Comparison of particle clearance and macrophage phagosomal motion in liver and lungs of rats

Magnetic particles and magnetometry were used to noninvasively measure motion of particle-containing organelles in macrophages as well as to monitor the disappearance of particles from tissues. We compared these parameters in the liver (where macrophages are attached to the endothelium) and in the lungs (where macrophages were mobile on epithelial surfaces). Submicrometric magnetic particles were injected intravenously (1.5 mg/kg) into rats; 94% was taken up by the liver. Rats were also instilled intratracheally (1.0 mg/kg) with the same particles. Ultrastructural analyses showed that almost all particles were ingested by macrophages in both organs. Periodically, the retained particles were magnetized and aligned with an external magnet. After the magnet was removed, the decay of the resulting remanent field (relaxation) was followed for 25 min. Relaxation parameters (t1/2 and lambda 0) in the liver were constant from 30 min to 30 days after particle administration, but relaxation in lungs showed a time-dependent increase during the 1st day due to the slower rate of particle phagocytosis. Relaxation in both organs primarily reflects the motion of particle-containing organelles as they are rotated by the cytoskeleton. Relaxation in the lungs may also reflect cell translocation or even changes in alveolar shape. Clearance of particles from the lungs or liver was measured by following B0 (initial magnetic field strength). After correction for growth, the clearance t1/2 was 17.7 and 27.3 days for the lungs and liver, respectively. Bulk transport of particles is probably a more important clearance mechanism in the lungs than in the liver.     

Acute effect of cigarette smoke on cytoplasmic motility of alveolar macrophages in dogs

To study effects of cigarette smoke on the cytoplasmic motility (CM) of alveolar macrophages (AM), we measured remanent field strength (RFS) in dogs in vivo. Four days after instillation of ferrimagnetic particles (Fe3O4, 3 mg/kg) into the right lower lobe bronchus, RFS was measured at the body surface immediately after magnetization of the Fe3O4 particles by an externally applied magnetic field. RFS decreased with time due to particle rotation (relaxation), which is thought to be inversely related to CM of AM (J. Appl. Physiol. 55: 1196-1202, 1983). The initial relaxation curve was fitted to an exponential function. The relaxation rate (lambda 0) increased during cigarette smoke inhalation and returned to base-line values within 15 min. With the inhalation of the smoke of up to five cigarettes, peak lambda 0 was increased; with a further increase in the number of cigarettes, the effect of cigarette smoke decreased or disappeared. Nicotine injection and acetylcholine inhalation increased respiratory resistance to a degree similar to that observed with cigarette smoke but did not change lambda 0. However, either substance P (SP) or capsaicin injection increased lambda 0 in a fashion similar to that noted with cigarette smoke inhalation. Repeated administration of SP produced a significant tachyphylaxis of the effect, and capsaicin did not increase lambda 0 after the cigarette smoke-induced tachyphylaxis of the effect. Colchicine inhibited the cigarette smoke-induced increase in lambda 0. These results suggest that cigarette smoke increases CM of AM, probably through the release of tachykinins including SP from sensory nerves in the lung.     

Cytoplasmic motions, rheology, and structure probed by a novel magnetic particle method

The motions of magnetic particles contained within organelles of living cells were followed by measuring magnetic fields generated by the particles. The alignment of particles was sensed magnetometrically and was manipulated by external fields, allowing non-invasive detection of particle motion as well as examination of cytoplasmic viscoelasticity. Motility and rheology data are presented for pulmonary macrophages isolated from lungs of hamsters 1 d after the animals had breathed airborne gamma-Fe2O3 particles. The magnetic directions of particles within phagosomes and secondary lysosomes were aligned, and the weak magnetic field produced by the particles was recorded. For dead cells, this remanent field was constant, but for viable macrophages, the remanent field decreased rapidly so that only 42% of its initial magnitude remained 5 min after alignment. A twisting field was applied perpendicular to the direction of alignment and the rate at which particles reoriented to this new direction was followed. The same twisting was repeated for particles suspended in a series of viscosity standards. Based on this approach, the low-shear apparent intracellular viscosity was estimated to be 1.2-2.7 X 10(3) Pa.s (1.2-2.7 X 10(4) poise). Time-lapse video microscopy confirmed the alignment of ingested particles upon magnetization and showed persistent cellular motility during randomization of alignment. Cytochalasin D and low temperature both reduced cytoplasmic activity and remanent-field decay, but affected rheology differently. Magnetic particles were observed in association with the microtubule organizing center by immunofluorescence microscopy; magnetization did not affect microtubule distribution. However, both vimentin intermediate filaments and f-actin reorganized after magnetization. These data demonstrate that magnetometry of isolated phagocytic cells can probe organelle movements, rheology, and physical properties of the cytoskeleton in living cells.     

Magnetic particle motions within living cells. Physical theory and techniques.

Body tissues are not ferromagnetic, but ferromagnetic particles can be present as contaminants or as probes in the lungs and in other organs. The magnetic domains of these particles can be aligned by momentary application of an external magnetic field; the magnitude and time course of the resultant remanent field depend on the quantity of magnetic material and the degree of particle motion. The interpretation of magnetometric data requires an understanding of particle magnetization, agglomeration, random motion, and both rotation and translation in response to magnetic fields. We present physical principles relevant to magnetometry and suggest models for intracellular particle motion driven by thermal, elastic, or cellular forces. The design principles of instrumentation for magnetizing intracellular particles and for detecting weak remanent magnetic fields are described. Such magnetic measurements can be used for noninvasive studies of particle clearance from the body or of particle motion within body tissues and cells. Assumptions inherent to this experimental approach and possible sources of artifact are considered and evaluated.     

Behaviour of magnetic micro-particles in the human lung

Magnetic micro-particles were used to investigate the defence system of the human lungs against foreign material. Afterprimary magnetisation a remanent magnetic field (RMF) of the lung can be measured that allows estimation of the amount of dust retained in the lung. After calibration of the system with a lung phantom the magnetic contamination retained in the lungs of dental technicians and welders was estimated at mean values of 22 and 500 mg respectively. In normal controls only 0.3 mg was found. About 0.5 mg of spherical monodisperse magnetite particles was deposited in the alveolar region of the lung by voluntary inhalation. The decay of the RMF, calledrelaxation, results from a misalignment of the dipole particles due to the activity of pulmonary macrophages. This macrophage activity is characterised by a cellular energyE _z. With aseconary magnetisation the lung can be remagnetised by rotation of the dipole particles. This allows an estimation of the intracellular viscoelasticity and the motility of the alveolar macrophages in vivo. Secondary magnetisation and relaxation curves of spherical monodisperse magnetite particles are presented. Intracellular viscosity was estimated to be 100 Pa·s at shear rates near 0.01 s^–1, the rigidity modulus beingv 4–8 Pa. Macrophage activity was described by a cellular energyE _z 5·10^–18 J. Additionally, non-magnetic aerosol exposure resulted in a faster relaxation, which was interpreted to be due to activation of the macrophages. The magnetite particles were cleared with a half-time of 110 days.Dedicated to Professor Wolfgang Jacobi on the occasion of his 65th birthday     

3D Magnetopneumography Magnetic Dipole Model and Its Application Using Fluxgate Gradiometers

Magnetopneumography (MPG) as a non‐invasive method for pneumoconiosis diagnosis has been developed to evaluate the load and spatial distribution of particles within the human lungs through scanning of remanent magnetic fields after magnetization of the subject in a strong direct current field. The measurement of particle spatial distribution is very important for pneumoconiosis diagnosis because localized deposits may be associated with some pathological changes such as pulmonary fibrosis. Previous research found that loads of magnetite particles were proportional to their magnetic dipole moments. The three‐dimensional (3D) MPG magnetic dipole model (MDM) proposed in this paper and based on Biot–Savart Law and matrix manipulation provides a means of precise measurement of the particle distribution and load amount. A styrofoam + magnetite powder phantom with magnetization was laid on a nonmagnetic board. Two first‐order fluxgate gradiometers with 10^–12 T sensitivity were coaxially applied over and under the phantom and used for scanning remanent magnetic fields. This paper provides validation results using 3D MPG MDM through two experiments. The overall error of the simulation results is 0.2–2.7% in the center and 7.28–9.42% in the corners of the subject. Finally, this paper gives clinical experiments with a welder suffering stage‐II pneumoconiosis and states that the 3D MPG MDM shows similar results to X‐ray chest films in pneumoconiosis diagnosis. The results suggest that the 3D MPG MDM is potentially a reasonable and accurate algorithmic model to inversely track the load amount and distribution of magnetite particles within the lungs. Bioelectromagnetics. 2019;40:472–487. © 2019 Wiley Periodicals, Inc     

Dynamic study of the development of edema in the organs in experimental burn trauma

Proton magnetic relaxation with measuring the time of spin-screen relaxation (T1) was used to study the time course of derangement of organ and tissue flooding after stage IIIB experimental burn of 15% body area. To examine the structures of the microcirculatory vessels, use was made of electron microscopy of the organs. The internal organs under study demonstrated a significant long-term (up to 49 days) increase in flooding: in the liver and kidneys, it occurred since the first day after burn, while in the lungs, myocardium and brain, since the 7th day. The results indicate the parallelism of the changes in the T1 and electron microscopic alterations in the histohematic barriers. Proton magnetic relaxation enables a more rapid and more convenient assay of the changes in tissue flooding as compared to the method of drying at high temperature. Therefore, it may be applied to the assessment of the efficacy of different therapeutic means.     

Remodeling of neuronal membranes as an early response to deafferentation. A freeze-fracture study

The early effects of deafferentation on the postsynaptic membrane beneath the end bulb of Held in the anteroventral cochlear nucleus (AVCN) were studied with the freeze-fracture technique. Three distinct responses were seen on the external membrane leaflet after cochlear ablation. Within 12 h the number of nonaggregate particles increased 147% by the addition of new particles to the membrane. The increase in number of nonaggregate particles continued until 4 days after cochlear ablation. The other responses occurred later, after degenerative changes were present in the end bulb. Between 1 and 2 days after cochlear ablation, the number of perisynaptic aggregates surrounding the postsynaptic active zone decreased to 10% of normal numbers. By 4 days, all perisynaptic aggregates had disappeared from the membrane. Coated vesicles may be involved in removing these aggregates. Between 1 and 3 days, the number of junctional aggregates decreased, but the size of the aggregates increased, apparently as a result of coalescence of nearby junctional aggregates. The total number of particles in junctional aggregates in the membrane was not altered during the first 6 days after cochlear ablation. The three separate responses suggest the existence of at least three different types of intramembranous particles on the external leaflet of the principal cell membrane, with each type dependent upon different cues for its maintenance in the membrane.     

旋转磁场对^60Coγ射线放射损伤小鼠肺损伤影响

目的：探讨旋转磁场对放射损伤小鼠肺损伤的影响。方法：132只雄性BALB／c小鼠随机分为正常组（N）,单纯磁疗组（M）,单纯照射组（R）和照射磁疗组（IHM）4组,R组和R＋M组小鼠接受吸收剂量6．0Gy的^60Coγ射线全身一次照射,M组及N组不予以照射,M组及R＋M组予以磁场处理30d,每天2次,每次1．5h,分别于第9,23、30d测定小鼠湿肺羟脯氨酸含量,并进行小鼠肺光镜、电镜超微结构的观察。结果：N组和M组肺羟脯氨酸含量在3个时间点上都低于R组和R＋M组,有明显差别（P均〈0．05）。R组和R＋M组肺羟脯氨酸含量在3个时间点均无明显差别（P均〈0．05）。苏木精-伊红染色结果显示,N组肺组织结构正常;照射后d9,R组及R＋M组肺泡壁轻度增厚,普遍肺毛细血管扩张、充血,少量淋巴细胞、中性粒细胞浸润。小鼠肺组织透射电镜观察结果显示,照射后d30,N组及M组肺间质胶原纤维正常无增生;R组及R＋M组肺可见肺间质胶原纤维较N组及M组明显增多,但R＋M组与R组比较差别不明显。结论：6．0Cy的^60Coγ射线照射后小鼠的肺受到了损伤,但磁场没有加重这种损伤且磁疗对正常小鼠无明显肺损伤。     

Bleomycin selectively elevates mRNA levels for procollagen and fibronectin following acute lung injury

We employed the technique of dot blot hydridization of radiolabeled cDNA probes to examine the role of specific mRNA content in the control of extracellular matrix turnover in the remodeling rat lung. Following bleomycin instillation, total RNA content gradually doubled during the first 5 days following the initial lung injury, then rose much more rapidly during the ensuing 9 days. Individual mRNAs for procollagens I and III and for fibronectin were selectively enriched 2- to 4-fold above total RNA during the first week after bleomycin instillation. No comparable increases were observed in specific RNAs from liver, indicating that the response observed in the lung was not generalized to other organs. Moreover, the increases in mRNA species for procollagen types I or III in the lung could not be related to the influx of inflammatory cells which migrate into the lungs during acute injury, as cells obtained by alveolar lavage contained no mRNAs for procollagens.     

Effect of 0.25 ppm ozone exposure on pulmonary damage induced by bleomycin

To study the effect of ozone in a chronically damaged lung, we used a bleomycin (BLM) induced pulmonary fibrosis model. Both endotracheal instillation of BLM and O3 exposure both produce lung inflammation and fibrosis. Oxidative stress would be a common mechanism of damage for both BLM and O3. Our aim was to assess lung injury induced by 5 and 60 days of intermittent exposure to 0.25 ppm O3 in rats with bleomycin-induced pulmonary fibrosis. Thirty-day-old Sprague Dawley rats were endotracheally instilled with BLM (1 U/100 g body weight) and, 30 days later, exposed to 0.25 ppm 03 (0.25 ppm 4 h per day, 5 days a week). Histopatology controls were instilled with saline and breathing room air. Histopathological evaluation of lungs was done 5 and 60 days after O3 exposure. BLM-induced lung damage did not change after 60 days of intermittent O3 exposure. Five days of O3 exposure increased the mean score of BLM-induced pulmonary inflammation and fibrosis (p=0.06). Frequency of bronchopneumonia increased from 1/7 to 6/6 (p <0.001), suggesting that a short-term exposure to O3 in a previously damaged lung might be a risk factor for developing further lung injury.     

Acute pneumonia reversibly inhibits hypoxic vasoconstriction in isolated rat lungs.

Pneumonia was induced in rats by instillation of carrageenin (0.5 ml of 0.7% solution) into the trachea. Three or four days after instillation, the lungs were isolated, perfused with blood of healthy rat blood donors, and ventilated with air + 5% CO2 or with various hypoxic gas mixtures. Pulmonary vascular reactivity to acute hypoxic challenges was significantly lower in lungs of rats with pneumonia than in lungs of controls. The relationship between O2 concentration in the inspired gas and Po2 in the blood effluent from the preparation was shifted significantly to lower Po2 in lungs with pneumonia compared to control ones. These changes were not present in rats allowed to recover for 2-3 weeks after carrageenin instillation. We suppose that blunted hypoxic pulmonary vasoconstriction may contribute to hypoxaemia during acute pulmonary inflammation. Decreased Po2 in the blood effluent from the isolated lungs with pneumonia implies significant increase of oxygen consumption by the cells involved in the inflammatory process.     

Corticosteroids and lung surfactant levels in adult male rats

Following lung instillation in adult male rats of 3.4 mumol hexavalent chromium (K2Cr2O7) dissolved in 0.5 ml of 0.9% NaCl, increased levels of lung surfactant could be detected after 48 h. The blood serum concentration of corticosterone was elevated in these animals. Blood serum thyroxine and triiodothyronine showed an initial increase after lung instillation of hexavalent chromium followed by a decline. Metabolism of testosterone by the alveolar macrophages to 17 beta-hydroxy-5 alpha-androstane-3-one and 5 alpha-androstane-3 alpha, 17 beta-diol was reduced 6 and 12 h after the K2Cr2O7 instillation, which was also associated with damage of lung cell function and decreased uptake by the alveolar macrophages of Candida albicans particles. As early as 12 h after s.c. administration of 400 micrograms dexamethasone/100 g body wt, increased levels of lung surfactant could be measured. At this time the lungs showed no signs of cellular damage, and metabolism of testosterone as well as uptake of Candida albicans particles by the alveolar macrophages were normal. Lower s.c. doses of dexamethasone did not result in raising the levels of lung surfactant in 12 h. Within 12 h after s.c. administration of large doses of testosterone, dihydrotestosterone or dehydroepiandrosterone no measurable effects on the levels of lung surfactant could be measured. Since animals treated with dexamethasone (200 micrograms/100 g body wt) or long-acting synthetic ACTH (100 micrograms i.m. Synacthen Depot/100 g body wt) for 5 days after lung instillation of K2Cr2O7 had extremely high levels of lung surfactant, it is concluded that the corticosteroids in adult rats may help to create augmented surfactant levels following lung intoxication. This could proceed via stimulation of surfactant production and reduction of surfactant removal. Different aspects of lung surfactant metabolism are discussed.     

Behaviour of free-ranging beef cows and calves

The aim of this project was to describe the behaviour of free-ranging cows and calves after birth and during growth to the age of 6 months. Ten bull and 10 heifer calves were followed from birth until first suckling. Calves were observed to record their position in the field once a day until 10 days of age. Focal observations of 5 bull and 5 heifer calves were made from 27 to 167 days of age.

Of the cows studied, 2 separated completely from the herd at calving. The calving sites were randomly distributed in the area available. After birth all cows licked their calves. The amount of licking between 0 and 30 min was significantly greater than that between 30 and 60 min after birth. The duration of the first suckling was significantly longer for heifer calves than for bull calves. Eleven of 17 calves changed area during the first day after birth. The duration of cows licking calves did not change significantly from 27 to 167 days of age, and was not correlated to duration of licking immediately after birth. Suckling frequency per hour, suckling time per hour and duration of each suckling did not change significantly from 27 to 167 days of age. Bull calves from 27 to 167 days of age had a significantly higher frequency than heifer calves of sniffings towards adult cows other than the mother and a significantly higher frequency of mountings of adult cows. Cows and calves spent more time together when the calf was a female than when it was a male, and more time when the weaning weight was low than when it was high.     

Analysis of magnetic material in the human heart, spleen and liver

Isothermal remanent magnetization (IRM) acquisition and alternating field (A.F.) demagnetization analyses were performed on human heart, spleen and liver samples resected from cadavers. The magnetic properties of the samples were measured both at 77K and at 273K. A.F. demagnetization was performed at 273K. Results from the analyses of the tissue indicate the presence of ferromagnetic, fine-grained, magnetically interacting particles which, due primarily to magnetic properties, are thought to be magnetite and/or maghemite. The presence of superparamagnetic particles can be inferred from the increase in saturation IRM values when measured at 77K compared with measurements at 273K and the decay of remanent magnetization upon warming from 77K. The concentration of magnetic material (assuming it is magnetite or maghemite) in the samples varies from 13.7 ng g-1 to 343 ng g-1, with the heart tissue generally having the highest concentration. The presence of magnetic material in these organs may have implications for the function of biogenic magnetite in the human body.     

Motion and twisting of magnetic particles ingested by alveolar macrophages in the human lung: effect of smoking and disease

Background

Magnetic microparticles being ingested by alveolar macrophages can be used as a monitor for intracellular phagosome motions and cytoskeletal mechanical properties. These studies can be performed in the human lung after voluntary inhalation. The influence of cigarette smoking and lung diseases on cytoskeleton dependent functions was studied.

Methods

Spherical 1.3 μm diameter ferrimagnetic iron oxide particles were inhaled by 17 healthy volunteers (40 – 65 years), 15 patients with sarcoidosis (SAR), 12 patients with idiopathic pulmonary fibrosis (IPF), and 18 patients with chronic obstructive bronchitis (COB). The retained particles were magnetized and aligned in an external 100 mT magnetic field. All magnetized particles induce a weak magnetic field of the lung, which was detected by a sensitive SQUID (superconducting quantum interference device) sensor. Cytoskeletal reorganizations within macrophages and intracellular transport cause stochastic magnetic dipole rotations, which are reflected in a decay of the magnetic lung field, called relaxation. Directed phagosome motion was induced in a weak magnetic twisting field. The resistance of the cytoplasm to particle twisting was characterized by the viscosity and the stiffness (ratio between stress to strain) of the cytoskeleton.

Results

One week after particle inhalation and later macrophage motility (relaxation) and cytoskeletal stiffness was not influenced by cigarette smoking, neither in healthy subjects, nor in the patients. Patients with IPF showed in tendency a faster relaxation (p = 0.06). Particle twisting revealed a non-Newtonian viscosity with a pure viscous and a viscoelastic compartment. The viscous shear was dominant, and only 27% of the shear recoiled and reflected viscoelastic properties. In patients with IPF, the stiffness was reduced by 60% (p < 0.02). An analysis of the shear rate and stress dependence of particle twisting allows correlating the rheological compartments to cytoskeletal subunits, in which microtubules mediate the pure viscous (non-recoverable) shear and microfilaments mediate the viscoelastic (recoverable) behavior. The missing correlation between relaxation and particle twisting shows that both stochastic and directed phagosome motion reflect different cytoskeletal mechanisms.

Conclusion

Faster relaxation and a soft cytoskeleton in patients with IPF indicate alterations in cytoskeleton dependent functions of alveolar macrophages, which may cause dysfunction's in the alveolar defense, like a slower migration, a retarded phagocytosis, a disturbed phagosome lysosome fusion and an impaired clearance.

     

Cytogenetic effects of diazepam in peripheral lymphocytes of self-poisoned persons.

The frequencies of chromosomal aberrations and of micronuclei were determined in lymphocyte cultures of 25 patients who attempted suicide with diazepam, 6-12 h, 72 h and 30 days after self-poisoning. These data were compared with those of healthy controls. The frequencies of numerical aberrations showed a significant increase immediately after self-poisoning. However, this effect could not be detected on the 3rd and 30th days after self-poisoning.     

Assessment of hemapoietic system reaction of mice when exposed to pulsed magnetic field

The focus of the study was on the reaction of by the haemopoietic system of mice subjected to impulse magnetic field. The source of the impulse magnetic field was the Shakhparonov's generator. The animals used in the experiments were mice of two strains--CBA, C57B1/6 and white non-inbred mice. These animals were exposed to impulse magnetic field during 1, 3 and 7 days. Animals were examined twice: immediately after the termination of exposure and 24 h later. The following effects were observed in the course of the experiments: an increase in the number of bone marrow cells right after the exposure termination; an increase in the number of proliferation pool cells with the increase in their mitotic activity; 1 day after the exposure termination the number of bone marrow cells was restored to the initial values, or even it decreased; the above listed bone marrow changes led to the increase in the number of peripheral blood leucocytes in 1 day after the termination of exposure. The increase of leukocyte counts was not accompanied with changes in peripheral blood cell composition. It was suggested that exposure to impulse magnetic field increases the rates of cell cycle, the cell differentiation and the maturation.     

Persistence of Asthmatic Response after Ammonium Persulfate-Induced Occupational Asthma in Mice

Introduction

Since persulfate salts are an important cause of occupational asthma (OA), we aimed to study the persistence of respiratory symptoms after a single exposure to ammonium persulfate (AP) in AP-sensitized mice.

Material and Methods

BALB/c mice received dermal applications of AP or dimethylsulfoxide (DMSO) on days 1 and 8. On day 15, they received a single nasal instillation of AP or saline. Airway hyperresponsiveness (AHR) was assessed using methacholine provocation, while pulmonary inflammation was evaluated in bronchoalveolar lavage (BAL), and total serum immunoglobulin E (IgE), IgG1 and IgG2a were measured in blood at 1, 4, 8, 24 hours and 4, 8, 15 days after the single exposure to the causal agent. Histological studies of lungs were assessed.

Results

AP-treated mice showed a sustained increase in AHR, lasting up to 4 days after the challenge. There was a significant increase in the percentage of neutrophils 8 hours after the challenge, which persisted for 24 hours in AP-treated mice. The extent of airway inflammation was also seen in the histological analysis of the lungs from challenged mice. Slight increases in total serum IgE 4 days after the challenge were found, while IgG gradually increased further 4 to 15 days after the AP challenge in AP-sensitized mice.

Conclusions

In AP-sensitized mice, an Ig-independent response is induced after AP challenge. AHR appears immediately, but airway neutrophil inflammation appears later. This response decreases in time; at early stages only respiratory and inflammatory responses decrease, but later on immunological response decreases as well.     

PM-induced cardiac oxidative stress and dysfunction are mediated by autonomic stimulation

Epidemiological studies show that increases in particulate air pollution (PM) are associated with increases in cardiopulmonary morbidity and mortality. However, the mechanism(s) underlying the cardiac effects of PM remain unknown. We used pharmacological strategies to determine whether oxidants are implicated in PM-dependent cardiac dysfunction and whether PM-induced increase in autonomic stimulation on the heart mediates cardiac oxidative stress and toxicity. Adult Sprague-Dawley rats were exposed to either intratracheal instillation of urban air particles (UAP 750 microg) or to inhalation of concentrated ambient particles (CAPs mass concentration 700+/-180 microg/m3) for 5 h. Oxidative stress and cardiac function were evaluated 30 min after UAP instillation or immediately after exposure to CAPs. Instillation of UAP led to significant increases in heart oxidants measured as organ chemiluminescence (UAP: 38+/-5 cps/cm2, sham: 10+/-1 cps/cm2) or thiobarbituric acid reactive substances (TBARS, UAP: 76+/-10, Sham 30+/-6 pmol/mg protein). Heart rate increased immediately after exposure (UAP: 390+/-20 bpm, sham: 350+/-10 bpm) and returned to basal levels over the next 30 min. Heart rate variability (SDNN) was unchanged immediately after exposure, but significantly increased during the recovery phase (UAP: 3.4+/-0.2, Sham: 2.4+/-0.3). To determine the role of ROS in the development of cardiac malfunction, rats were treated with 50 mg/kg N-acetylcysteine (NAC) 1 h prior to UAP instillation or CAPs inhalation. NAC prevented changes in heart rate and SDNN in UAP-exposed rats (340+/-8 and 2.9+/-0.3, respectively). To investigate the role of the autonomic nervous system in PM-induced oxidative stress, rats were given 5 mg/kg atenolol (beta-1 receptor antagonist), 0.30 mg/kg glycopyrrolate (muscarinic receptor antagonist) or saline immediately before exposure to CAPs aerosols. Both atenolol and glycopyrrolate effectively prevented CAPs-induced cardiac oxidative stress (CL(ATEN): 11+/-1 cps/cm2, CL(GLYCO): 10+/-1 cps/cm2, TBARS(ATEN): 40+/-6 pmol/mg protein, TBARS(GLYCO): 38+/-6 pmol/mg protein). These data indicate that PM exposure increases cardiac oxidants via autonomic signals and the resulting oxidative stress is associated with significant functional alterations in the heart.