The Multispecialistic da Vinci European BioBank

The da Vinci European BioBank (daVEB) is a research infrastructure established in 2009 in the Scientific Campus of the University of Florence (Sesto Fiorentino, Italy) belonging to the non-profit foundation FiorGen, which promotes studies aimed at exploiting knowledge on human health. Since 2011, daVEB is ISO9001 certified for collection, storage and distribution of biological samples and the associated data for scientific research. The biobank is currently storing about 9.000 biospecimens (serum, plasma, white cells, tissue, DNA, cells and urine) collected according to specific informed consents by Research Units from healthy donors and patients affected by different diseases - cardiovascular diseases, melanoma, breast carcinoma, non-Hodgkin’s lymphoma, cancer in geriatric patients, Krabbe syndrome, rare skin diseases; the biomaterial is available for new research projects.</p

Comparative Analysis of [Au(en)2]3+ and [Pt(en)2]2+ non Covalent Binding to Calf Thymus DNA

Reactions of the complexes bisethylendiammine gold(III) and bisethylendiammine platinum(II) with calfthymus DNA were comparatively analysed. Both complexes bind DNA non-covalently most probably on the basis of electrostatic interactions. Binding of either complex at low ratios results into modest modifications of B-type DNA conformations, as detected by CD. Far larger CD alterations are observed at high ratios. The gold(III) chromophore is scarcely perturbed by DNA addition Binding of [Au(en)2]Cl3 to calf thymus DNA is reversed by sodium cyanide. By analogy with the case of [Pt(en)2]Cl2 it is suggested that Auen acts as a minor groove binder

Structure and Cytotoxic Properties of Some Selected Gold(III) Complexes

We prepared four representative square planar gold(III) complexes - [AuCl3(Hpm)], [AuCl2(esal)], [AuCl(dien)]Cl2 and [Au(en)2]Cl3 -and characterized them both in the solid state and in solution. Thereafter, the cytotoxicity of these compounds was evaluated in vitro against the A2780 human ovarian tumor cell line that was used as the reference cell line. Remarkably, ali these gold(III) complexes showed significant cytotoxic effects, [AuCl2(esal)] showing a potency comparable to cisplatin. The present gold(III) complexes were also tested on the corresponding cisplatin-resistant line and revealed they were able to overcome resistance to cisplatin to a large extent. The implications of these findings for the development of new gold(III) complexes to be tested as antitumor agents are discussed

Gold(III) Compounds as New Family of Anticancer Drugs

Gold(III) complexes are emerging as a new class of metal complexes with outstanding cytotoxic properties and are presently being evaluated as potential antitumor agents. This renewed interest is the result of recent studies in which various gold(III) complexes have been shown to be stable under physiological conditions and to manifest relevant antiproliferative properties against selected human tumor cell lines. The pharmacological investigation of some representative gold(III) complexes has been extended to consider their effects on the cell cycle and to reveal induction of apoptosis. Remarkably, preliminary studies suggest that the interactions in vitro of gold(Ill) complexes with calf thymus DNA are weak whereas significant binding to model proteins takes place. Our findings imply that the mechanism of action of cytotoxic gold(Ill) complexes might be substantially different from that of clinically established platinum compounds

Amyotrophic Lateral Sclerosis, a Multisystem Pathology: Insights into the Role of TNF\u3b1

Amyotrophic lateral sclerosis (ALS) is considered a multifactorial, multisystem disease in which inflammation and the immune system play important roles in development and progression. The pleiotropic cytokine TNF\u3b1 is one of the major players governing the inflammation in the central nervous system and peripheral districts such as the neuromuscular and immune system. Changes in TNF\u3b1 levels are reported in blood, cerebrospinal fluid, and nerve tissues of ALS patients and animal models. However, whether they play a detrimental or protective role on the disease progression is still not clear. Our group and others have recently reported opposite involvements of TNFR1 and TNFR2 in motor neuron death. TNFR2 mediates TNF\u3b1 toxic effects on these neurons presumably through the activation of MAP kinase-related pathways. On the other hand, TNFR2 regulates the function and proliferation of regulatory T cells (Treg) whose expression is inversely correlated with the disease progression rate in ALS patients. In addition, TNF\u3b1 is considered a procachectic factor with a direct catabolic effect on skeletal muscles, causing wasting. We review and discuss the role of TNF\u3b1 in ALS in the light of its multisystem nature

The Da Vinci European BioBank: A Metabolomics-Driven Infrastructure

We present here the organization of the recently-constituted da Vinci European BioBank (daVEB, https://www.davincieuropeanbiobank.org/it). The biobank was created as an infrastructure to support the activities of the Fiorgen Foundation (http://www.fiorgen.net/), a nonprofit organization that promotes research in the field of pharmacogenomics and personalized medicine. The way operating procedures concerning samples and data have been developed at daVEB largely stems from the strong metabolomics connotation of Fiorgen and from the involvement of the scientific collaborators of the foundation in international/European projects aimed to tackle the standardization of pre-analytical procedures and the promotion of data standards in metabolomics

Expression of tumor necrosis factor- and its receptors in Amyotrophic Lateral Sclerosis

5nonenoneLo Coco, D; Veglianese, P; Giordana, Mt; Marcon, G; Bendotti,