Pablo Vallecorsa scite author profile

Purpose: Clinical and epidemiologic data suggest that obesity is associated with more aggressive forms of prostate cancer, poor prognosis, and increased mortality. C-terminal-binding protein 1 (CtBP1) is a transcription repressor of tumor suppressor genes and is activated by NADH binding. High calorie intake decreases intracellular NAD þ /NADH ratio. The aim of this work was to assess the effect of high-fat diet (HFD) and CtBP1 expression modulation over prostate xenograft growth. Experimental Design: We developed a metabolic syndrome-like disease in vivo model by feeding male nude mice with HFD during 16 weeks. Control diet (CD)-fed animals were maintained at the same conditions. Mice were inoculated with PC3 cells stable transfected with shCtBP1 or control plasmids. Genome-wide expression profiles and Gene Set Enrichment Analysis (GSEA) were performed from PC3. shCtBP1 versus PC3.pGIPZ HFD-fed mice tumors.Results: No significant differences were observed in tumor growth on CD-fed mice; however, we found that only 60% of HFD-fed mice inoculated with CtBP1-depleted cells developed a tumor. Moreover these tumors were significantly smaller than those generated by PC3.pGIPZ control xenografts. We found 823 genes differentially expressed in shCtBP1 tumors from HFD-fed mice. GSEA from expression dataset showed that most of these genes correspond to cell adhesion, metabolic process, and cell cycle.Conclusions: Metabolic syndrome-like diseases and CtBP1 expression cooperate to induce prostate tumor growth. Hence, targeting of CtBP1 expression might be considered for prostate cancer management and therapy in the subset of patients with metabolic syndromes. Clin Cancer Res; 20(15); 4086-95. Ó2014 AACR.

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Photodynamic inactivation of planktonic and biofilm growing bacteria mediated by a meso-substituted porphyrin bearing four basic amino groups

Mamone

Ferreyra

Gándara

et al. 2016

Journal of Photochemistry and Photobiology B: Biology

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Biofilm-associated diseases account for 80% of all infections in humans. Due to the emergence of antibiotic resistances, alternative therapies such as Photodynamic Inactivation (PDI) of microorganisms have emerged. Porphyrins with intrinsic positive charges have been proposed as successful photosensitizers (PSs) against microorganisms. We have recently designed the new synthetic porphyrin 5,10,15,20-tetrakis[4-(3-N,Ndimethylammoniumpropoxy)phenyl]porphyrin (TAPP) containing four basic amine groups in the periphery of the tetrapyrrolic macrocycle, which can acquire positive charges at physiological pH, thus favouring the interaction with biomembranes. Illumination of planktonic cultures of Staphylococcus aureus at 180 J/cm 2 in the presence of 2.5 µM TAPP induced complete bacteria eradication. For the TAPP-PDI treatment of S. aureus biofilms, higher light fluences and PS concentrations were needed. Employing 20 µM TAPP and 180 J/cm 2 , around 3-log CFU reduction were obtained. In order to determine the efficacy of TAPP-PDI on Gram-negative bacteria, we performed planktonic and biofilm assays employing Pseudomonas aeruginosa. Much higher TAPP doses as compared to S. aureus were needed to achieve planktonic bacteria photosensitization (3-log CFU reduction at 20 µM TAPP and 180 J/cm 2). On the other hand, high concentrations of TAPP were non toxic to P. aeruginosa growing on biofilms, and employing 30 µM TAPP and 180 J/cm 2 we obtained 3-log CFU reduction. The main conclusion of the present work is that TAPP is a promising and efficient PS capable of promoting photodynamic killing of both Gram-negative and-positive in planktonic bacteria, though more effectively in the latter. In addition, TAPP-PDI induces similar photoinactivation rates in both bacteria types growing on biofilms, with lower dark toxicity in the Gram-negative one. Highlights A porphyrin which is charged at physiological pH was used for S. aureus inactivation. Photodynamic treatment induced complete eradication of S. aureus in planktonic state. The same treatment induced 3 logs of CFU reduction of S. aureus biofilms. Gram-positive and-negative bacteria biofilms were equally photosensitized.

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Aminolevulinic acid dendrimers in photodynamic treatment of cancer and atheromatous disease

Rodríguez

Vallecorsa

Battah

et al. 2015

Photochem Photobiol Sci

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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.

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Photodynamic inactivation of Gram-positive bacteria employing natural resources

Mamone

Venosa

Gándara

et al. 2014

Journal of Photochemistry and Photobiology B: Biology

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The Use of Dipeptide Derivatives of 5-Aminolaevulinic Acid Promotes Their Entry to Tumor Cells and Improves Tumor Selectivity of Photodynamic Therapy

Venosa

Vallecorsa

Giuntini

et al. 2015

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The use of endogenous protoporphyrin IX generated after administration of 5-aminolaevulinic acid (ALA) has led to many applications in photodynamic therapy (PDT). However, the bioavailability of ALA is limited by its hydrophilic properties and limited cell uptake. A promising approach to optimize the efficacy of ALA-PDT is to deliver ALA in the form of prodrugs to mask its hydrophilic nature. The aim of this work was to evaluate the potential of two ALA dipeptide derivatives, N-acetyl terminated leucinyl-ALA methyl ester (Ac-Leu-ALA-Me) and phenylalanyl-ALA methyl ester (Ac-Phe-ALA-Me), for their use in PDT of cancer, by investigating the generation of protoporphyrin IX in an oncogenic cell line (PAM212-Ras), and in a subcutaneous tumor model. In our in vitro studies, both derivatives were more effective than ALA in PDT treatment, at inducing the same protoporphyrin IX levels but at 50-to 100-fold lower concentrations, with the phenylalanyl derivative being the most effective. The efficient release of ALA from Ac-Phe-ALA-Me appears to be consistent with the reported substrate and inhibitor preferences of acylpeptide hydrolase. In vivo studies revealed that topical application of the peptide prodrug Ac-Phe-ALA-Me gave greater selectivity than with ALA itself, and induced tumor photodamage, whereas systemic administration improved ALA-induced porphyrin generation in terms of equivalent doses administered, without induction of toxic effects. Our data support the possibility of using particularly Ac-Phe-ALA-Me both for topical treatment of basal cell carcinomas and for systemic administration. Further chemical fine-tuning of this prodrug template should yield additional compounds for enhanced ALA-PDT with potential for translation to the clinic. Mol Cancer Ther; 14(2); 440-51. Ó2014 AACR.

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Improvement of Antitumor Therapies Based on Vaccines and Immune-Checkpoint Inhibitors by Counteracting Tumor-Immunostimulation

et al. 2018

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Immune-checkpoint inhibitors and antitumor vaccines may produce both tumor-inhibitory and tumor-stimulatory effects on growing tumors depending on the stage of tumor growth at which treatment is initiated. These paradoxical results are not necessarily incompatible with current tumor immunology but they might better be explained assuming the involvement of the phenomenon of tumor immunostimulation. This phenomenon was originally postulated on the basis that the immune response (IR) evoked in Winn tests by strong chemical murine tumors was not linear but biphasic, with strong IR producing inhibition and weak IR inducing stimulation of tumor growth. Herein, we extended those former observations to weak spontaneous murine tumors growing in pre-immunized, immune-competent and immune-depressed mice. Furthermore, we demonstrated that the interaction of specifical T cells and target tumor cells at low stimulatory ratios enhanced the production of chemokines aimed to recruit macrophages at the tumor site, which, upon activation of toll-like receptor 4 and p38 signaling pathways, would recruit and activate more macrophages and other inflammatory cells which would produce growth-stimulating signals leading to an accelerated tumor growth. On this basis, the paradoxical effects achieved by immunological therapies on growing tumors could be explained depending upon where the therapy-induced IR stands on the biphasic IR curve at each stage of tumor growth. At stages where tumor growth was enhanced (medium and large-sized tumors), counteraction of the tumor-immunostimulatory effect with anti-inflammatory strategies or, more efficiently, with selective inhibitors of p38 signaling pathways enabled the otherwise tumor-promoting immunological strategies to produce significant inhibition of tumor growth.

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Photodynamic therapy of cutaneous T-cell lymphoma cell lines mediated by 5-aminolevulinic acid and derivatives

Vallecorsa

Venosa

Gola³

et al. 2021

Journal of Photochemistry and Photobiology B: Biology

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Effects of non‐thermal plasma technology on Diaporthe longicolla cultures and mechanisms involved

Pérez-Pizá

Grijalba

Cejas

et al. 2021

Pest Management Science

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BACKGROUND The Diaporthe/Phomopsis complex (D/P) is a group of soybean seed‐borne fungi. The use of chemical fungicides, either for seed treatment or during the crop cycle, is the most adopted practice for treating fungal diseases caused by this complex. Worldwide, there is a search for alternative seed treatments that are less harmful to the environment than chemicals. Non‐thermal plasma (NTP) is a novel seed treatment technology for pathogen removal. This research aimed to evaluate the effects of NTP on the in vitro performance of pure cultures of Diaporthe longicolla and elucidate the mechanisms underlying these effects. RESULTS Active D. longicolla mycelium, growing in vitro, was exposed to different NTP treatments, employing a dielectric barrier discharge arrangement with different carrier gases (N2 or O2). Fungal growth, fresh biomass and colony appearance were negatively affected by plasma treatments (TN3 and TO3). Lipid peroxidation and antioxidant activities were higher in plasma‐treated colonies comparison with non‐exposed colonies (control). Fungal asexual spores (conidia) were also exposed to NTP, showing high susceptibility. CONCLUSION Exposure of D. longicolla colonies to NTP severely compromised fungal biology. Ozone production during treatment and lipid peroxidation of fungal cell membranes appeared to be involved in the observed effects. © 2020 Society of Chemical Industry

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