Aminolevulinic acid dendrimers in photodynamic treatment of cancer and atheromatous disease.

The use of endogenous protoporphyrin IX after administration of 5-aminolaevulinic acid (ALA) has led to many applications in photodynamic therapy (PDT). We have previously reported that the conjugation of ALA dendrimers enhances porphyrin synthesis. The first aim of this work was to evaluate the ability of ALA dendrimers carrying 6 and 9 ALA residues (6m-ALA and 9m-ALA) to photosensitise cancer cells. For this aim, we employed LM3 mammary carcinoma cells. In these tumour cells, at low concentrations porphyrin synthesis from dendrimers was higher compared to ALA, whereas at high concentrations, porphyrin synthesis was similar from both compounds. Topical application of ALA dendrimers on the skin overlying a subcutaneous LM3 implanted tumour showed no diffusion of the molecules either to distant skin sites or to the adjacent tumour, suggesting a promising use of the ALA macromolecules in superficial cancer models. As a second objective, we proposed the use of ALA-dendrimers in vascular PDT for the treatment of atherosclerosis. Thus, we focused our studies on ALA-dendrimer's selectivity towards macrophages in comparison with endothelial cells. For this aim we employed Raw 264.7 macrophages and HMEC-1 microvasculature cells. Porphyrin synthesis induced in macrophages by 6m-ALA and 9m-ALA (3 h, 0.025 mM) was 6 and 4.6 times higher respectively compared to the endothelial cell line, demonstrating the high affinity of ALA dendrimers for macrophages. On the other hand, ALA employed at low concentrations was slightly selective (1.7-fold) for macrophages. Inhibition studies suggested that ALA dendrimer uptake in macrophages is mainly mediated by caveloae-mediated endocytosis. Our main conclusion is that in addition to being promising molecules in PDT of superficial cancer, ALA dendrimers may also find applications in vascular PDT, since in vitro they showed selectivity to the macrophage component of the atheromatous plaque, as compared to the vascular endothelium.

The natural flavonoid silybin improves the response to Photodynamic Therapy of bladder cancer cells.

Photodynamic Therapy (PDT) is an anticancer treatment based on photosensitisation of malignant cells. The precursor of the photosensitiser Protoporphyrin IX, 5-aminolevulinic acid (ALA), has been used for PDT of bladder cancer. Silybin is a flavonoid extracted from Silybum marianum, and it has been reported to increase the efficacy of several anticancer treatments. In the present work, we evaluated the cytotoxicity of the combination of ALA-PDT and silybin in the T24 and MB49 bladder cancer cell lines. MB49 cells were more sensitive to PDT damage, which was correlated with a higher Protoporphyrin IX production from ALA. Employing lethal light doses 50% (LD50) and 75% (LD75) and additional silybin treatment, there was a further increase of toxicity driven by PDT in both cell lines. Using the Chou-Talalay model for drug combination derived from the mass-action law principle, it was possible to identify the effect of the combination as synergic when using LD75, whilst the use of LD50 led to an additive effect on MB49 cells. On the other hand, the drug combination turned out to be nearly additive on T24 cells. Apoptotic cell death is involved both in silybin and PDT cytotoxicity in the MB49 line but there is no apparent correlation with the additive or synergic effect observed on cell viability. On the other hand, we found an enhancement of the PDT-driven impairment of cell migration on both cell lines as a consequence of silybin treatment. Overall, our results suggest that the combination of silybin and ALA-PDT would increase PDT outcome, leading to additive or synergistic effects and possibly impairing the occurrence of metastases.

Photodynamic inactivation of Gram-positive bacteria employing natural resources.

The aim of this paper was to investigate a collection of plant extracts from Argentina as a source of new natural photosensitizers (PS) to be used in Photodynamic Inactivation (PDI) of bacteria. A collection of plants were screened for phototoxicity upon the Gram-positive species Staphylococcus epidermidis. Three extracts turned out to be photoactive: Solanum verbascifolium flower, Tecoma stans flower and Cissus verticillata root. Upon exposure to a light dose of 55J/cm(2), they induced 4, 2 and 3logs decrease in bacterial survival, respectively. Photochemical characterisation of S. verbascifolium extract was carried out. PDI reaction was dependent mainly on singlet oxygen and to a lesser extent, on hydroxyl radicals, through type II and I reactions. Photodegradation experiments revealed that the active principle of the extract was not particularly photolabile. It is noticeable that S. verbascifolium -PDI was more efficient under sunlight as compared to artificial light (total eradication vs. 4 logs decrease upon 120min of sunlight). The balance between oxidant and antioxidant compounds is likely to be masking or unmasking potential PS of plant extracts, but employing the crude extract, the level of photoactivity of S. verbascifolium is similar to some artificial PS upon exposure to sunlight, demonstrating that natural resources can be employed in PDI of bacteria.

Changes in actin and E-cadherin expression induced by 5-aminolevulinic acid photodynamic therapy in normal and Ras-transfected human mammary cell lines.

Photodynamic therapy (PDT) is an anticancer treatment based on light-induced destruction of photosensitised malignant cells. It has been reported that PDT strongly affects cell-cell and cell-substrate adhesion through the reorganization of some cytoskeletal and adhesion proteins. The aim of the present work was to study the changes induced by PDT employing aminolevulinic acid (ALA), on the cytoskeleton actin network and E-cadherin expression. We employed the normal mammary HB4a cell line and its tumor counterpart transfected with the oncogene H-Ras, which has been shown to be resistant to PDT. Ras insertion induces per se disorganization of both F-actin and E-cadherin distribution. ALA-PDT induces on HB4a cells a dramatic disorganization of actin stress fibers, resembling normal Ras-transfected cells. After 48h some features of disorganization remain present. In HB4a-Ras cells, F-actin exhibits signals of photodamage, but distribution is recovered 24h after treatment. On the other hand, PDT did not impact on E-cadherin distribution, other than a transient disorganization, which was recovered at 24h. Moreover, E-cadherin disorganization did not favoured cell-cell detachment after PDT of HB4a-Ras cells. Actin but not E-cadherin constitutes in this model an important target of PDT. The fact that some features of microfilament disorganization remain present in HB4a surviving cells but not in Ras-transfected cells, suggests that cytoskeletal structures such as F-actin may be involved in the mechanisms of resistance to PDT.

Cytotoxic effects of Argentinean plant extracts on tumour and normal cell lines.

In the search for possible new anti-cancer agents, we investigated the effects of 75 aqueous and methanol extracts from 41 Argentinean plant species. The effect in cell growth was evaluated in the LM2 mammary adenocarcinoma cells. In a second stage, the highly active selected extracts were assayed in 3 other tumour cell lines: melanoma B16, bladder MB49 and lung A549; and 3 normal cell lines: mammary Hb4a and keratinocytes PAM212 and HaCat. Eight methanol extracts were found to be highly cytotoxic: Collaea argentina leaf, Iochroma australe leaf, Ipomoea bonariensis flower, Jacaranda mimosifolia flower, Solanum amygdalifolium flower, Solanum chacoense leaf, Solanum sisymbriifolium flower and Solanum verbascifolium flower. However, extract inhibition on cell growth was highly dependent on cell type. In general, except for the highly resistant cell lines, the inhibitory concentrations 50% were in the range of 10-150 µg/ml The eight extracts highly inhibited cell growth in a concentration-dependent manner, and in general the methanol extracts were always more active than the aqueous. Murine cells appear to be more sensitive than human cells to the cytotoxic action of the plant extracts. The human melanoma B16 line was the most resistant to four of the extracts. In terms of selectivity, S. verbascifolium was the species which showed most selectivity for tumour cells. Overall, this is one of the first studies focusing on southern South American native plants and their biological effects. Since some species of 5 genera analyzed have been reported to possess different degrees of alkaloid content, we examined microtubule structures after extract treatments. The eight extracts induced destabilization, condensation and aggregation of microtubules in LM2 cells, although no depolarization, typical of Vinca alkaloids damage was observed. In a near future, antitumour activity of purified fractions of the extracts administered at non-toxic doses will be assayed in transplantable murine tumour models.