Abstract
Previously, we demonstrated that the interaction between leucocytes and endothelial cells in tumour tissues is greatly diminished compared with normal tissues under several induced inflammatory conditions. Radiation has been reported to cause release of inflammatory mediators and to promote neutrophil adhesions to cultured endothelial monolayers. In this study, we tested the hypothesis that radiation would cause increased leucocyte rolling and adhesion in both tumour and normal tissues. We examined these two parameters in response to 6 Gy of gamma-radiation in mammary adenocarcinomas implanted into rat skinfold window chambers as well as normal (i.e. non-tumour-bearing) preparations. Leucocyte rolling and adhesion were measured in terms of flux of rolling leucocytes (F(rolling)) and density of adhering leucocytes (D(adhering)) in microvessels. F(rolling) and D(adhering) were measured in two groups of preparations: irradiated and control. In normal preparations, F(rolling) and D(adhering) were both increased significantly by radiation. In contrast, in adenocarcinoma-bearing preparations, F(rolling) and D(adhering) were either unchanged (in the tumour centre) or reduced (in tumour periphery and the normal tissue surrounding the tumour) by radiation. Radiation did not cause changes in haemodynamics in these preparations, thus the observed changes in leucocyte rolling and adhesion could not be accounted for by haemodynamic factors. These results indicate that: (1) in normal preparations, radiation could cause inflammation as manifested by increased leucocyte rolling and adhesion; and (2) in tumour-bearing preparations, radiation caused changes in the vascular surface properties such that they became less adhesive to leucocytes. Such differences in radiation response may have important implications for radiation therapy and provide new insights into the unique features of tumours.
Highlights
The two purposes of the present study were, first, to verify, in an in vivo model, that radiation exposure would increase leucocyte rolling and adhesion and, second, to characterise the effect of irradiation on leucocyte rolling and adhesion in tumour blood vessels
There was no apparent difference in the morphological appearance of microvessels between the normal preparations and the normal tissues in the tumourbearing preparations
These examples show that radiation increased leucocyte adhesion in vessels of the normal preparation, but decreased it in tumour vessels
Summary
The two purposes of the present study were, first, to verify, in an in vivo model, that radiation exposure would increase leucocyte rolling and adhesion and, second, to characterise the effect of irradiation on leucocyte rolling and adhesion in tumour blood vessels. Based on the results of previous studies, we hypothesised that leucocyte rolling and adhesion would be increased by irradiation in both tumour and normal blood vessels. We tested this hypothesis by measuring leucocyte rolling and adhesion in normal and tumour microvessels in a rat skinfold window chamber at 1-2 h after a 6 Gy dose of X-rays
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