Transthyretin stabilization: An emerging strategy for the treatment of alzheimer’s disease?

Transthyretin (TTR), previously named prealbumin is a plasma protein secreted mainly by the liver and choroid plexus (CP) that is a carrier for thyroid hormones (THs) and retinol (vitamin A). The structure of TTR, with four monomers rich in β-chains in a globular tetrameric protein, accounts for the predisposition of the protein to aggregate in fibrils, leading to a rare and severe disease, namely transthyretin amyloidosis (ATTR). Much effort has been made and still is required to find new therapeutic compounds that can stabilize TTR (“kinetic stabilization”) and prevent the amyloid genetic process. Moreover, TTR is an interesting therapeutic target for neurodegenerative diseases due to its recognized neuroprotective properties in the cognitive impairment context and interestingly in Alzheimer’s disease (AD). Much evidence has been collected regarding the neuroprotective effects in AD, including through in vitro and in vivo studies as well as a wide range of clinical series. Despite this supported hypothesis of neuroprotection for TTR, the mechanisms are still not completely clear. The aim of this review is to highlight the most relevant findings on the neuroprotective role of TTR, and to summarize the recent progress on the development of TTR tetramer stabilizers

The cytotoxic activity of diiron bis-cyclopentadienyl complexes with bridging c3-ligands

Diiron bis-cyclopentadienyl bis-carbonyl cationic complexes with a bridging vinylim-inium ligand, [Fe2Cp2 (CO)(µ-CO){µ-η1:η3-C3 (R′)C2HC1NMe(R′′)}]CF3SO3 (R = Xyl = 2,6-C6H3Me2, R′ = Ph, R′′ = H, 2a; R = Xyl, R′ = R′′ = Me, 2b; R = R′ = Me, R′′ = H, 2c; R = Me, R′ = 2-naphthyl, R′′ = H, 2d; R = Me, R′ = R′′ = Ph, 2e), are easily available from commercial chemicals, robust in aqueous media and exert a variable in vitro cytotoxicity against cancer cell lines depending on the nature of the substituents on the vinyliminium ligand. The anticancer activity is, at least in part, associated to fragmentation reactions, leading to iron oxidation and active neutral and well-defined monoiron species. We report an innovative synthetic procedure for the preparation of 2a,c,d, and a facile method to access the monoiron derivative of 2a, i.e., [FeCp(CO){C1 (NMeXyl)C2HC3 (Ph)C(O)}] (3a). According to IC50 analyses at different times of incubation of the complexes, 3a is significantly faster in inhibiting cell viability compared to its diiron precursor 2a. The neutral complexes [Fe2Cp2 (CO)(µ-CO){µ-k1N:k1C:k1C-C3 (R′)C2 (Se)C1 (NMe2)C4 (CO2Y)C5 (CO2Y)}] (R′ = Y = Me, 4a; R′ = Pr, Y =tBu, 4b; R′ = Y = Et, 4c) are obtained via the two-step modification of the vinyliminium moiety and comprise a bridging selenophene-decorated alkylidene ligand. The antiproliferative activity exhibited by 4a-c is moderate but comparable on the ovarian cancer cell line A2780 and the corresponding cisplatin resistant cell line, A2780cisR. Complexes 4a-c in aqueous solutions undergo progressive release of the alkylidene ligand as a functionalized selenophene, this process being slower in cell culture medium. Since the released selenophenes SeC1 {C(O)R′ }C2 (NMe2)C3 (CO2Y)C4 (CO2Y) (R′ = Y = Me, 5a; R′ = Pr, Y =tBu, 5b) are substantially not cytotoxic, it is presumable that the activity of 4a-c is largely ascribable to the {Fe2Cp2 (CO)2 } scaffold

Optimized electro- and wet-spinning techniques for the production of polymeric fibrous scaffolds loaded with bisphosphonate and hydroxyapatite

This research activity was aimed at the development of composite bioactive scaffolds made of biodegradable three-arm branched-star poly(ε-caprolactone) (∗PCL), hydroxyapatite nanoparticles (HNPs) and clodronate (CD), a bisphosphonate that has demonstrated efficacy in the treatment of various bone diseases and as an anti-inflammatory drug. During the experimental work, the processing conditions for the fabrication of fibrous meshes, by either electrospinning or wetspinning, were optimized. Stemming from a previous research activity on electrospinning of ∗PCL, ∗PCL/HNPs 3D meshes were developed, evaluating the influence of fabrication parameters on the fibres’ morphology. By exploiting the binding affinity of bisphosphonates for hydroxyapatite, a methodology was set up for obtaining a physical linkage between CD and HNPs, with the aim of having a dual bioactive system loaded into ∗PCL fibrous mats. Fibres loaded with either CD or CD–HNP particles were thus produced and analysed by scanning electron microscopy for their morphology and by energy dispersive X-ray spectroscopy for their elemental compositionThis work was done within the framework of the European Network of Excellence 'EXPERTISSUES', Project No. NMP3-CT-2004-500283. Professor Ramani Narayan of Michigan Biotechnology Institute and Dr Fabio Neggiani of Abiogen Pharma-Pisa are acknowledged for supplying *PCL and CD, respectively

N-Cyclopropyl-(20R)-2-Methylene-19,26,27-trinor-25-aza-Vitamin D analogs and their uses

This invention discloses N-cyclopropyl-(20R)-2-methylene-19,26,27-trinor-25-aza-vitamin D analogs, and specifically N-cyclopropyl-(20R)-2-methylene-19,26,27-trinor-25-aza-1.alpha.-hydroxyvi- tamin D.sub.3 and pharmaceutical uses therefor. This compound exhibits relatively high binding activity and pronounced activity in arresting the proliferation of undifferentiated cells and inducing their differentiation to the monocyte thus evidencing use as an anti-cancer agent especially for the treatment or prevention of leukemia, colon cancer, breast cancer, skin cancer or prostate cancer

2alpha-Methyl and 2beta-Methyl Analogs of 19,26-Dinor-1alpha,25-Dihydroxyvitamin D3 and Their Uses

This invention discloses 2.alpha.-methyl and 2.beta.-methyl analogs of 19,26-dinor-1.alpha.,25-dihydroxyvitamin D.sub.3 and pharmaceutical uses therefor. These compounds exhibit in vitro biological activities evidencing use as an anti-cancer agent and for the treatment of skin diseases such as psoriasis as well as skin conditions such as wrinkles, slack skin, dry skin and insufficient sebum secretion. These compounds have little, if any, in vivo calcemic activity and therefore may be used to treat autoimmune disorders in humans as well as secondary hyperparathyroidism and renal osteodystrophy

Lie families: theory and applications

We analyze families of non-autonomous systems of first-order ordinary differential equations admitting a common time-dependent superposition rule, i.e., a time-dependent map expressing any solution of each of these systems in terms of a generic set of particular solutions of the system and some constants. We next study relations of these families, called Lie families, with the theory of Lie and quasi-Lie systems and apply our theory to provide common time-dependent superposition rules for certain Lie families.Comment: 23 pages, revised version to appear in J. Phys. A: Math. Theo

Surgical Treatment for a Relapsing Malleolar Bursitis in a Professional Figure Skating: Case Report

The increase of popularity in sports as Roller Skating, Figure Skating and Ice Hockey has simultaneously increased the number of skating-related injuries. Lesions of chronic dermatological nature and muscle and tendon lesions have high number of case reports. Ankle and foot are peculiarly involved and this condition suggests the correlation with the use of the skating boot, which with its high-cut and hard-fit changes the joint biomechanics and function and, as a result, the intergumentary system is continuously damaged by the compression and rubbing on the foot. The frequent onset of non-septic chronic relapsing bursitis at the level of the malleolar region is common in all sports requiring the use of skating boots. The conservative treatment is usually compromised by the repetition of the traumatic event due to the use of the skating boot. The case report of a 19 year old professional figure skater affected by non-septic relapsing malleolar bursitis at the level of the malleolar region is presented

Segmented multifunctional poly(ether ester) polymers containing H-bonding units. Preparation and charactization

A series of poly(ether ester)s containing amide and carbamate groups as H-bonding units and 13-50 mol-% of poly(ethylene glycol) (PEG) segments were prepared by polycondensation in bulk using Ti(OBu)4 as a catalyst. The copolymers were obtained starting from PEG/1,4-butanediol mixtures and a synthetic monomer carrying H-bonding groups. These polymers were designed for biomedical applications, where material biodegradability is required. The influence of the nature of the H-bonding units, the length of the polymethylene spacer between the H-bonding groups and the PEG content on the thermal and solubility properties of the copolymers was investigated. Amide-containing copolymers were more thermally stable than those containing carbamate groups. The PEG content also slightly affected the polymer thermal stability. The DSC traces of all samples presented multiple transitions, whose shape and peak temperature were strongly dependent on the PEG content. Polymer hydrophilicity, surface free energy and equilibrium swelling in phosphate buffer solution (PBS) at 37 °C were mainly influenced by the PEG content, whereas the nature of the H-bonding groups had little effect

When ferrocene and diiron organometallics meet: triiron vinyliminium complexes exhibit strong cytotoxicity and cancer cell selectivity

Cationic triiron complexes resulting from the conjugation of the ferrocenyl skeleton (Fc) with a diiron bis-cyclopentadienyl core through a variable vinyliminium linker, [Fe2Cp2(CO)(mu-CO){mu-eta(1):eta(3)-C(Fc)CHCN(R)(R')}]CF3SO3 ([2a-i]CF3SO3, Cp = eta(5)-C5H5, R, R'= alkyl, aryl), were synthesised in 70-94% yield, and the homologous nitrate salt was also prepared in one case ([2h]NO3). The neutral derivatives [Fe2Cp2(CO)(mu-CO){mu-eta(1):eta(3)-C(Fc)CHC(CN)NMe2}], 3, and [FeCp(CO){CN(Me)(Xyl)CHC(Fc)C(=O)}], 4 (Xyl = 2,6-C6H3Me2), were obtained in ca. 70% yield by reactions of the respective precursors [2h]CF3SO3 and [2i]CF3SO3 with NBu4CN and pyrrolidine, respectively. All products were purified by alumina chromatography and fully characterised by analytical and spectroscopic methods, and by single crystal X-ray diffraction in the cases of [2a]CF3SO3 and 3. The cytotoxicity of the complexes was assessed on A2780, A2780cisR and BxPC-3 cancer cell lines, and the nontumoral Balb/3T3 clone A31. Most of the cationic complexes display IC50 values in the low micromolar/nanomolar range concerning the cancer cell lines, and up to 35 times higher values on the nontumoral cells. In order to shed light on the mode of action, selected complexes were further characterised by cyclic voltammetry and spectroelectrochemical experiments, and assessed for their potential to trigger ROS production and to interact with a range of biomolecules, i.e. a synthetic dodecapeptide as a simplified model for thioredoxin reductase (TrxR-pept), some model proteins (cytochrome c, hen egg-white lysozyme, ubiquitin, bovine serum albumin, superoxide dismutase and human carbonic anhydrase) and one single-stranded oligonucleotide (ODN2)