BACKGROUND: The aim of the present study was to investigate whether oxidized LDL (ox-LDL) in the arterial intima could be derived from LDL already oxidized in plasma. METHODS AND RESULTS: Rabbits received an intravenous injection of 125I-labeled normal LDL (N-LDL) mixed with 131I-labeled LDL that had been mildly oxidized through exposure to Cu2+. The aortic accumulation of undegraded labeled LDL was expressed as plasma equivalents and cakulated as radioactivity in the intima/inner media (cpm/cm2) divided by the time-averaged concentration of radioactivity in plasma (cpm/nL): for the thoracic aorta, the accumulation of undegraded ox-LDL in the intima/ inner media exceeded that of undegraded N-LDL by 286% (n = 6, P < .04), 863% (n = 7, P < .02), and 364% (n = 8, P < .01) after 1, 3, and 24 hours of exposure, respectively. There was a strong positive association between the extent of oxidation and the excess accumulation of undegraded ox-LDL compared with N-LDL (thoracic aorta; 3 hours of exposure: r = .97, n = 14, P < .00001). To measure degradation of N-LDL and ox-LDL, 125I-LDL labeled with 131I-tyramine cellobiose was injected intravenously 24 hours before the aortic intima/inner media was removed: for the thoracic aorta, the accumulation of degradation products from ox-LDL (n = 6) exceeded that from N-LDL (n = 6) by 301% (P < .04). CONCLUSIONS: The present data suggest a novel mechanism: mildly oxidized LDL may circulate in plasma for a period sufficiently long to enter, accumulate, and be degraded in the arterial intima in preference to N-LDL.
BACKGROUND: The aim of the present study was to investigate whether oxidized LDL (ox-LDL) in the arterial intima could be derived from LDL already oxidized in plasma. METHODS AND RESULTS:Rabbits received an intravenous injection of 125I-labeled normal LDL (N-LDL) mixed with 131I-labeled LDL that had been mildly oxidized through exposure to Cu2+. The aortic accumulation of undegraded labeled LDL was expressed as plasma equivalents and cakulated as radioactivity in the intima/inner media (cpm/cm2) divided by the time-averaged concentration of radioactivity in plasma (cpm/nL): for the thoracic aorta, the accumulation of undegraded ox-LDL in the intima/ inner media exceeded that of undegraded N-LDL by 286% (n = 6, P < .04), 863% (n = 7, P < .02), and 364% (n = 8, P < .01) after 1, 3, and 24 hours of exposure, respectively. There was a strong positive association between the extent of oxidation and the excess accumulation of undegraded ox-LDL compared with N-LDL (thoracic aorta; 3 hours of exposure: r = .97, n = 14, P < .00001). To measure degradation of N-LDL and ox-LDL, 125I-LDL labeled with 131I-tyramine cellobiose was injected intravenously 24 hours before the aortic intima/inner media was removed: for the thoracic aorta, the accumulation of degradation products from ox-LDL (n = 6) exceeded that from N-LDL (n = 6) by 301% (P < .04). CONCLUSIONS: The present data suggest a novel mechanism: mildly oxidized LDL may circulate in plasma for a period sufficiently long to enter, accumulate, and be degraded in the arterial intima in preference to N-LDL.
Authors: H Kälvegren; J Fridfeldt; P Garvin; L Wind; P Leanderson; M Kristenson; E Kihlström; T Bengtsson; A Richter Journal: Eur J Clin Microbiol Infect Dis Date: 2008-03-19 Impact factor: 3.267
Authors: Tatyana A Korolenko; Thomas P Johnston; Fedor V Tuzikov; Natalia A Tuzikova; Alexandr B Pupyshev; Victor K Spiridonov; Natalya V Goncharova; Igor V Maiborodin; Natalia A Zhukova Journal: Lipids Health Dis Date: 2016-01-22 Impact factor: 3.876