosynthesis, Rats, Rats, Sprague-Dawley, Recombinant Proteins pharmacology, Interleukin-10 physiology, Lung Diseases metabolism, Oxidants, Photochemical toxicity, Ozone antagonists & inhibitors, Ozone toxicity

Abstract

Ozone (O3), an oxidant air pollutant, is capable of producing pulmonary inflammation and injury. Exposure to O3 results in the release of inflammatory cytokines including tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 (IL-1) by alveolar macrophages. In addition, O3 exposure results in an increased expression of the inducible isoform of nitric oxide synthetase (iNOS). Interleukin-10 (IL-10) is an anti-inflammatory cytokine which inhibits the synthesis of TNF-alpha and IL-1 by macrophages and decreases the expression of iNOS. To test the protective properties of IL-10 in vivo, on the pulmonary injury induced by O3 exposure, we intratracheally instilled rat recombinant IL-10 1 h prior to O3 exposure (0.8 ppm x 3 h). Approximately 10-12 h following exposure, the animals were sacrificed and the bronchoalveolar lavage fluid (BALF) collected. The quantification of albumin, protein and fibronectin in the BALF provided a means of assessing pulmonary injury while the analysis of the BALF cells reflected the inflammatory response. Ozone exposure resulted in a significant (P<0.05) increase in BALF albumin, protein and fibronectin content as compared to air-exposed controls. In addition, significant increases in the percentage of BALF polymorphonuclear leukocytes (PMNs) and tissue expression of fibronectin mRNA were observed. The intratracheal instillation of IL-10 prior to O3 exposure resulted in a significant reduction in BALF albumin, protein and fibronectin content, and lung fibronectin mRNA as compared to O3 exposure alone. The data shows that IL-10, when given intratracheally, significantly reduces the pulmonary injury following O3 exposure in the rat. However, since the PMNs and the levels of albumin, protein and fibronectin in the IL-10 treated group did not reach baseline values, we conclude that other mediators of inflammation and injury not regulated by IL-10 also contribute to the pathophysiology of O3-induced lung injury.

Published

1999

19. Evaluation of wound repair mechanisms with an in vitro cell culture model.

Author

Bhalla DK

Subjects

Animals, Cells, Cultured, Evaluation Studies as Topic, Humans, In Vitro Techniques, Epithelial Cells cytology, Epithelial Cells physiology, Wound Healing

Published

1999

20. Alteration of epithelial integrity, alkaline phosphatase activity, and fibronectin expression in lungs of rats exposed to ozone.

Author

Bhalla DK, Gupta SK, and Reinhart PG

Subjects

Alkaline Phosphatase metabolism, Animals, Bronchoalveolar Lavage Fluid chemistry, Enzyme-Linked Immunosorbent Assay, Epithelium drug effects, Fibronectins biosynthesis, In Situ Hybridization, Lung metabolism, Male, Rats, Rats, Sprague-Dawley, Time Factors, Air Pollutants toxicity, Alkaline Phosphatase drug effects, Fibronectins drug effects, Lung drug effects, Oxidants, Photochemical toxicity, Ozone toxicity

Abstract

The deleterious effects of ozone (O3), an oxidant air pollutant, in the lung are dependent on dose and exposure duration and generally evolve with time postexposure. This study characterized the time sequence of epithelial injury and fibronectin expression in the lungs of rats exposed to O3. Bronchoalveolar lavage (BAL) fluid was analyzed for alkaline phosphatase and total protein as markers of epithelial injury and increased permeability, and fibronectin for its role in inflammation and lung injury. The results revealed a time-related increase in total protein in the BAL fluid following a 3-h exposure of rats to 1 ppm O3. The increased protein concentrations peaked at 12 h and then declined, but remained significantly higher than control at 24 h postexposure. A similar time-related significant increase also occurred for BAL fibronectin and alkaline phosphatase activity. However, the return of alkaline phosphatase levels to baseline prior to a comparable reduction in protein levels suggests repair of injured cells, but a delay in the formation of epithelial junctions that limit the transfer of serum proteins to air spaces. By cytochemistry, alkaline phosphatase activity was detected in association with lung type II epithelial cells and in BAL polymorphonuclear leukocytes (PMNs), but not in macrophages. While a significant increase in cytochemically detectable alkaline phosphatase resulted from the increase in PMN number following O3 exposure, mononuclear cells constituted the primary cell type responsible for fibronectin mRNA upregulation. While the cytochemical observations support the role of inflammatory cells in the injury process, the comparability of temporal changes in BAL protein, fibronectin, and alkaline phosphatase suggests a mechanistic role for fibronectin in lung injury.

Published

1999

21. Ozone-induced lung inflammation and mucosal barrier disruption: toxicology, mechanisms, and implications.

Author

Bhalla DK

Subjects

Animals, Epithelium drug effects, Epithelium pathology, Humans, Lung physiopathology, Mucous Membrane drug effects, Mucous Membrane pathology, Pneumonia physiopathology, Lung pathology, Oxidants, Photochemical toxicity, Ozone toxicity, Pneumonia chemically induced, Pneumonia pathology

Abstract

The airway epithelial lining serves as an efficient barrier against penetration of exogenous particles and macromolecules. Disruption of this barrier following O3 exposure represents a state of compromised epithelial defenses leading to increased transmucosal permeability. Although the barrier disruption following an acute exposure is transient in nature, the brief period of disruption caused by O3, an oxidant air pollutant, provides an opportunity for facilitated entry of a potentially toxic particulate copollutant(s) across the airway epithelia. The subsequent deposition and retention of the copollutant(s) in the subepithelial compartment for prolonged periods adds the risk of injury due to chronic exposure following an acute episode. Toxicological studies from several laboratories have demonstrated alterations in epithelial permeability, suggestive of barrier disruption, in animals and humans exposed to O3. Inflammatory cells represent another important component of pulmonary defenses, but upon activation these cells can both induce and sustain injury. The recruitment of these cells into the lung following O3 exposure presents a risk of tissue damage through the release of toxic mediators by activated inflammatory cells. Several studies have reported concomitant changes in permeability and recruitment of the inflammatory cells in the lung following O3 exposure. In these studies, an inflammatory response, as detected by an increase in the number of polymorphonuclear leukocytes in the bronchoalveolar lavage (BAL) or in lung parenchyma, was accompanied by either an increased tracer transport across the airway mucosa or an elevation in the levels of total protein and/or albumin in the BAL. The magnitude of response and the time at which the permeability changes and inflammatory response peaked varied with O3 concentration, exposure duration, and the mode of analysis. The responsiveness to O3 also appeared to vary with the animal species, and increased under certain conditions such as physical activity and pregnancy. Some of the effects seen after an acute exposure to O3 were modified upon repeated exposures. The responses following repeated exposures included attenuation, persistence, or elevation of permeability and inflammation. Mechanistic studies implicate chemotactic factors, cellular mediators, and cell-surface-associated molecules in the induction of inflammation and lung injury. In discussing these studies, this review serves to introduce the mucosal barrier functions in the lung, evaluates inflammatory and permeability consequences of O3, addresses mechanisms of inflammatory reactions, and offers alternate viewpoints.

Published

1999

22. Enhancement of fibronectin expression in rat lung by ozone and an inflammatory stimulus.

Author

Gupta SK, Reinhart PG, and Bhalla DK

Subjects

Animals, Blood, Bronchoalveolar Lavage Fluid chemistry, Enzyme-Linked Immunosorbent Assay, Fibronectins biosynthesis, Fibronectins blood, Inflammation blood, Inflammation physiopathology, Lung drug effects, Lung physiopathology, Male, RNA, Messenger biosynthesis, Rabbits, Rats, Rats, Sprague-Dawley, Fibronectins genetics, Lung physiology, Ozone pharmacology, Transcription, Genetic drug effects

Abstract

This study investigated the relationship of fibronectin expression and induction of pulmonary inflammation by ozone (O3). Rats were exposed to 0.8 parts/million O3 to induce lung inflammation. A second inflammatory stimulus, rabbit serum, was applied intratracheally to augment O3-induced inflammation. Bronchoalveolar lavage fluid (BALF) and lung tissues were analyzed for fibronectin protein and mRNA expression. Blood plasma was analyzed to investigate the potential of a minimally invasive procedure in predicting lung inflammation and fibronectin levels. Significant increases in the levels of fibronectin protein in the BALF and lung tissue after O3 exposure were further enhanced by pretreatment with normal serum. An increase in fibronectin mRNA following O3 exposure was also enhanced by serum pretreatment, which by itself had no effect on lung fibronectin mRNA expression. Plasma fibronectin levels were comparable in air-PBS and O3-PBS groups but increased in the O3-serum group. The results suggest leakage of fibronectin from blood plasma into the lung following intratracheal application of rabbit serum and upregulation of local synthesis following O3 exposure.

Published

1998

23. The influence of polymorphonuclear leukocytes on altered pulmonary epithelial permeability during ozone exposure.

Author

Reinhart PG, Bassett DJ, and Bhalla DK

Subjects

Animals, Bronchoalveolar Lavage Fluid cytology, Environmental Exposure, Epithelial Cells drug effects, Epithelial Cells physiology, Leukocyte Count, Lung physiology, Lymphocyte Activation drug effects, Male, Neutrophils physiology, Permeability, Peroxidase analysis, Rabbits, Rats, Rats, Sprague-Dawley, Serum Albumin analysis, Lung drug effects, Neutrophils drug effects, Ozone toxicity

Abstract

Ozone (O3), a pulmonary irritant, and a major toxic component of photochemical smog, is capable of inducing pulmonary inflammation characterized by recruitment of polymorphonuclear leukocytes (PMNs) into the lung. The recruited PMNs, in turn, can release toxic mediators and produce lung injury. The mechanism of ozone-induced changes in lung permeability remains unknown. It is our hypothesis that PMNs migrating into the lung play a significant role in the pathophysiology following O3 exposure and that increasing the number of PMNs coming into the lung will exaggerate the changes in lung permeability. To test this hypothesis, we induced an influx of PMNs into the lungs of Sprague-Dawley rats by intratracheal instillation of 1% rabbit serum and then exposed the animals to either 0.8 ppm O3 or filtered air for 3 h. Control animals were intratracheally instilled with phosphate-buffered saline (PBS) and simultaneously exposed to O3 or filtered air in the same manner as the serum-treated animals. The animals were sacrificed and the lungs lavaged 10-12 h after exposure. The bronchoalveolar lavage fluid (BALF) was analyzed for albumin and protein, as indicators of permeability. In addition, BALF from the various groups was tested for its ability to alter epithelial resistance of pulmonary type II cells in culture. O3 exposure resulted in a significant increase in albumin and protein levels in the BALF as compared to air-exposed controls. The instillation of serum resulted in a significant increase in airway PMNs, but no significant elevations in albumin levels in both the O3 and air-exposed groups, as compared to PBS instillation. In vitro studies did not reveal a differential BALF effect on epithelial resistance. The data demonstrate that an excessive neutrophilia in the lung is not matched by a comparable amplification of epithelial injury. It is therefore suggested that a simple elevation in PMN number in the air spaces, as that induced by serum instillation, does not necessarily augment the lung pathophysiology, but that a more complex interaction with O3 may be required for cellular activation and release of toxic products.

Published

1998

24. Effects of ozone on macrophage adhesion in vitro and epithelial and inflammatory responses in vivo: the role of cytokines.

Author

Pearson AC and Bhalla DK

Subjects

Administration, Inhalation, Albumins analysis, Animals, Bronchoalveolar Lavage Fluid chemistry, Bronchoalveolar Lavage Fluid cytology, Cell Count drug effects, Cells, Cultured, Epithelium drug effects, Epithelium physiology, Lung drug effects, Lung physiology, Macrophages physiology, Male, Ozone administration & dosage, Permeability drug effects, Proteins analysis, Rats, Rats, Sprague-Dawley, Cell Adhesion drug effects, Interleukin-1 physiology, Lung cytology, Macrophages drug effects, Ozone toxicity, Tumor Necrosis Factor-alpha physiology

Abstract

Inhalation exposure to ozone (O3) is known to induce epithelial and inflammatory changes in the lungs, characterized by neutrophilia and changes in epithelial permeability. Several cell types and their soluble mediators, including interleukin-1 (IL-1) and tumor necrosis factor-alpha (TNF-alpha), are involved in the evolution of these responses. In this study, we have compared the effects of the combination of anti-IL-1 alpha and anti-TNF-alpha on in vitro and in vivo responses to inhaled O3. Male, Sprague-Dawley rats were exposed, nose-only, to 0.8 ppm O3 for 3 h and the in vitro and in vivo parameters were measured 8-12 h following exposure. The in vitro studies revealed that the adherence of inflammatory cells, primarily macrophages, harvested from the lungs of O3-exposed rats to cultured lung epithelial cells (ARL-14) was significantly greater than the adherence of macrophages from air-exposed controls. Furthermore, this adherence was significantly reduced in antibody-treated cells as compared to cells treated with preimmune rabbit serum. In vivo, elevations were found in the percentage of neutrophils in bronchoalveolar lavage fluid (BALF), transport of 99mTc-diethylenetriaminepentaacetate (DTPA) across the tracheal epithelium, and concentrations of total protein and albumin in BALF following O3 exposure. However, these effects were not significantly altered by treatment with the anti-IL-1 alpha/anti-TNF-alpha combination. Therefore, it was concluded that O3 affects the early stages of the inflammatory response, particularly with respect to macrophage activation and adherence to epithelial cells, and that this early response may be mediated by IL-1 alpha and/or TNF-alpha. The results also suggest that the in vivo effects of O3 are controlled by complex mechanisms involving factors other than IL-1 alpha and TNF-alpha, even though these cytokines are capable of modifying macrophage function as revealed by the in vitro adherence studies.

Published

1997

25. Alteration of alveolar macrophage chemotaxis, cell adhesion, and cell adhesion molecules following ozone exposure of rats.

Author

Bhalla DK

Subjects

Animals, Cell Membrane ultrastructure, Cells, Cultured, Intercellular Adhesion Molecule-1 metabolism, Male, Microscopy, Electron, Scanning, Rats, Rats, Sprague-Dawley, Vascular Cell Adhesion Molecule-1 physiology, Cell Adhesion drug effects, Chemotaxis, Leukocyte drug effects, Macrophage-1 Antigen metabolism, Macrophages, Alveolar physiology, Ozone pharmacology

Abstract

Ozone (O3) exposure of humans and animals induces an inflammatory response in the lung, which is associated with macrophage stimulation, release of chemotactic agents, and recruitment of polymorphonuclear leukocytes (PMNs). This study was designed to investigate the functional aspects of the macrophages that impact inflammatory processes in the lung. Macrophages recovered by bronchoalveolar lavage (BAL) from rats exposed to purified air or 0.8 ppm O3 were studied for their chemotactic activity, adhesive interactions with alveolar epithelial cells in culture, surface morphology, and surface expression of cell adhesion molecules. The macrophages isolated from O3-exposed rats exhibited a greater motility in response to a chemotactic stimulus than the macrophages isolated from rats exposed to purified air. The macrophages from O3-exposed animals also displayed greater adhesion when placed in culture with epithelial cells isolated from adult rat lung (ARL-14) than the macrophages from control rats. Both chemotactic motility and cell adhesion stimulated by O3 exposure were attenuated when the macrophages were incubated in the presence of monoclonal antibodies to leukocyte adhesion molecules, CD11b, or epithelial cell adhesion molecules, ICAM-1. Flow cytometry revealed a modest increase in the surface expression of CD11b but no change in ICAM-1 expression in macrophages from O3-exposed rats when compared to those from the air-exposed controls. The results demonstrate an alteration of macrophage functions following O3 exposure and suggest the dependence of these functions on the biologic characteristics, rather than the absolute expression, of the cell adhesion molecules.

Published

1996

26. Modification of macrophage adhesion by ozone: role of cytokines and cell adhesion molecules.

Author

Bhalla DK, Hoffman LA, and Pearson AC

Subjects

Animals, Bronchoalveolar Lavage Fluid, Cell Adhesion drug effects, Cell Line, Macrophages cytology, Macrophages ultrastructure, Male, Microscopy, Electron, Scanning, Rats, Rats, Sprague-Dawley, Azepines pharmacology, Intercellular Adhesion Molecule-1 pharmacology, Interleukin-1 pharmacology, Macrophage-1 Antigen pharmacology, Macrophages drug effects, Tumor Necrosis Factor-alpha pharmacology

Abstract

The inflammatory response in the lungs following an inhalation exposure of animals and humans to ozone (O3) is associated with macrophage stimulation, release of chemotactic agents, and neutrophilia. This study investigated the adhesive behavior of the alveolar macrophages and its relevance to the inflammatory processes in the lung. Macrophages recovered by BAL from rats exposed to purified air or 0.8 ppm O3 were studied in vitro for their adhesion to epithelial cells derived from ARL-14. The macrophages from O3-exposed animals displayed greater adhesion to the epithelial cells than the macrophages from control rats exposed to purified air. The O3-induced adhesion was attenuated in the macrophages treated with a combination of interleukin-1 alpha and tumor necrosis factor-alpha antibodies (anti-IL-1+anti-TNF). The cell adhesion stimulated by O3 exposure was also attenuated when the macrophages were incubated in the presence of antibodies to leukocyte adhesion molecules, CD11b, or epithelial cell adhesion molecules, ICAM-1. A marginal increase in the surface expression of CD11b was noticed in macrophages from the rats exposed to O3. A similar change in the ICAM-1 expression was, however, not observed. The results suggest that the O3-induced modifications of macrophages are mediated by IL-1 and TNF, and that these modifications are accompanied by a minimal change in the expression of the cell-adhesion molecules.

Published

1996

27. Effects of ozone on the epithelial and inflammatory responses in the airways: role of tumor necrosis factor.

Author

Young C and Bhalla DK

Subjects

Animals, Bronchoalveolar Lavage Fluid chemistry, Eosinophils, Epithelial Cells, Epithelium drug effects, Leukocyte Count drug effects, Macrophages, Male, Neutrophils, Permeability drug effects, Proteins, Pulmonary Alveoli cytology, Rabbits, Rats, Rats, Sprague-Dawley, Trachea physiology, Bronchoalveolar Lavage Fluid cytology, Environmental Exposure adverse effects, Ozone adverse effects, Pulmonary Alveoli drug effects, Trachea drug effects, Tumor Necrosis Factor-alpha physiology

Abstract

We have investigated the possibility that tumor necrosis factor alpha (TNF) plays a role in the increased airway permeability and an inflammatory response following an acute ozone (O3) exposure. Male Sprague-Dawley rats were injected, intraperitoneally, with either rabbit anti-mouse antibody to TNF (anti-TNF) or preimmune rabbit serum, 2 h before a 3-h exposure to O3 or purified air. Permeability, as determined by [99mTc] diethylenetriamine pentaacetate (DTPA) transport, total protein and albumin concentrations in the bronchoalveolar lavage (BAL), and the inflammatory cell response in the BAL were assessed 10 h after the exposure was completed. The O3-exposed group that was injected with anti-TNF showed a significant decrease in permeability to DTPA in comparison to the O3- exposed group injected with preimmune rabbit serum. There was no difference between the anti-TNF group and the purified air group. In contrast, the total protein and albumin levels in the BAL were significantly greater in both of the O3-exposed groups than in the purified air group. The concentrations of protein and albumin in the anti-TNF group did, however, show an attenuating trend when compared to the preimmune O3-exposed group. The polymorphonuclear leukocytes (PMNs) in BAL of the anti-TNF group also showed an attenuating trend when compared to the preimmune O3-exposed group, but both of these O3-exposed groups were significantly greater than the purified air group. Lung sections stained with naphthol AS-D chloroacetate esterase showed an increase in the number of stained PMNs in the anti-TNF group in comparison to the preimmune O3- and air-exposed groups. These data suggest that TNF plays a role in the increase in tracheal permeability as determined by DTPA transport, while the contributing role that TNF plays in bronchoalveolar permeability and the inflammatory response seen following an acute exposure to 0.8 ppm O3 is less evident.

Published

1995

28. Alteration of ozone-induced airway permeability by oxygen metabolites and antioxidants.

Author

Bhalla DK

Subjects

Albumins analysis, Animals, Bronchoalveolar Lavage Fluid chemistry, Glucose pharmacology, Glucose Oxidase pharmacology, Hydrogen Peroxide pharmacology, Male, Ozone antagonists & inhibitors, Rats, Rats, Inbred F344, Respiratory System metabolism, Technetium Tc 99m Pentetate, Thiourea analogs & derivatives, Thiourea pharmacology, Antioxidants pharmacology, Cell Membrane Permeability drug effects, Oxygen pharmacology, Ozone toxicity, Respiratory System drug effects

Abstract

This study determined the interactive effects of O3 and enzymatically-generated oxidants and antioxidants in the lung. Rats treated with dimethylthiourea (DMTU) or H2O2, generated by glucose/glucose oxidase, were exposed for 2 h to 0.6 or 0.8 ppm O3. A significant increase in the flux of total albumin in the bronchoalveolar lavage (BAL) and a concomitant elevation in the transport of 99mTc-diethylenetriaminepentaacetate (99mTc-DTPA) from trachea to blood occurred after O3 exposure. Pretreatment of rats with DMTU prevented the albumin flux in the BAL. Intratracheal instillation of glucose/glucose oxidase produced a localized response in trachea, but it did not affect the broncho-alveolar permeability. The results demonstrate an additive effect of O3 and an enzymatically-generated oxidant, and an antagonistic effect of an antioxidant in rats exposed to O3. The observations support the suggestion that a balance of oxidant-antioxidant system may be critical in maintaining respiratory integrity following O3 exposure.

Published

1994

29. Inhalation of resuspended road dust, but not ammonium nitrate, decreases the expression of the pulmonary macrophage Fc receptor.

Author

Ziegler B, Bhalla DK, Rasmussen RE, Kleinman MT, and Menzel DB

Subjects

Animals, Image Processing, Computer-Assisted, Immunoglobulin G metabolism, Macrophages, Alveolar drug effects, Male, Rats, Rats, Inbred F344, Receptors, Fc drug effects, Dust adverse effects, Environmental Exposure adverse effects, Macrophages, Alveolar metabolism, Nitrates adverse effects, Receptors, Fc metabolism

Abstract

Pulmonary macrophages (PM) play a key role in the immune defenses of the lung. When stimulated, PM express Fc receptors (FcR) that regulate the immune response. PM were assayed for FcR expression following subchronic inhalation exposure of adult Fischer 344 rats to either 90 micrograms/m3 nitrate (NH4NO3), 300 micrograms/m3 road dust, or clean air, for 4 h/day, 4 days/week, for 8 weeks. PM were lavaged from the lungs and attached to glass coverslips for 18 h. PM FcR were labelled with rat IgG conjugated with cyanine-3. For each exposure, FcR were determined with a Meridian ACAS 570 confocal cytometer by imaging the fluorescence of 50 cells. We found that the IgG binding to FcR (in arbitrary fluorescence units, FU, per cell) for PM from road dust exposed rats was less (835 +/- 39.3 FU/cell) than that for PM from both ammonium nitrate or clean air-exposed rats (1115 +/- 58.0 FU/cell and 1123 +/- 46.6 FU/cell, respectively). While acid incubation conditions in vitro (pH 5.5 for 30 min to simulate the acid environment of ammonium nitrate inhalation) resulted in a 16% decrease in IgG binding (P < 0.05), IgG binding to PM from acid aerosol exposed rats was no different than the IgG bound to PM from clean air-exposed rats. PM exposed to road dust in vivo expressed 25% fewer FcR (P < 0.05). Three-dimensional images of PM failed to show any major alterations in FcR distribution. These preliminary results indicate cellular recognition of antibody-immune complexes may be impaired by subchronic exposure to road dust, which could decrease the immune response of road dust exposed animals.

Published

1994

30. Adhesion and motility of polymorphonuclear leukocytes isolated from the blood of rats exposed to ozone: potential biomarkers of toxicity.

Author

Bhalla DK, Rasmussen RE, and Daniels DS

Subjects

Animals, Biomarkers blood, Cell Adhesion drug effects, Cell Movement drug effects, Cells, Cultured, Male, N-Formylmethionine Leucyl-Phenylalanine pharmacology, Neutrophils physiology, Neutrophils ultrastructure, Rats, Rats, Inbred F344, Neutrophils drug effects, Ozone toxicity

Abstract

Ozone (O3) exposure of rats results in airway epithelial injury and an infiltration of polymorphonuclear leukocytes (PMNs) into the lungs, suggesting alteration of PMN functions. To identify the altered PMN functions and their possible effects on epithelia, rats were exposed to air or 0.8 ppm O3 for 2 hr. PMNs were isolated from the blood and incubated with an epithelial cell line derived from rat lung (ARL-14) or primary alveolar type II cell cultures. The PMNs from the O3-exposed rats exhibited stimulated motility and spontaneous redistribution of actin filaments and adhered in a greater number to the epithelial cells when compared with the PMNs from the air-exposed rats. Actin caps usually formed at the sites of contact between the PMNs and epithelial cells, suggesting a cytoskeletal role in the inflammatory-epithelial cell interaction. By scanning electron microscopy, PMNs from air-exposed rats had features of non-motile cells. In a striking contrast to this, PMNs from O3-exposed rats revealed surface modifications, which were quite prominent at the sites of PMN-epithelial cell contacts. Despite these morphological changes, the PMNs from O3-exposed rats did not alter the epithelial resistance, a measure of paracellular permeability. In contrast to this, PMNs stimulated by phorbol myristate acetate or N-formyl-methionyl-leucyl-phenylalanine not only exhibited greater adhesion to the epithelial cells, but also caused a reduction in epithelial resistance. The changes reflecting altered morphology, motility, and adhesion of PMNs from O3-exposed rats may represent important steps in the O3-induced inflammatory response that precedes barrier disruption in vivo, but they are not associated with increased epithelial permeability in an in vitro system. Besides their mechanistic relevance, the alterations of vascular PMNs may serve as important biomarkers for detecting O3 effects.

Published

1993

31. Attenuation of ozone-induced airway permeability in rats by pretreatment with cyclophosphamide, FPL 55712, and indomethacin.

Author

Bhalla DK, Daniels DS, and Luu NT

Subjects

Albumins metabolism, Animals, Blood Proteins metabolism, Bronchoalveolar Lavage Fluid chemistry, Cyclophosphamide adverse effects, Leukocyte Count drug effects, Leukopenia chemically induced, Leukotriene B4 toxicity, Male, Ozone toxicity, Permeability drug effects, Pulmonary Alveoli drug effects, Rats, Rats, Inbred F344, Technetium Tc 99m Pentetate pharmacokinetics, Trachea immunology, Trachea metabolism, Chromones pharmacology, Cyclophosphamide pharmacology, Indomethacin pharmacology, Ozone antagonists & inhibitors, Trachea drug effects

Abstract

Exposure of rats to ozone (O3) produces an increase in airway permeability and a concomitant influx of polymorphonuclear leukocytes in the lung. These observations raise the possibility that the inflammatory cells play a role in the cellular injury and increased airway permeability after O3 exposure. This study was therefore designed to determine if the inflammatory cells or their products are essential for the O3 effect. In a series of experiments, rats were rendered leukopenic with cyclophosphamide, treated with leukotriene B4 (LTB4), or with the inhibitors of lipoxygenase or cyclooxygenase products of arachidonic acid, followed by exposure to O3. A 2-h exposure to 0.8 ppm O3 caused a significant increase in the flux of proteins and albumin in bronchoalveolar lavage (BAL) and elevated the transport of 99mTc-diethylenetriaminepentaacetate (99mTc-DTPA) from trachea to blood. The treatment with cyclophosphamide caused a significant reduction in the circulating and pulmonary leukocytes and prevented an increase in tracheal mucosal permeability to 99mTc-DTPA and the protein and albumin flux in BAL. While the intratracheal instillation of LTB4 did not affect the permeability, tracheal permeability and albumin levels in BAL in rats treated with LTD4 antagonist FPL 55712 and exposed to O3 were lower than in the untreated O3-exposed rats. Pretreatment with indomethacin also prevented the O3 effects, as reflected by the decreased protein and albumin flux in BAL and 99mTc-DTPA transport from trachea to blood. These data show a reduction in the effect of O3 by agents that affect leukocytes or their products. The results support a mechanism of increased permeability that is dependent upon inflammatory cells and their products.

Published

1992

32. Time course of permeability changes and PMN flux in rat trachea following O3 exposure.

Author

Young C and Bhalla DK

Subjects

Animals, Male, Neutrophils drug effects, Permeability drug effects, Rats, Rats, Inbred Strains, Technetium Tc 99m Pentetate pharmacokinetics, Time Factors, Trachea metabolism, Neutrophils physiology, Ozone toxicity, Trachea drug effects

Abstract

Changes in rat tracheal epithelial permeability and polymorphonuclear leukocyte (PMN) populations during a 24-hr time period following a 3-hr exposure to 0.8 ppm ozone (O3) were investigated. An increase in permeability to 99mTc-diethylene-triaminepentaacetate (DTPA) occurred immediately after the exposure, peaked at the 8-hr time point and decreased to control level by 24 hr. For correlation with tracheal permeability, tracheal cross sections were stained with naphthol AS-D chloroacetate and PMNs were scored by their location as well as staining characteristics (positive or negative). The total PMN population remained at the control value at the 0-, 4-, and 8-hr time points, and increased at 12 hr, followed by a rapid decline to below the control value for the remaining time points. There was a shift at the 8-hr time point in the population location, from the vasculature to the interstitium, which returned to control values at 12 hr. The percentage stained PMNs increased significantly at 16 hr while remaining at control values for all other time points. The data reveal that there is a significant increase in tracheal epithelial permeability immediately after the exposure, but the overall increase in the PMN population is preceded by a lag phase. A decrease in the vascular pool of PMNs concomitant with an increase in the interstitial pool of PMNs suggests their migration from blood to the interstitium after ozone exposure. These data indicate that while PMNs may play a role in permeability changes of tracheal epithelium, the initiation is most likely due to other factors.

Published

1992

33. Effects of acute exposure to formaldehyde on surface morphology of nasal epithelia in rats.

Author

Bhalla DK, Mahavni V, Nguyen T, and McClure T

Subjects

Administration, Inhalation, Animals, Epithelium drug effects, Epithelium pathology, Male, Microscopy, Electron, Scanning, Nose pathology, Rats, Rats, Inbred Strains, Turbinates pathology, Turbinates ultrastructure, Formaldehyde toxicity, Nose drug effects

Abstract

This study investigated the distribution of epithelial cells over the turbinates in the rat nasal cavity and their injury following exposure to formaldehyde. Rats were exposed to either purified air or 10 ppm formaldehyde for a period of 4 h. The noses removed from these rats were decalcified, sectioned midsagittally along the septum to expose the internal turbinates, and processed for examination by scanning electron microscopy. The distribution of the various cell types present was documented in the control rats. Observations obtained from the formaldehyde-exposed rats were compared to those in rats exposed to purified air. Changes were seen in the various regions of the turbinates in the form of ciliary destruction and cell separation (especially in the naso- and moxilloturbinates), cellular swelling (throughout the turbinates), mucus release by the goblet cells (in the nasoturbinate), and in some cases pores on the cell surface or between adjacent cells (evident in the middle meatus). The data from this study indicate that the degree of deleterious effects of formaldehyde on the nasal epithelia of rats is dependent upon cell type and location. Histological studies supported the scanning electron microscopic observations by demonstrating increased goblet cell volume, cell sloughing, and damaged cilia.

Published

1991

34. Interactive effects of O3, cytochalasin D, and vinblastine on transepithelial transport and cytoskeleton in rat airways.

Author

Bhalla DK, Rasmussen RE, and Tjen S

Subjects

Animals, Biological Transport drug effects, Bronchi cytology, Bronchi ultrastructure, Cell Line, Cell Membrane Permeability, Cytoskeleton drug effects, Epithelium metabolism, Male, Microscopy, Electron, Pentetic Acid metabolism, Pulmonary Alveoli cytology, Pulmonary Alveoli ultrastructure, Rats, Rats, Inbred Strains, Serum Albumin, Bovine metabolism, Bronchi metabolism, Cytochalasin D pharmacology, Cytoskeleton metabolism, Ozone pharmacology, Pulmonary Alveoli metabolism, Vinblastine pharmacology

Abstract

Cytoskeletal perturbations and associated changes in transepithelial transport in rat airways were analyzed after in vivo treatment with cytochalasin D or vinblastine or exposure to ozone (O3). Exposure of O3 or cytochalasin D, but not vinblastine, increased permeability in the bronchoalveolar region. Combined treatment with cytochalasin D and O3 did not increase the effect seen with each agent alone. However, treatment with vinblastine plus 0.8 ppm O3 resulted in a slight enhancement of permeability over that seen with O3 alone. This enhancement was not seen with 2 ppm O3. When cytochalasin and vinblastine treatment were combined, a synergistic effect on bronchoalveolar permeability was seen, suggesting participation of both microfilamentous and microtubular cytoskeletal elements in maintaining the integrity of the bronchoalveolar epithelium. Potentially harmful effects of O3 on cytoskeletal elements were confirmed in rat lung epithelial cells in culture. O3 exposure produced reversible changes in microfilamentous structures comparable to those produced by cytochalasin D. The results of these studies support the hypotheses that the cytoskeleton has a central role in maintenance of respiratory epithelial integrity and that a target for O3 toxicity may be the components of cytoskeleton. These results, however, do not rule out the possibility that treatment with cytoskeleton destabilizing drugs leads to the release of mediators, which in turn contribute to the airway epithelial dysfunction and increased permeability.

Published

1990

35. Morphometric and cytochemical analysis of lysosomes in rat Peyer's patch follicle epithelium: their reduction in volume fraction and acid phosphatase content in M cells compared to adjacent enterocytes.

Author

Owen RL, Apple RT, and Bhalla DK

Subjects

Animals, Epithelial Cells, Epithelium ultrastructure, Histocytochemistry, Intestines enzymology, Intestines ultrastructure, Lysosomes enzymology, Lysosomes metabolism, Microscopy, Electron, Peyer's Patches cytology, Rats, Acid Phosphatase metabolism, Lysosomes ultrastructure, Peyer's Patches ultrastructure

Abstract

M cells are specialized epithelial cells over lymphoid follicles in Peyer's patches which take up viruses, bacteria, and antigenic macromolecules from the intestinal lumen. Unlike ordinary enterocytes which sequester pinocytosed material in lysosomes, M cells transport such material across the epithelium to antigen-processing areas in lymphoid follicle domes, suggesting a difference in lysosomal activity or a different route for movement of endocytic vesicles. Ileal Peyer's patches in rats were examined by electron microscopy to identify lysosomes by acid phosphatase activity. Acid phosphatase was found in dense bodies in enterocytes but not in M cells. Stereological analysis showed the volume fraction occupied by dense bodies in M cells to be 16 times less than in enterocytes (P less than .0005), even though the volume fractions of cytoplasm occupied by mitochondria in M cells and enterocytes were not significantly different. The small volume fraction of dense bodies and the absence of acid phosphatase activity in M cells thus correlate with absence of lysosomal degradation of luminal microorganisms during transport into lymphoid follicles by M cells and may provide not only a complete array of microbial antigens for initiation of immune responses, but also a route through the mucosal barrier for microorganisms which can evade local containment mechanisms.

Published

1986

36. Model for capping derived from inhibition of surface receptor capping by free fatty acids.

Author

Klausner RD, Bhalla DK, Dragsten P, Hoover RL, and Karnovsky MJ

Subjects

Animals, Calcium metabolism, Cell Membrane physiology, Cytoskeleton physiology, Diffusion, Fatty Acids, Unsaturated pharmacology, Lymphocytes drug effects, Lymphocytes ultrastructure, Mice, Models, Theoretical, Fatty Acids, Nonesterified pharmacology, Immunologic Capping drug effects, Lymphocytes immunology, Receptors, Antigen, B-Cell metabolism

Abstract

When low concentrations (2-5 mole %) of cis unsaturated free fatty acids (group A) are intercalated into lymphocyte plasma membrane, capping is inhibited. No effect is seen with trans unsaturated or saturated fatty acids (group B). The capping inhibition is reversible with increasing doses of extracellular calcium. Fluorescence photobleaching recovery has shown that the group A free fatty acids do not inhibit the receptor immobilization associated with patch formation, but inhibit the final energy-dependent movement of the patched receptors into a cap. We have also shown that the group A free fatty acids cause a shift in membrane-bound calcium to the lipid phase from probable protein-associated sites. We have incorporated these findings into a model for capping and membrane-cytoskeletal interactions.

Published

1980

37. Tracheal permeability in rats exposed to ozone. An electron microscopic and autoradiographic analysis of the transport pathway.

Author

Bhalla DK and Crocker TT

Subjects

Animals, Autoradiography, Biological Transport, Endocytosis, Epithelium metabolism, Epithelium ultrastructure, Histocytochemistry, Horseradish Peroxidase metabolism, Intercellular Junctions ultrastructure, Male, Mucous Membrane metabolism, Mucous Membrane ultrastructure, Pentetic Acid metabolism, Permeability, Rats, Rats, Inbred Strains, Serum Albumin, Radio-Iodinated metabolism, Technetium metabolism, Technetium Tc 99m Pentetate, Trachea drug effects, Trachea ultrastructure, Ozone pharmacology, Trachea metabolism

Abstract

Exposure of rats to ozone (O3), 0.8 ppm increases the tracheal permeability to 99mTc-diethylenetriaminepentaacetate (99mTc-DTPA) about twofold but to 125I-bovine serum albumin (125I-BSA) to a lesser extent. It is generally believed that exposure to air pollutants causes perturbation of tight junctions and formation of intercellular channels for the passage of molecules from airway lumen to blood. We now report that a second mechanism, vesicular transport, is operative in the transepithelial movement of molecules, that this mechanism is speeded in tracheas of O3-exposed rats, and that there is a concurrent delay in movement of BSA from connective tissue to capillaries after O3 exposure. Horseradish peroxidase (HRP) instilled in trachea was taken up by endocytic vesicles, which could be localized in apical as well as basal regions of ciliated and nonciliated cells. A count of HRP-positive vesicles and measurement of their surface area revealed an approximate twofold increase in O3-exposed rats over that in control animals breathing clean air; this paralleled a twofold increase in transport of 99mTc-DTPA from tracheal lumen to blood. An autophagocytic process induced in tracheal epithelial cells by O3 is proposed. Despite the difference in the size of HRP and BSA, the 2 molecules migrated through common pathways and were colocalized in the luminal membranes as well as in endocytic vesicles and intercellular spaces in double labeling experiments involving simultaneous detection of HRP by cytochemistry and 125I-BSA by autoradiography. This procedure proved particularly useful in detecting a dramatic accumulation of 125I-BSA autoradiographic grains in subepithelial connective tissue and HRP accumulation in intercellular spaces and at the basal membrane-connective tissue junction in O3-exposed rats.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1986

38. Effects of linoleic acid on capping, lectin mediated mitogenesis, surface antigen expression, and fluorescent polarization in lymphocytes and BHK cells.

Author

Hoover RL, Bhalla DK, Yanovich S, Inbar M, and Karnovsky MJ

Subjects

Animals, Antigen-Antibody Reactions, Cell Line, Concanavalin A pharmacology, Cricetinae, Fluorescence Polarization, Humans, Kidney, Lipopolysaccharides pharmacology, Mice, Phytohemagglutinins pharmacology, Antigens, Surface immunology, Immunologic Capping drug effects, Linoleic Acids pharmacology, Lymphocyte Activation drug effects, Membrane Lipids physiology

Abstract

The incubation of linoleic acid with cells causes profound effects on membrane asociated phenomenon. Using the fluorescent probe diphenyl hexatriene (DPH) to monitor lipid changes in the microenvironment of the cell surface, we find that linoleic acid reduces the polarization values (P) in mouse lymphocytes and BHK cells. Measurements on lipids extracted from the cells grown in linoleic acid produce similar results. We also find in the mouse lymphocyte that capping of Ig is inhibited and con A stimulated mitogenesis is unaffected. In contrast to the latter effect, LPS and PHA stimulated mitogenesis is inhibited and in the rat lymph node, con A stimulated mitogenesis, greatly enhanced. We also show that linoleic acid alters the binding of antibodies to the cell surface of EL-4 lymphoma cells. These observations suggest that linoleic acid alters cellular function by interfering with protein/lipid interactions within the surface membrane.

Published

1980

39. Cell renewal and migration in lymphoid follicles of Peyer's patches and cecum--an autoradiographic study in mice.

Author

Bhalla DK and Owen RL

Subjects

Animals, Autoradiography, Cell Division, Cell Movement, Epithelial Cells, Male, Mice, Mice, Inbred BALB C, Microscopy, Electron, Microvilli ultrastructure, Mucus, Thymidine metabolism, Tritium, Cecum cytology, Lymphoid Tissue cytology, Peyer's Patches cytology

Abstract

Peyer's patch lymphoid follicles are characterized by a cuboidal epithelium, which has low numbers of mucus-secreting goblet cells, infiltration with clusters of lymphoid cells, and unique antigen-transporting M cells. M cells have short, irregular microvilli similar to undifferentiated crypt epithelial cells, which suggested that M-cell renewal might occur over follicle surfaces. By autoradiography we found that epithelial renewal over follicles only occurs by proliferation in multiple adjacent crypts with cell migration onto follicle surfaces. Nuclear labeling of M cells was observed after 72 h among fully differentiated cuboidal cells from which M cells appear to develop. Goblet-cell flow from surrounding crypts supplied large numbers of goblet cells to adjacent villi, but it was remarkably restricted onto the Peyer's patch follicle surfaces, creating a breach in the mucus barrier that may facilitate antigen sampling.

Published

1982

40. Microcirculation of intestinal lymphoid follicles in rat Peyer's patches.

Author

Bhalla DK, Murakami T, and Owen RL

Subjects

Animals, Arterioles anatomy & histology, B-Lymphocytes, Capillaries anatomy & histology, Male, Microcirculation anatomy & histology, Microscopy, Electron, Scanning, Rats, Venules anatomy & histology, Lymphoid Tissue blood supply, Peyer's Patches blood supply

Abstract

Peyer's patch microvasculature carries recirculating lymphoid cells into lymphoid follicles and supports vigorous metabolic demands of crypts and replicating germinal centers. Scanning electron microscopy of methyl methacrylate casts of blood vessels in rat intestinal Peyer's patches revealed that ascending arterioles pierce follicles and feed to a subepithelial capillary network beneath the follicle surface. These capillaries interconnect with baskets of capillaries beneath adjacent crypts and flow into postcapillary venules in thymus-dependent areas around the follicle perimeters. This pattern is a modification of the fountain pattern in villi and reflects the secondary development of germinal centers of B lymphocytes between central ascending arterioles and peripheral postcapillary venules. Sections of glycol methacrylate-embedded follicles injected with India ink revealed multiple fine capillaries in germinal centers not detected by previous techniques. Capillary flow from follicle apex to adjacent crypts provides a route for feedback control of replenishment of the specialized antigen-trapping epithelium covering follicles, and it is an opportunity for absorbed materials and cellular products beneath the epithelium to modify migration of lymphocytes out of postcapillary venules into follicles.

Published

1981

41. Relative mobility of con A and anionic receptor sites on the cell surface of lymphocytes. A quantitative-cytochemical study.

Author

Bhalla DK, Perotti ME, and Anderson WA

Subjects

Cell Membrane metabolism, Cell Membrane ultrastructure, Concanavalin A metabolism, Ferritins metabolism, Histocytochemistry, Humans, Lymphocytes ultrastructure, Lymphocytes metabolism, Receptors, Concanavalin A metabolism, Receptors, Drug metabolism

Abstract

Events following the binding of Concanavalin A and cationized ferritin to the surface of normal human peripheral blood lymphocytes were followed using ultracytochemical methods. In this paper, we described a technique involving microdensitometry, which was employed in order to make a comparative cytochemical quantitation of the dense horseradish peroxidase-diaminobenzidine reaction products representing the states of Concanavalin A receptors under various conditions of distribution and redistribution. The technique presents a direct approach to the analysis of various probes that are currently being employed for studying the nature and distribution of various cell surface components. An attempt was also made to analyze the distribution of anionic sites, and their lateral redistribution is compared with the mobility of Concanavalin A receptors. The data presented suggests an independent mobility of receptors for Concanavalin A and cationized ferritin.

Published

1978

42. Lymphocyte surface and cytoplasmic changes associated with translational motility and spontaneous capping of Ig.

Author

Bhalla DK, Braun J, and Karnovsky MJ

Subjects

Animals, B-Lymphocytes immunology, B-Lymphocytes ultrastructure, Cell Membrane ultrastructure, Cell Movement, Cytoplasm ultrastructure, Cytoskeleton ultrastructure, Lymphocyte Activation, Mice, Microtubules ultrastructure, Microvilli ultrastructure, B-Lymphocytes physiology, Immunologic Capping

Abstract

Murine B-lymphocytes during translatory motion undergo a series of changes with respect to their morphology and distribution of surface immunoglobulins (Ig). The sequence of events comprising these changes was followed by fluorescence microscopy and a correlated detection of surface features by scanning microscopy on exactly the same cell. A round, presumably non-motile lymphocyte exhibited a random distribution of Ig and its surface displayed evenly distributed microvilli. Formation of a ruffled edge at one pole, accompanied by a decreased fluorescence at this pole marked the initial events of lymphocyte motility. In the subsequent stages, the ruffled edge became progressively prominent and displayed a constriction at its base, while the microvilli were displaced to the opposite pole. Ig in such lymphocytes was localized at the trailing, microvilli-rich pole. Thin sections of motile lymphocytes revealed Ig, microtubules, microfilaments and coated vesicles as the characteristic features of the trailing end. These observations may have bearing on the mechanism of lymphocyte motility and spontaneous capping of Ig.

Published

1979

43. Pulmonary epithelial permeability in rats exposed to O3.

Author

Bhalla DK and Crocker TT

Subjects

Air, Animals, Epithelial Cells, Epithelium drug effects, Epithelium ultrastructure, Lung drug effects, Lung ultrastructure, Male, Microscopy, Electron, Rats, Rats, Inbred Strains, Cell Membrane Permeability drug effects, Lung pathology, Ozone toxicity

Abstract

Measurements of pulmonary epithelial permeability were made in rats exposed for 2 h to either purified air or ozone (O3) at concentrations of 0.8 or 2 ppm. [99mTc]Diethylenetriaminepentaacetate ([99mTc]DTPA) (492 daltons) and 125I-labeled bovine serum albumin ([125I]BSA) (69,000 daltons) were injected intravenously, and the lungs were lavaged 6 min later. In rats exposed to air, transfer of the larger tracer molecule (BSA) from blood to the lavage fluid was less than that of the smaller molecule (DTPA) when the amount of tracer in the lavage fluid was calculated as percent of the counts in femoral artery blood 5 min after injection, i.e., 1 min prior to lavage. In rats exposed to O3, alveolar permeability increased in a dose-related fashion, the increase under all exposure conditions was greater for the smaller molecule than for the larger one, and the permeability was reversible with time. The increase in permeability from blood to air was comparable to the increase from air to blood reported earlier (Bhalla et al., 1986). The increased permeability provided an early and reliable indicator of short-term O3 exposure effect in rats. Autoradiography by electron microscopy identified multiple pathways for BSA transfer from blood to the alveolar space. Grains produced by [125I]BSA were localized over endothelial and epithelial cell surfaces, were associated with cytoplasmic vesicles, were over cell surface invaginations, and were found in the cytoplasm of apparently degenerating cells. Although defects in tight junctions of alveolar type I cells were observed in lungs of rats exposed to O3, autoradiographic grains also appeared in intercellular spaces, with the intercellular junctions remaining intact.

Published

1987

44. Effects of free fatty acids on the organization of cytoskeletal elements in lymphocytes.

Author

Hoover RL, Fujiwara K, Klausner RD, Bhalla DK, Tucker R, and Karnovsky MJ

Subjects

Animals, Azides pharmacology, Calcium pharmacology, Colchicine pharmacology, Cytoskeleton drug effects, Linoleic Acids pharmacology, Lymphocytes drug effects, Magnesium pharmacology, Mice, Microtubules drug effects, Sodium Azide, Actins metabolism, Fatty Acids, Nonesterified pharmacology, Myosins metabolism, Tubulin metabolism

Abstract

Treatment of mouse lymphocytes with cis-unsaturated free fatty acids produced alterations in the immunofluorescence patterns of the cytoskeleton and contractile proteins. Saturated free fatty acids and trans-unsaturated free fatty acids had no effect. In untreated cells, the microtubular pattern exhibited radiation from an organizing center, resembling the spokes of an umbrella. The addition of linoleic acid produced a polarized submembranous aggregate. Under control conditions, staining for actin revealed a diffuse pattern over the entire cell, but the addition of linoleic acid caused the formation of a single large patch, or polarized submembranous aggregate. The pattern for alpha-actinin normally revealed intense perinuclear staining on a diffuse background. Linoleic acid caused the loss of this pattern and the formation of a polarized submembranous aggregate. Linoleic acid treatment also caused the pattern for myosin to change from diffuse to uniform submembranous patching around the periphery of the cell. For all of these proteins, calcium (8 mM), but not magnesium, partially reversed the effects of linoleic acid. Sodium azide had little effect on the normal distribution of actin, tubulin, and alpha-actinin; however, myosin staining revealed prominent patch formation. Colchicine treatment caused diffuse staining, some polarized submembranous aggregate formation of tubulin, and some patching of myosin, but not as extensively as did treatment with linoleic acid. Actin and alpha-actinin were unaffected. These results, in view of the previously shown facts that pretreatment of cells with linoleic acid followed by anti-immunoglobulin inhibits capping of surface immunoglobulin (Klausner, et al., Proc. Natl. Acad. Sci. U.S.A. 77:437-441, 1980) and that free fatty acids partition into the surface membrane (Klausner et al., J. Biol. Chem. 255:1286-1295, 1980), suggest that the perturbation of the plasma membrane with unsaturated free fatty acids alters the interaction of surface receptors with the cytoskeleton, which in turn affects cytoplasmic distribution of the proteins.

Published

1981

45. Airway permeability in rats exposed to ozone or treated with cytoskeleton-destabilizing drugs.

Author

Bhalla DK, Lavan SM, and Crocker TT

Subjects

Animals, Autoradiography, Biological Transport drug effects, Cytochalasin B pharmacology, Cytochalasin D, Cytoskeleton physiology, Cytoskeleton ultrastructure, Epithelium drug effects, Epithelium ultrastructure, Histocytochemistry, Iodine Radioisotopes pharmacokinetics, Lung drug effects, Lung metabolism, Lung pathology, Male, Microscopy, Electron, Permeability, Rats, Rats, Inbred Strains, Cytochalasins pharmacology, Cytoskeleton drug effects, Ozone pharmacokinetics, Vinblastine pharmacology

Abstract

Ozone (O3) exposure of rats increases airway epithelial permeability. We hypothesized that this increased permeability may be mediated by the epithelial cell cytoskeleton. To test this hypothesis, we studied the effect of cytoskeletal disruption on the transmucosal transport of tracers from airway lumen to blood and compared the results with the effects of O3 exposure. No increase in transport occurred following disruption of microtubules by vinblastine, but disruption of microfilaments with cytochalasin D resulted in increased transport of radiolabeled tracers [99mTc- and 111In-labeled diethylenetriamine-pentacetate (DTPA) and 125I-labeled bovine serum albumin (BSA)]. In control rats, both horseradish peroxidase (HRP) and BSA, localized by cytochemistry and autoradiography, respectively, were detected on the epithelial cell surfaces and in endocytic vesicles. In rats treated with cytochalasin D or exposed to O3, the tracer molecules also penetrated the intercellular spaces, though the apical tight junctions remained devoid of the tracers. Increased numbers of endocytic vesicles containing HRP and aggregation of 125I-labeled BSA autoradiographic grains in the subepithelial region were also seen after either treatment. We conclude that destabilization of cytoskeletal elements following O3 exposure is a possible mechanism of increased transmucosal transport, which may be a combined effect of accelerated transport through both endocytic and paracellular pathways.

Published

1988

46. Transport across rat trachea in vitro after exposure to cytoskeleton-active drugs in vitro or to ozone in vivo.

Author

Rasmussen RE and Bhalla DK

Subjects

Animals, Cell Membrane Permeability, Horseradish Peroxidase, Male, Organ Culture Techniques, Rats, Rats, Inbred Strains, Trachea cytology, Trachea drug effects, Cytochalasins pharmacology, Ozone pharmacology, Trachea metabolism, Vinblastine pharmacology

Abstract

Full-length tracheas from Sprague-Dawley rats were exposed to cytoskeleton-active drugs in short-term organ culture, and the permeability of the tracheal epithelium was measured by instilling radiotracers into the lumen and assay of the radioactivity appearing in the external bathing medium. In vitro treatment with cytochalasin D (cyto D, 2-10 x 10(-6) M) increased the rate of movement of [14C]mannitol across the epithelium. Exposure to vinblastine (VB, 10(-4) M) alone had no significant effect. However, VB in combination with cyto D increased the permeability in a dose-dependent manner. In vivo exposure to ozone (O3, 0.8 or 2.0 ppm, 2 h) had only a slight effect on the rate of movement of the tracer as measured in vitro immediately after exposure. At 24 h postexposure there was no significant difference in permeability between ozone- and air-exposed tracheas. Prior in vivo O3 exposure sensitized the tracheas to the in vitro effects of cyto D; treatment of O3-exposed tracheas with cyto D immediately after O3 exposure produced a greater than additive effect on permeability measured in vitro. VB at concentrations up to 10(-4) M had no enhancing effect on permeability in O3-exposed tracheas. Sham exposure to clean air did not affect permeability compared to untreated (shelf) controls. Electron microscopic studies demonstrated penetration of horseradish peroxidase into intercellular spaces in the tracheas treated in vitro with cyto D or cyto D plus VB. Cyto D is known to affect intracellular microfilaments that have attachments at or near the cell surface, while VB affects microtubules associated with internal cellular structures. Therefore, the synergistic effect on tracheal permeability observed with O3 and cyto D, but not with O3 and VB, suggests that O3 may change cell surface structures associated with the microfilamentous cytoskeleton.

Published

1989

47. Transport of macromolecules and particles at target sites for deposition of air pollutants.

Author

Crocker TT and Bhalla DK

Subjects

Analysis of Variance, Animals, Biological Transport, Cell Membrane Permeability, Epithelium, Macromolecular Substances, Male, Ozone administration & dosage, Rats, Rats, Inbred Strains, Air Pollutants toxicity, Formaldehyde pharmacokinetics, Nitrogen Dioxide pharmacokinetics, Ozone pharmacokinetics, Respiratory System metabolism

Abstract

This study analyzed rats' nasal, tracheal and bronchoalveolar epithelial permeability to macromolecules after they were exposed, in 2- or 4-hour periods of rest or exercise, to ozone (O3) (0.6, 0.8 or 2 ppm), nitrogen dioxide (NO2) (2.5, 6 or 12 ppm) or formaldehyde (10 ppm). Exercise was performed on a treadmill operated at a speed that led to a 2-fold increase in oxygen consumption. Histopathologic and electron microscopic cytochemical and autoradiographic studies were performed to identify the structural aspects of mucosal response. In rats not exposed to pollutants, the quantity of macromolecular tracers (99mTc-DTPA, 125I-BSA) in blood sampled 6, 7, 8, 9 and 10 minutes after a slow 5-minute instillation of comparable quantities of tracer molecules in the lumen of each zone, was lowest in nasal, highest in tracheal, and intermediate in the bronchoalveolar region. Exposure of resting rats to O3 did not affect nasal permeability, but tracheal and bronchoalveolar permeabilities increased by 2-fold 1 hour after the exposure. In rats exposed at rest to O3, tracheal permeability was no longer elevated 24 hours after exposure, but bronchoalveolar permeability remained elevated at 24 hours after exposure and was normal at 48 hours. Exposure during exercise increased the effect of O3 in the trachea and in the bronchoalveolar zone. However, exercise also prolonged the duration of the O3 effect on the tracheal zone from 1 hour to 24 hours and, in the bronchoalveolar zone, from 24 hours to 48 hours. Histologically, focal inflammatory lesions in the alveolar zone were maximal at 48 hours after a 4-hour resting exposure to O3. After exposure during exercise, the area of lung involved by lesions increased 4- to 7-fold above the lesion-bearing area in rats exposed while resting. By electron microscopy, horseradish peroxidase (HRP) was localized in epithelial intercellular spaces, but not in the apical tight junctions, of tracheal epithelial cells from O3-exposed rats; no HRP was found in intercellular spaces in controls. The number of HRP-containing endocytic vesicles in tracheal epithelial cells was 2-fold greater in rats exposed to O3 than in control rats. This 2-fold increase in vesicles presumed to be transporting HRP matches the 2-fold increase in transfer of DTPA from the tracheal lumen to the blood. Electron microscopic autoradiography revealed 125I-BSA accumulation in subepithelial connective tissue, and electron microscopic cytochemistry identified accumulation of HRP not only between cells but also at the basal lamina.(ABSTRACT TRUNCATED AT 400 WORDS)

Published

1986

48. Surface morphology of mouse and rat thymic lymphocytes: an in situ scanning electron microscopic study.

Author

Bhalla DK and Karnovsky MJ

Subjects

Animals, Capillaries ultrastructure, Cortisone pharmacology, Mice, Microscopy, Electron, Scanning, Rats, T-Lymphocytes drug effects, Thymus Gland drug effects, T-Lymphocytes ultrastructure, Thymus Gland ultrastructure

Abstract

The present paper deals with a scanning electron microscopic investigation which was undertaken in order to make a direct study of geometrical conformations of thymocytes, to determine the effect of external mechanical forces and finally to analyse the relation of the cell surface morphology to the differentiation and release of thymocytes into circulation. Thymocytes in situ revealed a striking polyhedral configuration with distinct edges and angles that permit a close orientation of cells in a minimum space. This conformation is probably acquired under the influence of forces in the microenvironment of the cells. The immature thymocytes in the cortex were smooth surfaced and constituted a homogenous population with regards to surface morphology except for slight variations in the size and angles of varoius facets of the polyhedra. A minority of the cell population occupying the medulla, however, exhibited a departure in possessing surface undulations and stubby protuberances. Thymocytes isolated in suspension and those in postcapillary venules of thymus did not show the polyhedral shape characteristic of the cells in thymic tissue. They were always rounded, with their surfaces often exhibiting undulations or microvilli. The variations observed in situ are discussed in light of external mechanical forces, cell surface characteristics and the inherent properties of differentiating thymocytes.

Published

1978

49. Cytochemical analysis of alkaline phosphatase and esterase activities and of lectin-binding and anionic sites in rat and mouse Peyer's patch M cells.

Author

Owen RL and Bhalla DK

Subjects

Animals, Binding Sites, Carboxylesterase, Histocytochemistry, Male, Mice, Mice, Inbred BALB C, Microscopy, Electron, Peyer's Patches cytology, Peyer's Patches ultrastructure, Acid Phosphatase analysis, Alkaline Phosphatase analysis, Anions metabolism, Carboxylic Ester Hydrolases analysis, Lectins metabolism, Lymphoid Tissue metabolism, Peyer's Patches metabolism

Abstract

M cells in Peyer's patch follicle epithelium endocytose and transport luminal materials to intraepithelial lymphocytes. We examined (1) enzymatic characteristics of the epithelium covering mouse and rat Peyer's patches by using cytochemical techniques, (2) distribution of lectin-binding sites by peroxidase-labeled lectins, and (3) anionic site distribution by using cationized ferritin to develop a profile of M cell surface properties. Alkaline phosphatase activity resulted in deposits of dense reaction product over follicle surfaces but was markedly reduced over M cells, unlike esterase which formed equivalent or greater product over M cells. Concanavalin A, ricinus communis agglutinin, wheat germ agglutinin and peanut agglutinin reacted equally with M cells and with surrounding enterocytes over follicle surfaces. Cationized ferritin distributed in a random fashion along microvillus membranes of both M cells and enterocytes, indicating equivalent anionic site distribution. Staining for alkaline phosphatase activity provides a new approach for distinguishing M cells from enterocytes at the light microscopic level. Identical binding of lectins indicates that M cells and enterocytes share common glycoconjugates even though molecular groupings may differ. Lectin binding and anionic charge similarities of M cells and enterocytes may facilitate antigen sampling by M cells of particles and compounds that adhere to intestinal surfaces in non-Peyer's patch areas.

Published

1983

50. Migration of B and T lymphocytes to M cells in Peyer's patch follicle epithelium: an autoradiographic and immunocytochemical study in mice.

Author

Bhalla DK and Owen RL

Subjects

Animals, Autoradiography, Cell Movement, Epithelial Cells, Mice, Microscopy, Electron, Peyer's Patches blood supply, Venules cytology, B-Lymphocytes physiology, Lymphoid Tissue cytology, Peyer's Patches cytology, T-Lymphocytes physiology

Abstract

Intimate interaction occurs between M cells which take up antigens in Peyer's patch epithelium and underlying lymphocytes but the migratory pathway and subtypes of these lymphocytes have remained uncertain. Lymphocyte homing to Peyer's patches was investigated by separating mouse splenic B and T lymphocytes, labeling with [3H]adenosine, reinjecting into syngeneic mice, and localizing them by autoradiography after 17, 40, and 68 hr. Both B and T lymphocytes migrated across postcapillary venules through intercellular spaces. Most labeled cells of both types localized around postcapillary venules in the initial time period, then migrated through the lymphoid mass to follicle epithelium. T-cell number in follicle epithelium peaked at 17 hr but B cells peaked at 40 hr. At each time point more labeled B than T lymphocytes were found below M cells and in follicle epithelium but the differences were only significant (P less than 0.01) at 40 hr. Endogenous B lymphocytes, identified by antibody staining, were also associated with M cells, possibly reflecting a role for secretory antibody in modulating antigen uptake.

Published

1983