Beatriz S. González-Flecha, Ph.D.

Sections

Beatriz S. González-Flecha, Ph.D.
Title
Associate Professor
Department
Department of Environmental Health
Institution
Harvard University
Address
Building II Room 213
Environmental Health
City, State
Boston, MA
Country
United States
Email
[email protected]
Website
www.hsph.harvard.edu/physiology/Beatriz_Gonzalez-Flecha.html
Research field
Physiology; Biochemistry
Award year
1992
Country of origin
Argentina
Mentor name
Bruce Demple, Ph.D.

Research

Molecular oxygen is essential and toxic for aerobic organism. Oxygen toxicity is due to chemical species derived from its partial reduction (reactive oxygen species -ROS: superoxide anion, hydrogen peroxide and hydroxyl radical). These highly reactive species are normally produced in cells is association to electron-transfer processes and respiration and kept at sub-toxic levels by the action of specific antioxidant enzymes. Nonetheless, the level of oxygen free radicals in a cell can be increased by intra or extracellular stimuli, leading to oxidation of key cell components in a process termed oxidative stress. Oxidative stress has been associated with carcinogenesis, aging, atherosclerosis and Alzheimer’s disease and cell damage due to ischemia-reperfusion, xenobiotics metabolism, UV irradiation and many other environmental diseases The toxic effects of air pollution are widely documented. In recent years, however, there has been an increasing interest in the study of the health effects of particulate matter (PM), a previously unexplored constituent of urban air pollution. Exposure to increased levels of PM of respirable size is strongly and consistently associated with increased cardiopulmonary morbidity and mortality. The mechanisms of PM health effects are still poorly understood. However, studies in cellular and animal models suggest a variety of possible mechanisms including direct effects of particle components on the intracellular sources of ROS, indirect effects due to pro-inflammatory mediators released from PM-stimulated macrophages, and neural stimulation after particle deposition in the lungs. Our current research centers on the characterization of the mechanisms leading to the cardiopulmonary effects of ambient air particles with a focus on the role of ROS in the mechanisms of toxicity by PM.We have also developed an in vitro system to study specific responses affecting alveolar epithelial cells, a sensitive target for PM. Lung epithelial cells respond to particles with increases in their intracellular concentrations of ROS, increased production and release of pro-inflammatory cytokines (IL-8 and MIP-2), and for some CAPs samples, with increased apoptosis and necrosis. Our current work is focused on the study of the mechanisms regulating the fate of alveolar epithelial cells between proliferation or apoptosis after exposure to particulate (PM) or soluble (hydrogen peroxide) oxidants.

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