Photo-activation of hypericin with low doses of light promotes apparent photo-resistance in human histiocytic lymphoma U937 cells.

We have observed that exposure of U937 cells, pre-incubated for 18 h with 0.2 microM hypericin, to 599 nm laser radiation with a fluence of 2.5 J/cm(2) renders them insensitive to higher light doses. In fact, pre-sensitized cells appear to be fully resistant to light doses that normally determine massive cellular apoptosis in experimental photo-dynamic therapy. The appearance of the photo-resistance, as measured by evaluating the changes in levels of expression of pro and anti apoptotic proteins, PARP fragmentation and cell viability is exclusively observed with exposure to light doses not exceeding 5-6 J/cm(2). Above this energy, necrosis replaces apoptosis upon photo-stimulation of U937 cells. Here, we describe the appearance of photo-resistance in hypericin-loaded U937 cells, but could not fully unravel the molecular mechanism underlying this process. However, the observed stimulation of the expression of the HSP-70 protein upon photo-induced stress may suggest its involvement in this process.

Effect of space radiation on expression of apoptosis-related genes in endometrial cells: a preliminary study.

In this paper we present some preliminary results on alteration of gene expression caused by radiation on human endometrial cells. To this purpose, we have studied the modulation of the expression of the bcl-2 gene family in two cell lines following irradiations with low energy protons and gamma-rays from a 60Co. The two epithelial cell strains, namely AN3Ca and HEC1B cells, both obtained from human neoplastic endometrial tissues, grow in culture and continue to maintain some differentiated functions typical of the original tissue. Indeed, these cells, that can be considered as representative of different stages of cellular transformation of endometrium. Because their epithelial nature and rapid growth, the expression of genes related to the maintenance of the cellular homeostasis (correction of omeostasis), as the pro and anti-apoptotic ones, is expected to be susceptible to changes in environment, including radiation. The effects have been evaluated in terms of both cell survival and changes in the expression of pro- and anti apoptotic proteins. Even though the data reported above can not be considered complete and/or definitive, nevertheless, in whole, they confirm that these cells may constitute a suitable model system to study, at molecular level, the effects of cosmic radiation on endometrium. Further observation, ensuing from these preliminary data, is that endometrial cells present different sensitivity to radiation in regard to its 'quality' and 'dosage', in accord to the original stage of differentiation.

Selective light-induced modulation of bcl-XL and bax expressions in indocyanine green-loaded U937 cells: effects of continuous or intermittent photo-sensitization with low IR-light using a 805-nm diode laser.

The present study is concerned with the effects of an IR diode laser source emitting at 805 nm on a human leukaemic cell strain from a histiocytic lymphoma (U937) pre-loaded with the dye indocyanine green (ICG). The first aim of this work was the assessment of the earliest cellular defense events occurring upon ICG photosensitization. To this purpose, photosensitization was performed at low ICG concentration and low light energy density. The second aim was the comparative evaluation of the effects produced by continuous or fragmented irradiation. Independent of the irradiation method employed (continuous or fragmented), we could demonstrate that cells are forced to apoptosis, as indicated by the appearance in cell extracts of the 85-kDa proteolytic fragment of the poly(ADP-ribose)polymerase (PARP). This proteolysis, however, could be entirely prevented by a specific Caspase-3 inhibitor benzyloxycarbonyl-Asp-Glu-Val-Asp-fluoromethylketone (Z-DEVD-fmk). Indeed the only perceptible change in the expression of pro/antiapoptotic proteins produced by continuous photostimulation was a small, albeit reproducible, increase in Bax. In contrast, when the photostimulation was achieved by means of several consecutive pulses, we observed not only a remarkable increase in Bax but also a noticeable abatement in Bcl-XL expression. The potential involvement of singlet oxygen in this process has been directly demonstrated by ICG photo-mediated oxidation of dithiothreitol in water. It has also been demonstrated that this oxidation is apparently more efficient when ICG is photostimulated by light pulses.