Novel Curcumin-Diethyl Fumarate Hybrid as a Dualistic GSK-3ß Inhibitor/Nrf2 Inducer for the Treatment of Parkinson's Disease.

Common copathogenic factors, including oxidative stress and neuroinflammation, are found to play a vital role in the development of neurodegenerative disorders, including Alzheimer's disease (AD) and Parkinson's disease (PD). Nowadays, owing to the multifactorial character of the diseases, no effective therapies are available, thus underlying the need for new strategies. Overexpression of the enzyme GSK-3ß and downregulation of the Nrf2/ARE pathway are responsible for a decrease in antioxidant defense effects. These pieces of evidence underline the usefulness of dual GSK-3ß inhibitors/Nrf2 inducers. In this regard, to design a dual modulator, the structures of a curcumin-based analogue, as GSK-3ß inhibitor, and a diethyl fumarate fragment, as Nrf2 inducer, were combined. Among the hybrids, 5 and 6 proved to effectively inhibit GSK-3ß, while 4 and 5 showed a marked ability to activate Nrf2 together to increase the neuronal resistance to oxidative stress. These last pieces of evidence translated into specific neuroprotective effects of 4 and 5 against PD pathological events including neurotoxicity elicited by α-synuclein aggregates and 6-hydroxydopamine. Hybrid 5 also showed neuroprotective effects in a C. elegans model of PD where the activation of GSK-3ß is intimately involved in Nrf2 regulation. In summary, 5 emerged as an interesting multitarget derivative, valuable to be exploited in a multitarget PD perspective.

Recent progress on curcumin-based therapeutics: a patent review (2012-2016). Part II: curcumin derivatives in cancer and neurodegeneration.

INTRODUCTION: Curcumin, the main bioactive compound found in the rhizome of Curcuma longa L., is considered a 'privileged structure', due to its ability to modulate different signaling pathways involved in the pathogenesis of several diseases. Unfortunately, its poor pharmacodynamic and pharmacokinetic properties, mainly related to chemical instability, low solubility and rapid metabolism, greatly reduce its therapeutic potential. In the last years a number of derivatives were developed and patented, aimed both at improving its multifaceted biological profile and overcoming its undesired effects. Areas covered: This review summarizes the patent literature of the last five years dealing with synthetic curcumin-related compounds in cancer and neurodegeneration, properly designed in order to avoid the so-called 'dark side of curcumin', and to take advantage of the beneficial properties of this molecule, worth to be further exploited to obtain effective therapeutics. Expert opinion: Due to the synergistic binding to several networked targets, curcumin turned out to be suitable for polypharmacological approaches, and its 'privileged structure' could also provide the key scaffold to develop novel multipotent drugs useful for treating multifactiorial pathologic conditions such as cancer and neurodegeneration.

Recent progress on curcumin-based therapeutics: a patent review (2012-2016). Part I: Curcumin.

INTRODUCTION: curcumin is the main bioactive component contained in Curcuma Longa, largely employed in traditional medicine. Recently, beneficial properties, useful for prevention and treatment of several disorders, have been discovered for this compound. Peculiar structural feature is an α,ß-unsaturated carbonyl system essential for establishing contacts with critical cysteine residues of several targets. This distinctive mechanism of action imparts to the molecule the ability to affect a large number of targets, accounting for its pleiotropic behaviour and definition of "privileged structure". Areas covered: The objective of the review is an examination of the recent developments in the field of the anti-cancer applications of curcumin, together with formulation issues, considering the patent literature in the years 2012-2016. Expert opinion: The wide therapeutic efficacy of curcumin is related to synergistic interactions with several biological targets, along with the modulation of several signaling pathways. This peculiar behaviour could be useful in the treatment of multifactorial diseases such as cancer. Combination of curcumin with a first line antineoplastic drug proved to be a valuable strategy to obtain an amplified response with minimized side effects. Innovative curcumin formulations based on the nanotechnology approach allowed improving both bioavailability and therapeutic efficacy.

Phytoestrogens in postmenopause: the state of the art from a chemical, pharmacological and regulatory perspective.

Phytoestrogens represent a diverse group of non-steroidal natural products, which seem to have some oestrogenic effects and are often marketed as food supplements. Population exposed to phytoestrogens is potentially increasing, in part because an unfavourable risk-benefit profile of Hormone Replacement Therapy (HRT) for prolonged treatments (e.g., osteoporosis prevention) highlighted by the publication of the Women Health Initiative (WHI) trial in 2002, but also because many post-menopausal women often perceived phytoestrogens in food supplements as a safer alternative than HRT. Despite of increasing preclinical and clinical studies in the past decade, appealing evidence is still lacking to support the overall positive risk-benefit profile of phytoestrogens. Their status as food supplements seems to discourage studies to obtain new evidence, and the chance to buy them by user's initiative make it difficult to survey their prevalence and pattern of use. The aim of the present review is to: (a) outline the clinical scenario underlying the increased interest on phytoestrogens, by overviewing the evolution of the evidence on HRT and its main therapeutic goals (e.g., menopausal symptoms relief, chemoprevention, osteoporosis prevention); (b) address the chemical and pharmacological features (e.g. chemical structure, botanical sources, mechanism of action) of the main compounds (e.g., isoflavones, lignans, coumestans); (c) describe the clinical evidence on potential therapeutic applications; (d) put available evidence on their riskbenefit profile in a regulatory perspective, in light of the recent regulation on health claims of food supplements.

Hybrid-based multi-target ligands for the treatment of Alzheimer's disease.

Progresses in medicinal chemistry over the last few years have focused on the design and synthesis of hybrid compounds, molecules encompassing in a single scaffold two pharmacophores from known entities endowed with well established biological activities. The interest in this topic is related to the increasing emphasis on the identification of the different factors involved in a number of disorders, such as the complex multifactorial Alzheimer's disease (AD), and hybrid- based strategy has become a focal point in this medicinal chemistry field since it could lead to derivatives with an improved biological profile. Using this strategy, acetylcholinesterase inhibitors (AChEIs) have been extensively coupled with properly selected bioactive molecules to obtain homo- and heterodimers endowed with increased potency together with supplementary actions. In the past decade the inhibition of the AChE induced aggregation of the -amyloid peptide into the senile plaques, which is a key event in the neurotoxic cascade of AD, has been considered a relevant approach leading to several dual binding site inhibitors, able to contact both the peripheral anionic site of AChE and the active site. In recent years, pioneering efforts have been performed to obtain novel AChEIs that, beyond the capability to inhibit AChE, were able to hit a number of specific AD targets. In particular, these compounds proved to possess antioxidant, anti-inflammatory, or neuroprotective activities, useful to block or revert the progression of the disease. This review summarizes the progresses that have been made in the design of hybrid molecules for the treatment of AD.

Design, synthesis, and evaluation of benzophenone derivatives as novel acetylcholinesterase inhibitors.

Starting from a structure-based drug design, new acetylcholinesterase inhibitors were designed and synthesized as analogues of donepezil. The compounds were composed by an aromatic function and a tertiary amino moiety connected by a suitable spacer. In particular, the benzophenone nucleus and the N,N-benzylmethylamine function were selected. The easily accessible three-step synthesis of these compounds resulted to be significantly less difficult and expensive than that of donepezil. Several compounds possess anti-cholinesterase activity in the order of micro and sub-micromolar. Particularly, compounds 1 and 10 were the most potent inhibitors of the series.