Photobiological and thermal effects of photoactivating UVA light doses on cell cultures.

While near-ultraviolet light has been widely used to photoactivate fluorophores and caged compounds in cells, little is known of the long-term biological effects of this light. UVA (315-400 nm) photoactivating light has been well characterized in short-term cell studies and is now being employed in higher doses to control longer-duration phenomena (e.g. gene expression). Annexin V-Cy5/propidium iodide apoptosis flow cytometry assays were used to determine responses of HeLa cells to doses of UVA light up to 23.85 J cm(-2). Cells seeded at low densities had higher percentages of apoptosis and necrosis and were also more susceptible to UVA damage than cells seeded at higher densities. The dose to induce apoptosis and death in 50% of the cells (dose(1/2)) was determined for two different commercially available UVA light sources: 7.6 J cm(-2) for the GreenSpot photocuring system and 2.52 J cm(-2) for the BlakRay lamp. All BlakRay doses tested had significant cellular responses, whereas no significant cellular responses were found for doses below 1.6 J cm(-2) from the GreenSpot light source. A temperature control and measurement system was used to determine direct heating from the UVA sources and also the effect that cooling cell cultures during photoexposure has on minimizing cell damage. Cooling during the BlakRay photoexposure significantly reduced the percentage of necrotic cells, but there was no significant difference for cooling during photoactivation with the GreenSpot. Differences in cell responses to similar UVA doses of different intensities suggest that photoduration should be considered along with total dose and thermal conditions in photoactivation studies.     

Molecular aspects of photodynamic therapy: low energy pre-sensitization of hypericin-loaded human endometrial carcinoma cells enhances photo-tolerance, alters gene expression and affects the cell cycle

Photosensitization of HEC1-B cells with a low concentration of hypericin and doses of light below 10 J/cm(2) caused cell death (apoptosis occurred mainly at doses between 2 and 5 J/cm(2), whereas necrosis prevailed above 6 J/cm(2)). However, pre-exposure of cells to innocuous irradiation (2 J/cm(2)) and successive challenge with a light dose that normally induced apoptosis (5 J/cm(2)) altered the expression of the proteins involved in the regulation of apoptosis, stress response and cell cycle. This change resulted in a significant increase in cell photo-tolerance.     

Studies on curcumin and curcuminoids. XXIX. Photoinduced cytotoxicity of curcumin in selected aqueous preparations.

Natural curcumin was evaluated as a potential photosensitizer for oral applications. The photocytotoxicity of curcumin on salivary gland acinar cells (SM 10-12) was investigated in five aqueous preparations consisting of 5% DMSO, non-ionic micelles, cyclodextrin, liposomes, or a hydrophilic polymer. The difference in phototoxic effects between natural curcumin and synthetic curcumin was examined. Cytotoxicity in SM 10-12 cells exposed to curcumin in the concentration range 0.4-13.5 microM was investigated by MTT test, a fluorescence-staining microscopic test, and by Western immunoblotting techniques. The potential formation of a photoreaction product, hydrogen peroxide, was evaluated by a fluorescence assay. The light source was a halogen lamp used in the dental clinic, emitting mainly in the blue part of the spectrum. The phototoxic effect on SM 10-12 cells was dependent on curcumin concentration, the light dose and the type of preparation. Natural and synthetic curcumin induced phototoxicity to the same extent. Significant effects on the cells were obtained at low curcumin concentrations (< or =0.5 microM) and at a low light dose (< or =6 J cm(-2)), after 3 h incubation. Neither the activation of caspases-3, -7, -8 or -9, nor the formation of hydrogen peroxide could be detected in cells exposed to curcumin and light. The liposome preparation was the most efficient vehicle for curcumin to induce cell death. The phototoxic effect induced by curcumin is highly dependent on the type of preparation. Curcumin might be a potential photosensitizer in the treatment of oral lesions and cancers provided careful selection of the vehicle.     

Core-modified porphyrins. Part 5: Electronic effects on photophysical and biological properties in vitro

21,23-Dithiaporphyrins 2-11 were prepared as analogues of 5,20-diphenyl-10,15-bis(4-carboxylatomethoxy)phenyl-21,23-dithiaporphyrin 1 to examine the impact of electronic properties at the 5- and 20-meso-positions. The effects of the electronic properties at the meso-rings were not significant with respect to absorption spectra, quantum yields for the generation of singlet oxygen and for fluorescence. While some differences were noted in the n-octanol/pH 7.4 buffer partition coefficient, log D(7.4), among the compounds, log D(7.4) did not critically influence the cellular uptake or phototoxicity. None of the dithiaporphyrins 1-11 displayed dark toxicity at concentrations up to 1 x 10(-5) M. Once irradiated with 5 J cm(-2) of 350-750 nm light, five porphyrins 2, 3, 5, 6, and 8 killed over 80% of R3230AC rat mammary adenocarcinoma cells at 5 x 10(-7) M photosensitizer. Among these five, compound 3 bearing 5-phenyl and 20-(4-fluorophenyl) substituents was the most potent photosensitizer toward R3230AC cells showing 67% cell kill at 1 x 10(-7) M 3. Bulky substituents at the 5- and 20-positions gave photosensitizers with minimal phototoxicity.     

Photodynamic effect of protoporphyrin diarginate (PPArg2) on methicillin-resistant Staphylococcus aureus and human dermal fibroblasts

The worldwide rise in the antibiotic resistance of bacteria forces the development of alternative antimicrobial treatments. A potential approach is photodynamic inactivation (PDI). The aim of the present study was to determine the phototoxicity of protoporphyrin diarginate (PPArg(2)) against methicillin-resistant Staphylococcus aureus and human dermal fibroblasts. Different concentrations (0 to 20 microM) of PPArg(2) and light dose of 6 J cm(-2) were tested. Cell viability was evaluated using the methylthiazoletetrazolium (MTT) assay. Incubation with 10 microM followed by illumination yielded a 3.6 log(10)-unit reduction in the viable count for Staphylococcus aureus. At the same experimental conditions, only 22.5% of the fibroblasts were photoinactivated. Protoporphyrin diarginate at concentrations up to 20 microM demonstrated no toxicity towards S. aureus or fibroblasts when not irradiated. These results suggest that the protoporphyrin diarginate exerts a high bactericidal effect against methicillin-resistant S. aureus strain without harming eukaryotic cells.     

In vitro evaluation of the cytotoxic and mutagenic potential of the 5-aminolevulinic acid hexylester-mediated photodynamic therapy

Photodynamic therapy (PDT) of tumors with 5-aminolevulinic acid hexylester (h-ALA) causes photo-oxidative reactions in treated tissues. In order to study cytotoxic and/or mutagenic effects, cells of the tumor cell line RPMI 2650 as well as fibroblasts of the cell line WS 1 were given photodynamic treatment in vitro. The cells were photosensitized with a 1mM h-ALA-medium solution for 5h and illuminated with different light doses (0.5, 1.0, 1.5 and 2.0 J/cm2) using red light (633+/-20 nm). PDT-induced cytotoxic effects were determined by measurement of the mitotic index (MI) and the nuclear division index (NDI). Chromosome aberrations (CA) and micronuclei (MN) were recorded to study mutagenicity. After treatment of the photosensitized RPMI 2650 cells with a light dose of 2.0 J/cm2, the MI was significantly decreased to 16.9 per thousand in comparison with that of the h-ALA control (33.8 per thousand ). In photosensitized WS 1 cells, light doses up to 2.0 J/cm2 showed no significant effect. The NDI of photosensitized RPMI 2650 cells was significantly decreased by light doses from 1.0 to 2.0 J/cm2, whereas no significant effect was seen in WS 1 cultures. Thus, h-ALA-PDT only induced desirable cytotoxic effects in tumor cells, but not in the fibroblasts. After application of light doses from 0.5 to 2.0 J/cm2, photosensitized RPMI 2650 cultures showed CA in 7.0-7.5% of the metaphases, which was not a significant increase (h-ALA control: 5.5%). In WS 1 cultures metaphases containing CA varied non-significantly from 5.0 to 7.5%. The MN rates were approximately the same in illuminated RPMI 2650 cultures and in the corresponding h-ALA control (4.4-4.9 per thousand ). The MN rates of the illuminated WS 1 cultures also varied non-significantly from 4.5 to 5.0 per thousand in comparison with the h-ALA control (5.5 per thousand ). In the mutagenicity tests the h-ALA-PDT had no significant effect, neither on the tumor cells nor on the fibroblasts. In addition to the cytogenetic analysis, spectral karyotyping (SKY) was used to characterize the cell lines and gain more detailed information on possibly PDT-induced CA. The SKY evaluation also showed no significant increase of the CA rate, but confirmed the result of the CA test. Thus, within the scope of the experiments performed, a mutagenic potential of the h-ALA-PDT can be excluded.     

Mitochondria are a primary target of hypericin phototoxicity: synergy of intracellular calcium mobilisation in cell killing

Hypericin, a naturally occurring anthraquinone synthesised by hypericum, upon light activation exhibits photodynamic cytotoxicity attributed mainly to the production of reactive oxygen species. This study aimed to elucidate the primary subcellular targets and mechanistic aspects of hypericin photosensitization in human prostate carcinoma cells. Depletion of intracellular glutathione (>85%) via inhibition of gamma-glutamyl-cysteine synthase had no effect on hypericin (5 microM) phototoxicity, thus precluding any direct oxidative involvement of H2O2. There was no change in intracellular SOD activity immediately after hypericin irradiation (1.5-5 J cm(-2)). Evaluation of the lysosomal enzyme hexosaminidase activity showed: (a) 60% cell loss 22 h following irradiation (1.5 J cm(-2)) and (b) a steady rate of lysosomal leakage to the cytosol (25%), at the same time and irradiation. However, lysosomal damage appears to be a slower process compared to the rapid loss of mitochondrial function, as reflected from parallel tetrazolium to formazan assays. The activity of cytosolic and mitochondrial aconitase, an enzyme exquisitely sensitive to oxidation, revealed a dose correlated loss of activity in the mitochondria immediately following hypericin photoactivation. The use of ionomycin, which modulates both internal Ca2+ stores and external Ca2+ transport during hypericin photosensitization, profoundly enhanced photocytotoxicity. Our data supports a direct mitochondrial hypericin phototoxicity that does not involve glutathione/H2O2 homeostasis. Further a potential synergistic treatment combining mitochondrial targeting of photosensitisers and Ca2+ mobilisation was identified.     

He—Ne激光照射离体鼠巨噬细胞对线粒体跨膜电势的影响

目的：研究Ｈｅ－Ｎｅ激光照射鼠巨噬细胞对线粒体跨膜电势的影响,及其与激光剂量的关系。方法：用亲脂性阳离子荧光染料Ｒｈｏｄａｍｉｎｅ１２３对鼠巨噬细胞线粒体作荧光标记,以不同的激光剂量照射,采用图像分析系统（ＩＡＳ）和荧光显微镜观察线粒体跨膜电势荧光强度的变化。结果：低功率Ｈｅ－Ｎｅ激光照射５,１０,１５ｍｉｎ,激光剂量分别为０．６４９,１．３８８和２．０８２Ｊ／ｃｍ＾２,巨噬细胞线粒体跨膜电势荧光     

Compensatory mechanisms and the type of injury determine the fate of cells with impaired macroautophagy

The relationship between the degradative process of autophagy and cellular death pathways remains unclear. Macroautophagy may potentially function to prevent or promote cell death, and both effects have been reported in studies of cells with a block in macroautophagy. To better delineate the function of macroautophagy in cell death, we contrasted the responses to death stimuli in wild-type and atg5^-/- murine embryonic fibroblasts. We have reported that a knockout of the critical macroautophagy gene ATG5 sensitizes cells to death receptor ligand-induced death from Fas and tumor necrosis factor-α. Death occurs by caspase-dependent apoptosis resulting from activation of the mitochondrial death pathway. In contrast, atg5^-/- cells are more resistant to death induced by oxidative stress from menadione or UV light. This resistance was associated with an up-regulation of chaperone-mediated autophagy. Inhibition of this form of autophagy sensitizes cells to death from menadione, suggesting that the compensatory up-regulation of chaperone-mediated autophagy, and not the loss of macroautophagy, prevents death from menadione. These findings demonstrate that the effects of a loss of macroautophagy on the cellular death response differ depending on the mechanism of cellular injury and the compensatory changes in other forms of autophagy.

Addendum to: Wang Y, Singh R, Massey AC, Kane SS, Kaushik S, Grant T, Xiang Y, Cuervo AM, Czaja MJ. Loss of macroautophagy promotes or prevents fibroblast apoptosis depending on the death stimulus. J Biol Chem 2008; 283:4766-77.     

Bystander effect of normal fibroblasts for macrophages co-cultured with susceptible transformed target cells

Macrophages attack and kill pathologically changed, transformed and tumor cells. However, in some cases they may also support tumor growth, modulate the action of anticancer drugs, and even facilitate the development of drug resistance in tumor cells. Here we present data that bystander fibroblasts NIH3T3 were not only resistant to murine macrophages J774.2 but also blocked their killing action towards murine transformed fibroblasts L929. Macrophages were isolated from mixed cultures by means of CD11b specific immunomagnetic beads, and changes induced by their former co-culturing were studied using DNA microarray technology and other tests. An expression of candidate genes coding for cytokines and for signal transduction pathway proteins was estimated in macrophages in different variants of their co-culture with target cells. Changes in expression of mRNA for interleukin 1beta, NFkappaB, IkappaBalpha, gadd45, and CD5 were detected as the most prominent in the macrophages co-cultured with the transformed cells. Bystander NIH3T3 fibroblasts abolished these changes in the macrophages J774.2, and the level of expression of the above mentioned genes was close to the level seen in the macrophages which did not exert cytotoxicity towards the target fibroblasts. Potential implications and research perspectives of using the macrophage-target cell co-cultures with different bystander cellular partners are discussed.     

Epstein-Barr病毒特异性T细胞对重组痘苗病毒表达LMP和EBNA2的靶细胞的识别

本文用EB病毒转化自体淋巴细胞所建立的类淋巴母细胞系(LCL),以及用EB病毒潜伏感染膜蛋白(LMP)基因和核蛋白-2(EBNA2)基因与痘苗病毒重组的重组病毒(Vac-LMP和Vac-EBNA2)感染的自身纤维母细胞,同时作为刺激细胞和靶细胞,以~(51)Cr释放法检测5例血清中EB病毒VCA—IgA抗体阳性者及1例阴性健康者外周血单个核细胞(PBMC)的特异性T细胞杀伤效应。结果表明,用自身LCL激活的EB病毒特异性T细胞杀伤效应高峰出现在第14～28天;参与杀伤性细胞免疫反应的T细胞亚群主要是T3、T8阳性的细胞毒性T细胞,其对靶细胞的识别及杀伤受HLA-I的限制。用重组牛痘病毒感染的纤维母细胞作靶细胞或刺激细胞,有1例供者可接受LMP,另1例可接受EBNA2的刺激,并对相应的靶细胞产生特异性T细胞杀伤反应,表明EB病毒-LMP和EBNA2可能既是EB病毒特异性T细胞的刺激抗原,又是其识别的靶抗原。     

Core-modified porphyrins. Part 4: Steric effects on photophysical and biological properties in vitro

21,23-Dithiaporphyrins (2-10) were designed and prepared as analogues of 5,20-diphenyl-10,15-bis(4-carboxylatomethoxy)phenyl-21,23-dithiaporphyrin (1) to examine the impact of steric bulk at the 5- and 20-meso positions as well as the impact of symmetry. Changes at the meso positions had minimal impact on the UV-vis-near-IR absorption spectra, quantum yields for the generation of singlet oxygen, and quantum yields for fluorescence and some impact on values of the octanol/water partition coefficient. Of the compounds 1-10, 5-phenyl-20-(2-thienyl)-10,15-bis-(4-carboxylatomethoxy-phenyl)-21,23-dithiaporphyrin (3) showed the greatest phototoxicity toward cultured R3230AC cells, with 68% cell kill at 1 x 10(-7)M and irradiation with 5J cm(-2) of 350-750 nm light. Results in this study suggest that smaller substituents on the meso ring and less symmetrical compounds are more effective as photosensitizers than compounds with two bulky substituents at adjoining meso sites and a higher symmetry. The mitochondria appear to be involved in the process of phototoxicity as determined by the inhibition of whole cell cytochrome c oxidase activity in cells treated with 3 and light. No impact upon mitochondrial cytochrome c oxidase activity was observed in cells treated with 3 and no light. Fluorescence microscopy studies suggest that the mitochondria are not initial sites of accumulation of 3.     

Synthesis of pyrrolo[3,2-h]quinolinones with good photochemotherapeutic activity and no DNA damage

In the search for new photochemotherapeutic agents, a series of derivatives of the ring system pyrrolo[3,2-h]quinoline—bioisosters of the angular furocoumarin angelicin—were synthesized through a four-step synthetic approach, in reasonable overall yields. Eight of the synthesized derivatives showed a remarkable phototoxicity against a panel of four human tumor cell lines and a great dose UV-A dependence, reaching IC₅₀ values at submicromolar level. The mode of cellular death photoinduced by pyrrolo[3,2-h]quinolines was evaluated through a series of flow cytometric analysis and other tests were performed to clarify their mechanism of action.     

Photodynamic activity of a new sensitizer derived from porphyrin-C60 dyad and its biological consequences in a human carcinoma cell line

The photokilling activity of a porphyrin-C₆₀ (P-C₆₀) dyad was evaluated on a Hep-2 human larynx-carcinoma cell line. This study represents the first evaluation of a dyad, with high capacity to form a photoinduced charge-separated state, to act as agent to inactivate cells by photodynamic therapy (PDT). Cell treatment was carried out with 1 μM P-C₆₀ incorporated into liposomal vesicles. No dark cytotoxicity was observed using 1 μM P-C₆₀ concentration and during long incubation time (24 h). The uptake of sensitizer into Hep-2 was studied at different times of incubation. Under these conditions, a value of 1.5 nmol/10⁶ cells was found after 4 h of incubation showing practically no change even after 24 h. The cell survival after irradiation of the cells with visible light was dependent upon light exposure level. A high photocytotoxic effect was observed for P-C₆₀, which inactivated 80% of the cells after 54 J/cm² of irradiation. Moreover, the dyad kept a high photoactivity even under argon atmosphere. Thus, depending on the microenviroment where the sensitizer is localized, this compound could produce a biological photodamage through either a ¹O₂-mediated photoreaction process or a free radical mechanism under low oxygen concentration.

The mechanism of cell death was analyzed by Hoechst-33258, toluidine blue staining, TUNEL and DNA fragmentation. Cell cultures treated for 24 h with P-C₆₀ and irradiated with a dose of 54 J/cm² showed a great amount of apoptotic cells (58%). Moreover, changes in cell morphology were analyzed using fluorescence microscopy with Hoechst-33258 under low oxygen concentration. Under this anaerobic condition, necrotic cellular death predominated on apoptotic pathway. There were more apoptotic cells under air irradiation condition than under argon irradiation condition. To determine the apoptotic pathway, caspase-3 activation was studied by caspase-3 activity detection kits. The last results showed that P-C₆₀ induced apoptosis by caspase-3-dependent pathway. These results indicated that molecular dyad, which can form a photoinduced charge-separated state, is a promising model for phototherapeutic agents and they have potential application in cell inactivation by PDT.     

Induction of apoptosis by chemotherapeutic drugs: the role of FADD in activation of caspase-8 and synergy with death receptor ligands in ovarian carcinoma cells

Although ovarian tumours initially respond to chemotherapy, they gradually acquire drug resistance. The aims of this study were to identify how chemotherapeutic drugs with diverse cellular targets activate apoptotic pathways and to investigate the mechanism by which exposure to a combination of drugs plus death receptor ligands can increase tumour cell kill. The results show that drugs with distinct cellular targets differentially up-regulate TRAIL and TNF as well CD95L, but do not require interaction of these ligands with their receptor partners to induce cell death. Factors that were critical in drug-induced apoptosis were activation of caspases, with caspase-8 being activated by diverse drugs in a FADD-independent manner. Certain drugs also demonstrated some dependence on FADD in the induction of cell death. Caspase-9 was activated more selectively by chemotherapeutic agents. Combining ligation of death receptors with exposure to drugs increased tumour cell kill in both drug resistant cell lines and primary ovarian carcinoma cells, even though these cells were not sensitive to death receptor ligation alone. CD95L was more consistent at combining with drugs than TRAIL or TNF. Investigation of the mechanism by which a combination of drugs plus CD95 ligation can increase cell death showed that caspase-8 was activated in cells exposed to a combination of cisplatin and anti-CD95, but not in cells exposed to either agent alone.     

Use of ribozymes and antisense oligodeoxynucleotides to investigate mechanisms of drug resistance

Chemotherapy can cure a number of human cancers but resistance (either intrinsic or acquired) remains a significant problem in many patients and in many types of solid tumour. Combination chemotherapy (using drugs with different cellular targets/mechanisms) was introduced in order to kill cells which had developed resistance to a specific drug, and to allow delivery of a greater total dose of anti-cancer chemicals by combining drugs with different side-effects (Pratt et al., 1994). Nearly all anti-cancer drugs kill tumour cells by activating an endogenous bio-chemical pathway for cell suicide, known as programmed cell death or apoptosis. This revised version was published online in August 2006 with corrections to the Cover Date.     

Mechanisms of photochemotherapy-induced apoptotic cell death in lymphoid cells.

Previous studies we performed showed that 8-methoxypsoralen in combination with ultraviolet A light (photochemotherapy) caused DNA damage and that this caused nucleotide depletion in peripheral blood leukocytes, secondary to an active form of programmed cell death, poly(ADP-ribosyl)ation. Further studies revealed that 24 h after exposure to 10 J/cm2 ultraviolet A light and 8-methoxypsoralen (300 ng/mL), apoptotic cells increased from 3 (control) to 31% (p less than 0.001). Ultraviolet A light alone also significantly increased the number of apoptotic cells. These morphological changes were confirmed by parallel findings on DNA electrophoresis. Treatment with 2 to 5 J/cm2 of ultraviolet A light and 8-methoxypsoralen caused an approximately 30% increase in cytosolic free calcium levels in peripheral blood leukocytes 1 h after exposure. Associated with this was a 51% increase in 45Ca2+ uptake over the first 60 min. Similar findings in a different lymphoid cell (CCRF-CEM) confirmed the results obtained with peripheral blood leukocytes. The use of calcium-free medium prevented a rise in cytosolic free calcium and decreased the number of cells undergoing apoptotic cell death. Cycloheximide inhibited ultraviolet A light - 8-methoxypsoralen induced apoptosis in CCRF-CEM cells; it also decreased calcium levels in control CCRF-CEM cells. This study shows that ultraviolet A light - 8-methoxypsoralen caused apoptotic cell death in lymphoid cells; this appeared to be associated with calcium influx, presumably because of the requirement of endogenous endonucleases for calcium.     

Compensatory mechanisms and the type of injury determine the fate of cells with impaired macroautophagy

The relationship between the degradative process of autophagy and cellular death pathways remains unclear. Macroautophagy may potentially function to prevent or promote cell death, and both effects have been reported in studies of cells with a block in macroautophagy. To better delineate the function of macroautophagy in cell death, we contrasted the responses to death stimuli in wild-type and atg5(-/-) murine embryonic fibroblasts. We have reported that a knockout of the critical macroautophagy gene ATG5 sensitizes cells to death receptor ligand-induced death from Fas and tumor necrosis factor-alpha. Death occurs by caspase-dependent apoptosis resulting from activation of the mitochondrial death pathway. In contrast, atg5(-/-) cells are more resistant to death induced by oxidative stress from menadione or UV light. This resistance was associated with an upregulation of chaperone-mediated autophagy. Inhibition of this form of autophagy sensitizes cells to death from menadione, suggesting that the compensatory upregulation of chaperone-mediated autophagy, and not the loss of macroautophagy, prevents death from menadione. These findings demonstrate that the effects of a loss of macroautophagy on the cellular death response differ depending on the mechanism of cellular injury and the compensatory changes in other forms of autophagy.     

Photosensitivity of DNA replication and respiration to haematoporphyrin derivative (photofrin II) in mammalian CV-1 cells

DNA synthesis, as well as respiration, has been studied in CV-1 cells incubated with 5 or 25 micrograms/cm3 haematoporphyrin derivative Photofrin II (PF II) for 1, 24 or 48 h and then irradiated with various doses of UVA light (365 nm). The impairments of DNA synthesis increased with the duration of incubation with the porphyrin, its concentration and the dose of irradiation. The cellular consumption of oxygen is also inhibited by the treatment, but less severely. In the case of the higher PF II concentration (25 micrograms/cm3), the impairment of DNA synthesis after illumination seems to be mainly due to 3HTdR transport inhibition. This effect can be related to plasma membrane damage as shown by lactate dehydrogenase leakage. At 5 micrograms/cm3 PF II, DNA synthesis inhibition is observed even after short exposure to PF II and light without 3HTdR transport impairment. In that case, DNA and/or mitochondrial photodamage may explain the inhibition.