Abstract— The biological effects of single and 4‐time irradiation of primary human embryo fibroblasts with 4 J/cm2 polarized light emitted by a halogen light source were investigated. The functional state of the plasma membrane was examined by means of lectin‐binding and polycationized ferritin‐binding techniques. It was established that the Con A binding of the cells did not change, whereas the number of negatively charged binding sites increased to a significant degree in relation to the untreated (control) samples and cell cultures exposed to diffuse (non‐polarized) light. The micromorphological examinations showed no ultrastructural deviations. The quantitative increase of negative surface charges may be regarded as an indication of the biological effect of polarized light exerted on the cell membrane. The modifying effect of polarized light on the survival of E. coli exposed to the ionizing radiation was manifested in decreased anoxic radiation response.
SummaryThe biological effect of visible light of low energy density was investigated in this study. The effects of diffuse (DL) and linearly polarized (LPL) light were compared on models in vitro and in vivo.Experiments in vitro were performed on human lymphocytes to study their blast-transformation and rosette-formation abilities. Both DL and LPL increased the number of blast-transformed cells even in a lymphocyte culture without PHA, and reduced rosette-formation of T lymphocytes. LPL had a more pronounced effect.In vivo exposure to DL and LPL of the spleens of tumour-bearing mice caused the appearance of factor(s) in their serum, inhibiting the incorporation in vitro of [^H]-thymidine into the tumour cells obtained from non-exposed animals. In the other series of experiments serum samples were taken from tumorous animals after the exposure of their spleens to LPL. Following the daily administration of these sera to another group of non-exposed tumorous mice a decreasing tendency of the mitotic kinetics of ascites tumour was observed.The application of visible (preferably linearly polarized) light for the stimulation of human immune competent cells, and clinical trials with extracorporeal irradiation of blood for the promotion of natural defences of an immune-repressed organism are suggested.
The effects of linearly polarized light (LPL) and diffuse light (DL) on the in vitro interleukin-6 (IL-6) production in a human B lymphoma cell line (BMNH) and peripheral monocytes of healthy volunteers were compared. Our data show that there was a significant increase of IL-6 and IgM production in BMNH after exposure to LPL. The increase in IgM secretion was a consequence of its autocrine regulation by IL-6, since in the presence of anti-IL-6 and anti-IL-6 receptor antibodies the LPL-induced IgM secretion was abolished. In contrast to the stimulatory effect on B cells, exposure of human mononuclear phagocytes to LPL markedly reduced the production of IL-6 induced by subsequent stimulation of cells with bacterial endotoxin (LPS). The inhibition as most pronounced when suboptimal doses of LPS were applied. Under identical experimental conditions, DL had no effect on the IL-6 and IgM production of either B cells or monocytes.
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