Kathy Baker scite author profile

Kathy Baker

4Publications

19Citation Statements Received

61Citation Statements Given

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New York University

Publications

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Effects of Inhaled Ozone on Pulmonary Immune Cells Critical to Antibacterial Responses in Situ

Cohen

Sisco

Baker

et al. 2002

Inhalation Toxicology

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The goal of this study was to examine effects from repeated exposure to ozone (O 3 ) on immune cells involved in cell-mediated antibacterial responses in the lungs. Rats exposed to 0.1 or 0.3 ppm O 3 for 4 h/ day, 5 days/ wk, for 1 or 3 wk were analyzed for the ability to clear an intrapulmonary challenge with Listeria monocytogenes or had their lungs processed to obtain pulmonary alveolar macrophages (PAM) and lung-associated lymphocytes for analyses of select cell functions and surface marker expression. The results indicate that repeated inhalation exposure to O 3 affected local cell-mediated immunity ( CMI) responses as evidenced by effects on clearance of Listeria. However, this modulation was not consistently dependent on exposure concentration or duration. Short-term repeat exposures had more effect on host resistance than did the more prolonged regimen, with rats exposed to 0.1 ppm O 3 most adversely impacted. Clearance patterns suggest modifications in innate resistance following 1 wk of exposure to 0.1 ppm O 3 , but no similar effect following a 3-wk regimen. Exposure to 0.3 ppm O 3 appeared to affect both innate and acquired resistance after a 1-wk regimen, but mainly the former after an additional 2 wk of exposure. We conclude that these two mechanisms of resistance are differentially affected by O 3 and that distinct time-and O 3 concentration-dependent adaptation phenomena evolve for each; that is, in situ adaptation to higher levels of O 3 may occur more readily with acquired than with innate/ PAM-dependent resistance. A similar pattern of inconsistent effect on PAM and lung-associated lymphocytes was also evident. For example, while 3-wk exposures had a greater effect on PAM reactive oxygen intermediate ROI production, evidence 599

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Impact of Coexposure to Ozone on the Carcinogenic Potential of Inhaled Chromium. I. Effects on Retention and on Extra- and Intracellular Distribution

Cohen¹,

Sisco²,

Baker³

et al. 2003

Journal of Toxicology and Environmental Health, Part A

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A health hazard to welders is development of lung cancer. It is believed that this is likely due, in part, to the presence in welding fumes of several hexavalent chromium (Cr[VI]) species, whose solubility depends primarily on which process (i.e., manual metal arc verus metal-inert gas) is used. However, inhalation of Cr alone is uncommon in this setting. Thus, an examination of potential contributions from other coinhalants in creating or enhancing conditions whereby inhaled fume-associated Cr (primarily the insoluble forms) may initiate cancer is critical to increasing our understanding and preventing this particular occupational disease. One major chemical species formed and released during welding is ozone (O3). Though implications of adverse pulmonary effects from individual exposure to Cr or O3 have been investigated, those from simultaneous exposure are unclear. To begin to address whether the carcinogenic potential of insoluble Cr[VI] agents might be enhanced in hosts inhaling mixtures of Cr and O3 versus Cr alone, analyses of total lung Cr burden, Cr retention in lung epithelium and interstitium, and potential shifts in lung cell distribution of Cr from the cytoplasm to nuclei were undertaken in F-344 rats exposed nose-only (5 h/d, 5 d/wk for up to 48 wk) to an extrapolated occupationally relevant level of Cr (360 micrograms Cr/m3 as calcium chromate) alone and in combination with 0.3 ppm O3. Overall, there was only a nominal effect from O3 on Cr retention or on distribution of Cr particles among extracellular sites and within lung cells. However, there were O3-related effects upon mechanisms for clearing the Cr from the deep lung, specifically at the levels of particle uptake and postphagocytic/endocytic processing by macrophages. This O3 exposure-related shift in normal pulmonary clearance might potentially increase the health risk in workers exposed to other insoluble or poorly soluble carcinogenic Cr compounds.

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Effect of Inhaled Chromium on Pulmonary A1at

Cohen

Sisco

Baker

et al. 2002

Inhalation Toxicology

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A major health hazard to coal miners is development of emphysema following long-term exposure to coal dust. One mechanism underlying development of emphysema is the oxidation of critical methionine (Met) residues in antiproteolytic factor, alpha1-antitrypsin (A1AT) resulting in a protease-antiprotease imbalance in the lung. Several studies have documented an association between the incidence and severity of emphysema among miners and their exposure to crystalline silica (i.e., SiO(2)). However, what remains unclear is the role of other co-inhaled nonemphysematogenic nonoxidant inorganic constituent in disease pathogenesis. We hypothesize that in miners, inhaled trivalent chromium (Cr(3+), the only form of Cr in coal) may potentially affect lung A1AT activity in situ via Cr complexing with Met residues, and thereby exacerbate any SiO(2)-induced imbalance. To ascertain if Cr(3+) could, in fact, affect A1AT activity, in vitro studies were done to assess elastase inhibitory activity following A1AT incubation with soluble Cr(3+). In addition, to determine if Cr(3+) found in the lungs as detoxification products of inhaled hexavalent Cr (Cr(6+)) could affect A1AT in situ, lavages from the lungs of chromate-exposed rats were also analyzed for elastase inhibitory activity The in vitro results indicate that Cr(3+) ions clearly inhibited A1AT function, with an IC50 of 1.1 mM being estimated under the experimental conditions used. The in vivo results indicate that long-term inhalation (12 wk or longer) of chromate-bearing atmospheres also gave rise to significant (i.e., 50-70%) inhibition of the antielastase activity of A1AT. Together, these results clearly suggest that the Cr(3+) present in coal dusts could potentially act to inhibit A1AT activity in the lungs of miners and thereby promote the emphysematogenicity of SiO(2) or of other emphysematogens present as coconstituents in these dusts.

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Evidence for Different Forms of Monoamine Oxidase in Perfused Rabbit Lung

Gillis¹,

Roth²,

Baker³

1975

Chest

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Kathy Baker

Effects of Inhaled Ozone on Pulmonary Immune Cells Critical to Antibacterial Responses in Situ

Impact of Coexposure to Ozone on the Carcinogenic Potential of Inhaled Chromium. I. Effects on Retention and on Extra- and Intracellular Distribution

Effect of Inhaled Chromium on Pulmonary A1at

Evidence for Different Forms of Monoamine Oxidase in Perfused Rabbit Lung

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