K. Madhavi Sekharam scite author profile

Nitrogen dioxide (NO2), an environmental oxidant, is known to activate phospholipase A1 and modulate the plasma membrane structure of porcine pulmonary artery endothelial cells. We evaluated the effects of exposure to NO2, purified phospholipase B (which acts as phospholipase A1 and A2), or phospholipase A2 on 125I-angiotensin II (Ang II) receptor binding, internalization, or both in pulmonary endothelial cells. Exposure to 5 ppm NO2 for 48 hr at 37 degrees C or 0.075 U each of phospholipase B or A2 in phosphate-buffered saline (PBS) for 30 min at 24 degrees C resulted in an increase in total Ang II binding (i.e., cell surface bound and internalized) by 45% (p less than 0.05), 50% (p less than 0.05), and 85% (p less than 0.001), respectively, compared to controls. An Ang II receptor antagonist, [Sar1 Ile8] Ang II, competitively displaced Ang II binding to control, NO2-, phospholipase B-, and phospholipase A2-exposed cells. Dissociation of bound Ang II in the presence of PBS was less than 1% of total bound Ang II in control, NO2-, and phospholipase B-exposed cells and was 50% of total bound Ang II in phospholipase A2-exposed cells. In the presence of isotonic acetic acid/NaCl, in excess of 90% of cell surface-bound Ang II was dissociated from control, NO2-, and phospholipase B-exposed cells, and there was less than 2% of Ang II detectable when acid-treated cells were subjected to NaOH solubilization. In cells exposed to phospholipase A2, acetic acid treatment did not release cell-bound Ang II, and the remaining Ang II was recovered in the NaOH solubilized fraction.(ABSTRACT TRUNCATED AT 250 WORDS)

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Structural studies of a glucan isolated from blue-green alga Spirulina platensis

Sekharam

Venkataraman

Salimath

1989

Food Chemistry

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Oxidant and angiotensin II‐induced subcellular translocation of protein kinase C in pulmonary artery endothelial cells

Patel

Sekharam

Block

1992

J. Biochem. Toxicol.

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We recently reported that nitrogen dioxide (NO2), an environmental oxidant, alters the dynamics of the plasma membrane lipid bilayer structure, resulting in increased phosphatidylserine content and angiotensin II (Ang II) receptor binding. Angiotensin II is known to elicit receptor-mediated stimulation of diacylglycerol (DAG) production in pulmonary artery endothelial cells. Because protein kinase C (PKC) is a phosphatidylserine-dependent enzyme and is activated by DAG, we examined whether NO2 resulted in activation and/or translocation of PKC from predominantly cytosolic to membrane fractions of these cells. We also evaluated whether NO2 exposure resulted in increased production of DAG in pulmonary artery endothelial cells. Exposure to 5 ppm NO2 for 1-24 hr resulted in significant increases in PKC activity in the cytosolic and membrane fractions (p less than 0.05 for both fractions) compared to activities in control fractions. Exposure to Ang II resulted in translocation of PKC activity from cytosol to membrane fractions of both control and NO2-exposed cells. This translocation of PKC from cytosolic to membrane fraction was prevented by the specific receptor antagonist [Sar1 Ile8] Ang II. Exposure of 5 ppm NO2 for 1-24 hr provoked rapid increases in [3H]glycerol labeling of DAG in pulmonary artery endothelial cells. These results demonstrate that exposure to NO2 increases the production of second messenger DAG and activates PKC in both the cytosolic and membrane fractions, whereas Ang II stimulates the redistribution of PKC from cytosolic to membrane fractions of pulmonary artery endothelial cells.

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