Cigarette smoking is a cause of lung cancer and other respiratory diseases.
Oxidants either present in cigarette smoke and/or formed in the lung of sm
okers may trigger oxidative and nitrative damage to DNA and cellular compon
ents, contributing to carcinogenesis. We have used immunodot and Western bl
ot analyses to measure nitrated (nitrotyrosine-containing) and oxidized (ca
rbonyl-containing) proteins in plasma samples collected from 52 lung cancer
patients and 43 control subjects (heavy and light smokers, nonsmokers with
or without exposure to environmental tobacco smoke). The levels of nitrate
d proteins were significantly higher in lung cancer patients than in contro
ls (P = 0.003). On the other hand, the levels of oxidized proteins were sig
nificantly higher in smokers than in nonsmokers (P < 0.001). Western-blot a
nalyses showed the presence of two to five nitrated proteins and one oxidiz
ed protein. Using immunoprecipitation and Western-blot analyses with eight
different antibodies against human plasma proteins, we identified fibrinoge
n, transferrin, plasminogen, and ceruloplasmin as nitrated proteins and fib
rinogen as the only oxidized protein present in human plasma of lung cancer
patients and smokers. Our results indicate that cigarette smoking increase
s oxidative stress and that during lung cancer development, formation of re
active nitrogen species results in nitration and oxidation of plasma protei
ns.