Michele Larocca scite author profile

In this study, we addressed an important drawback of our previously reported tetraplatinated (metallo)porphyrin-based photosensitizers (PSs) for photodynamic therapy (PDT), namely, the poor solubility in aqueous media. We aimed to create tetraplatinated porphyrin-based PSs that are soluble in aqueous media modified with polysorbate (Tween) and do not need to be pre-dissolved in organic solvents. A structural optimization of the previously reported PSs resulted in the synthesis of an extremely potent novel porphyrin-based PS. The novel PS displays effective phototoxicity upon light irradiation against multicellular tumor spheroids and has a phototoxic index (PI) of 6030 in HeLa cells. This PI value is, to the best of our knowledge, the highest value reported for any porphyrin so far.

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Dihedral Angle Calculations To Elucidate the Folding of Peptides through Its Main Mechanical Forces

Larocca

Foglia

Cilibrizzi

2019

Biochemistry

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This study reports a general method to calculate dihedral angles (φ and ψ) of a given amino acid sequence, focusing on potential energy and torque moment concepts. By defining these physical measures in relation to the chemical interactions that occur on each single amino acid residue within a peptide, the folding process is analysed as the result of main mechanical forces (MMF) exerted in the specific amino acid chain of interest. As a proof of concept, Leu-enkephalin was initially used as a model peptide to carry out the theoretical study. Our data show agreement between calculated Leu-enkephalin backbone dihedral angles and the corresponding experimentally determined x-ray values. Hence, we used calcitonin to validate our MMF-based method on a larger peptide, i.e. 32 amino acid residues forming an α-helix. Through a similar approach (although simplified with regards to electrostatic interactions), the calculations for calcitonin also demonstrate a good agreement with experimental values. This study offers new opportunities to analyse a peptides' amino acid sequences and help in the prediction of how they must fold, assisting the development of new computational techniques in the field.

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α,ε-Hybrid Foldamers with 1,2,3-Triazole Rings: Order versus Disorder

et al. 2014

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Two epimeric series of foldamers characterized by the presence of a repeating α,ε-dipeptide unit have been prepared and characterized by (1)H NMR and ECD spectroscopies together with X-ray diffraction. The first series contains L-Ala and D-4-carboxy-5-methyl-oxazolidin-2-one (D-Oxd). The other series contains L-Ala and L-Oxd. The L,D series of oligomers forms ordered β-turn foldamers, characterized by a 311 pattern. The L,L series is not ordered. Simulations show that an ordered L,L trimer lies more than 2 kcal/mol higher than the more stable nonfolded extended conformations. Cu(2+) forms complexes with both series but is not able to order the L,L series. Analysis of the EPR spectra shows that the L,D foldamers bear two types of complexation sites that are assigned as a nitrogen donor of the triazole ring and a carboxylate ligand. The L-Ala-D-Oxd-Tri-CO motif may be introduced in any peptide sequence requiring the presence of a stable β-turn conformations, like in the study of protein-protein interactions.

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Michele Larocca

Exocyclically metallated tetrapyridinoporphyrazine as a potential photosensitizer for photodynamic therapy

Studying the cellular distribution of highly phototoxic platinated metalloporphyrins using isotope labelling

Potent PBS/Polysorbate-Soluble Transplatin-Derived Porphyrin-Based Photosensitizers for Photodynamic Therapy

Dihedral Angle Calculations To Elucidate the Folding of Peptides through Its Main Mechanical Forces

α,ε-Hybrid Foldamers with 1,2,3-Triazole Rings: Order versus Disorder

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