J J Krüse1, C I Bart, A Visser, J Wondergem. 1. LUMC, Department of Clinical Oncology, Leiden, The Netherlands. KRUSE_J@RULLF2.MEDFAC.LEIDENUNIV.NL
Abstract
PURPOSE: To study alteration in gene transcription (transforming growth factor-beta 1 and procollagen types I and III) involved in radiation-induced cardiac damage. MATERIALS AND METHODS: Female Sprague-Dawley rats were irradiated with a single dose of 0, 15, 20 or 25 Gy locally on the heart. At intervals up to 16 months after irradiation, absolute amounts of mRNA were quantified using a (semi-nested) competitive PCR assay. All values were normalized to equal input cDNA with respect to their GAPDH content. RESULTS: After irradiation, left ventricular TGF-beta 1 mRNA levels increased sharply. This response was bi-phasic with peaks at days 1 and 12 (maximum 6-fold baseline), then returning to control levels by 1 month. After 20 Gy, a persistent elevation was observed from 6 months, but this elevation was less profound (approximately 1.5-fold baseline) when compared with the early response (1-12 days). Absolute mRNA levels of procollagen type I hardly changed during the first 6 months, but thereafter these levels increased progressively until the end of observation. An age-related increase in procollagen I was also observed. Procollagen type III mRNA levels were increased between days 1 and 12, returned to control values and remained low up to 6 months, then mRNA levels rose again with increasing time post-treatment. CONCLUSION: The difference in time-course between TGF-beta 1 and procollagen mRNA expression after local heart irradiation and ageing strongly suggest that the late up-regulation of both procollagen types in the left ventricle occurs without TGF-beta 1 over-expression.
PURPOSE: To study alteration in gene transcription (transforming growth factor-beta 1 and procollagen types I and III) involved in radiation-induced cardiac damage. MATERIALS AND METHODS: Female Sprague-Dawley rats were irradiated with a single dose of 0, 15, 20 or 25 Gy locally on the heart. At intervals up to 16 months after irradiation, absolute amounts of mRNA were quantified using a (semi-nested) competitive PCR assay. All values were normalized to equal input cDNA with respect to their GAPDH content. RESULTS: After irradiation, left ventricular TGF-beta 1 mRNA levels increased sharply. This response was bi-phasic with peaks at days 1 and 12 (maximum 6-fold baseline), then returning to control levels by 1 month. After 20 Gy, a persistent elevation was observed from 6 months, but this elevation was less profound (approximately 1.5-fold baseline) when compared with the early response (1-12 days). Absolute mRNA levels of procollagen type I hardly changed during the first 6 months, but thereafter these levels increased progressively until the end of observation. An age-related increase in procollagen I was also observed. Procollagen type III mRNA levels were increased between days 1 and 12, returned to control values and remained low up to 6 months, then mRNA levels rose again with increasing time post-treatment. CONCLUSION: The difference in time-course between TGF-beta 1 and procollagen mRNA expression after local heart irradiation and ageing strongly suggest that the late up-regulation of both procollagen types in the left ventricle occurs without TGF-beta 1 over-expression.
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