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Mesenchymal stromal cell: new applications for regenerative medicineMartella, Elisa <1984> 18 April 2013 (has links)
In the last decades mesenchymal stromal cells (MSC), intriguing for their multilineage plasticity and their proliferation activity in vitro, have been intensively studied for innovative therapeutic applications.
In the first project, a new method to expand in vitro adipose derived-MSC (ASC) while maintaining their progenitor properties have been investigated. ASC are cultured in the same flask for 28 days in order to allow cell-extracellular matrix and cell-cell interactions and to mimic in vivo niche. ASC cultured with this method (Unpass cells) were compared with ASC cultured under classic condition (Pass cells). Unpass and Pass cells were characterized in terms of clonogenicity, proliferation, stemness gene expression, differentiation in vitro and in vivo and results obtained showed that Unpass cells preserve their stemness and phenotypic properties suggesting a fundamental role of the niche in the maintenance of ASC progenitor features. Our data suggests alternative culture conditions for the expansion of ASC ex vivo which could increase the performance of ASC in regenerative applications.
In vivo MSC tracking is essential in order to assess their homing and migration. Super-paramagnetic iron oxide nanoparticles (SPION) have been used to track MSC in vivo due to their biocompatibility and traceability by MRI. In the second project a new generation of magnetic nanoparticles (MNP) used to label MSC were tested. These MNP have been functionalized with hyperbranched poly(epsilon-lysine)dendrons (G3CB) in order to interact with membrane glycocalix of the cells avoiding their internalization and preventing any cytotoxic effects.
In literature it is reported that labeling of MSC with SPION takes long time of incubation. In our experiments after 15min of incubation with G3CB-MNP more then 80% of MSC were labeled. The data obtained from cytotoxic, proliferation and differentiation assay showed that labeling does not affect MSC properties suggesting a potential application of G3CB nano-particles in regenerative medicine.
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Studio degli effetti funzionali e tossici di derivati di Brassicaceae in modelli sperimentali / On the functional and toxic effects of Brassica derived products in experimental modelsMelega, Simone <1983> 08 April 2013 (has links)
I vegetali appartenenti alla famiglia delle Brassicaceae, sono ricchi di molecole biologicamente attive note per le numerose proprietà salutari. L’effetto di un estratto di germogli di cavolo nero toscano (TBCSE) è stato investigato, in termini chemiopreventivi, sugli enzimi epatici del metabolismo degli xenobiotici e antiossidanti, in ratti trattati con TBCSE. I risultati hanno mostrato un complesso pattern di modulazione, con una prevalente inibizione, del sistema citocromo P450-dipendente, e induzioni significative degli enzimi di fase II (glutatione transferasi e glucuronosiltransferasi) e antiossidanti (catalasi, NAD(P)H:chinone reduttasi, glutatione reduttasi e perossidasi). Successivamente, l’effetto di TBCSE è stato studiato nei confronti delle alterazioni provocate da un’alimentazione iperlipidica nel ratto. Il trattamento si è dimostrato efficace nel contrastare gli effetti deleteri dei grassi presenti nella dieta, come l’iperlipidemia, l’aumento del peso corporeo e del fegato, l’indebolimento delle attività degli enzimi antiossidanti e del potenziale detossificante a livello epatico. Complessivamente, TBCSE emerge essere un promettente prodotto nutraceutico con potenziali effetti chemiopreventivi, e da impiegare come strategia alimentare per contrastare gli effetti correlati ad una dieta iperlipidica.
Il consumo di dosi sovralimentari di molecole isolate dalle Brassicaceae, tramite per esempio integratori dietetici, come strategia alimentare preventiva, potrebbe tuttavia rappresentare un rischio per la salute. La potenziale tossicità del sulforafane, glucorafanina, indolo-3-carbinolo, e 3,3'-diindolimetano, è stata valutata in epatociti primari di ratto. La citotossicità e l’induzione di stress ossidativo, osservate a concentrazioni non lontane da quelle che potrebbero essere raggiunte in vivo, insieme ad una forte modulazione dell’espressione genica, riguardante principalmente il metabolismo degli xenobiotici, risposte ad alterazioni dello stato ossidoredutivo, eventi di riparazione del DNA e di proteine, induzione dell’apoptosi, e meccanismi (co)cancerogeni, sottolineano la potenzialità di queste molecole di determinare un rischio tossicologico, in seguito ad un’assunzione prolungata e ad alte dosi. / Brassica vegetables are rich in bioactive phytochemicals known for their healthy properties.
The chemopreventive potential of sprout extract from Tuscan black cabbage (TBCSE), through modulation of hepatic xenobiotic-metabolizing apparatus and antioxidant defenses, was investigated in rats administered with the extract. A complex, mild modulation pattern, mainly inhibition, of the P450-related monooxygenases as well as significant inductions of phase II (glutathione S-transferase and UDPglucuronosyl-transferase glutathione) and antioxidant enzymes (catalase, NAD(P)H:quinone reductase, glutathione reductase and peroxidase), were recorded. Afterward, the role of TBCSE intake was studied against the alterations from a high fat diet. The extract was able to counteract the hyperlipidaemia, the body and liver weight gains, and the antioxidant as well as the phase II enzymes deregulation, induced by the diet rich in fat.
Overall, these results are in support of the potential health-promoting application of TBCSE, as a nutraceutical, to counteract the perturbations associated with a hyperlipidaemic diet, and with chemopreventive properties.
A high intake of dietary supplements based on Brassica derived phytochemicals, as alimentary strategy for boosting health, might, nevertheless, be harmful. The potential toxicity of sulforaphane, glucoraphanin, indole-3-carbinol and 3,3’-diindolylmethane, was evaluated in primary rat heapatocytes. The cytotoxicity and the oxidative stress, observed at concentrations, not far from the ones reached in in vivo experiments, along with the strong modulation of gene expression, mainly concerning xenobiotic metabolism, response to cellular redox status alterations, DNA and proteins repair, apoptosis induction, and (co)carcinogenic mechanisms, underline the potential risk deriving from a regular intake of high doses of molecules from Brassicaceae.
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Biomolecular studies in Alzheimer’s Disease models: investigations in vitro and in vivoLattanzio, Francesca <1982> 08 April 2013 (has links)
The Alzheimer’s disease (AD), the most prevalent form of age-related dementia, is a multifactorial and heterogeneous neurodegenerative disease. The molecular mechanisms underlying the pathogenesis of AD are yet largely unknown. However, the etiopathogenesis of AD likely resides in the interaction between genetic and environmental risk factors. Among the different factors that contribute to the pathogenesis of AD, amyloid-beta peptides and the genetic risk factor apoE4 are prominent on the basis of genetic evidence and experimental data. ApoE4 transgenic mice have deficits in spatial learning and memory associated with inflammation and brain atrophy. Evidences suggest that apoE4 is implicated in amyloid-beta accumulation, imbalance of cellular antioxidant system and in apoptotic phenomena. The mechanisms by which apoE4 interacts with other AD risk factors leading to an increased susceptibility to the dementia are still unknown. The aim of this research was to provide new insights into molecular mechanisms of AD neurodegeneration, investigating the effect of amyloid-beta peptides and apoE4 genotype on the modulation of genes and proteins differently involved in cellular processes related to aging and oxidative balance such as PIN1, SIRT1, PSEN1, BDNF, TRX1 and GRX1. In particular, we used human neuroblastoma cells exposed to amyloid-beta or apoE3 and apoE4 proteins at different time-points, and selected brain regions of human apoE3 and apoE4 targeted replacement mice, as in vitro and in vivo models, respectively. All genes and proteins studied in the present investigation are modulated by amyloid-beta and apoE4 in different ways, suggesting their involvement in the neurodegenerative mechanisms underlying the AD. Finally, these proteins might represent novel potential diagnostic and therapeutic targets in AD.
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Effetti dell'inibizione di Tanchirasi in linee cellulari di Medulloblastoma umano / Effects of the Tankyrase inhibition in Human Medulloblastoma cell linesRenna, Cristiano <1983> 08 April 2013 (has links)
Tanchirasi (TNKS) è un membro della superfamiglia delle PARP (Poli ADP-Ribosio Polimerasi). TNKS è coinvolta nella stabilizzazione della subunità catalitca del complesso proteico DNA-PK (protein chinasi DNA-dipendente), la DNA-PKcs. Questa proteina è fondamentale per il corretto funzionamento del meccanismo di riparo del DNA chiamato "Saldatura Non Omologa delle Estremità" (NHEJ). La deplezione di TNKS induce una degradazione della DNA-PKcs e una maggiore sensibilità alle radiazioni ionizzanti (RI). TNKS è inoltre un regolatore negativo di axina e di conseguenza un attivatore del pathway di WNT; l'inibizione quindi di TNKS induce anche una inibizione del pathway di WNT. Alterazioni in questo signalling si riscontrano frequentemente nel Medulloblastoma (MB), il tumore cerebrale embrionale più comune dell'infanzia. La radioterapia post-operatoria risulta essere molto efficacia in questa neoplasia, ma causa gravi effetti collaterali e un terzo dei pazienti presenta radioresistenza intrinseca. Un'importante sfida per la ricerca è quindi l'aumento della radiosensibilità tumorale. In questo lavoro, abbiamo studiato gli effetti dell'inibizione farmacologica di TNKS in linee cellulari di MB umano, mediante la small molecule XAV939, potente e specifico inibitore di TNKS. Il trattamento con XAV939 induce una consistente inibizione della capacità proliferativa e clonogenica, non correlata ad un aumento della mortalità cellulare, indicando una bassa tossicità legata alla molecola. Il co-trattamento di XAV939 e RI (γ-ray, dose 2 Gy) causa una ulteriore inibizione della proliferazione cellulare e della capacità di formare colonie. Abbiamo inoltre constatato, mediante Neutral Comet Assay, una minore efficacia nel riparo del DNA in cellule irradiate trattate con XAV939, indicando un effettivo aumento della radiosensibilità in cellule di MB trattate con l'inibitore di TNKS. L'aumentata mortalità cellulare in cellule tumorali trattate con XAV939 e RI ha confermato la nostra ipotesi. Il nostro studio in vitro indica come TNKS possa essere un utile target terapeutico per rendere più efficace l'attuale terapia contro il MB. / Tankyrase (TNKS) is a member of the poly-ADP-ribose polymerase (PARP) family. TNKS is involving in the stabilization of the “non-homologous end-joining” (NHEJ) proteins complex, referred as “DNA-dependent protein kinase” (DNA-PK). TNKS depletion resulted in degradation of catalytic subunit of DNA-PK (DNA-PKcs) causing increased sensitivity to ionizing radiation (IR). Moreover, TNKS interacts with Axin, stimulating its degradation and arising in a WNT/β-catenin pathway activation; thus, a TNKS protein reduction induces a WNT pathway inhibition. Alterations in this pathway often occur in Medulloblastoma (MB), the most common pediatric malignant brain tumor. Furthermore, post-operative radiotherapy is very effective for MB, but survivors have severe long-terms side effects and radiotherapy response sometimes is limited by intrinsic radioresistance. Hence, an important challenge is to improve radio-sensitivity. In this study we showed the consequences of pharmacological TNKS inhibition on human MB cell lines using the small molecule XAV939, a potent and specific TNKS-PARP activity inhibitor. XAV939 treatment on MB cell lines resulted in a consistent proliferative and clonogenic capability decrease, not related to cell mortality increase, showing the low toxicity of the small molecule. The co-administration of XAV939 and IR (γ-ray, dose 2 Gy) induced a massive inhibition of the clonogenic and proliferative capacity compared to controls. Moreover, we observed, by Neutral Comet Assay, a minor efficacy of the DNA repair in XAV939 and IR treated cells related to IR treated cells, indicating an enhanced MB cells radiosensitivity mediated by TNKS inhibition. The cell mortality increase in XAV939 and IR treated cells, compared to controls, confirmed our thesis. Our in vitro results suggested TNKS as a possible therapeutic target to improve current therapy in MB.
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Analisi preclinica di nuove strategie terapeutiche basate sull'inibizione di protein-chinasi nell'osteosarcoma. / Pre-clinical validation of treatment approaches targeting protein kinases in osteosarcoma.Vella, Serena <1984> 08 April 2013 (has links)
Scopo:
L’obiettivo del presente programma di studio è stato quello di identificare e validare nuovi possibili bersagli terapeutici per l’osteosarcoma (OS) partendo dall’analisi del chinoma umano.
Risultati:
L’analisi del profilo di espressione genica ottenuta su 21 campioni clinici di OS ad alto grado di malignità ha permesso di selezionare le seguenti chinasi di possibile rilevanza biologica per l’OS: AURK-A, AURK-B, CDK2, PIK3CA, PLK-1. Le chinasi selezionate sono state validate tramite RNA interference. Successivamente è stata valutata l’efficacia dei relativi inibitori specifici: VX-680 e ZM-447439 inibitori delle Aurora-chinasi, Roscovitina di CDK2 e NMS1 di PLK-1, già inclusi in studi clinici.
In termini d’inibizione della crescita cellulare le linee sono risultate maggiomente sensibili ai farmaci VX-680 e NMS1. E’ stata osservata una minor sensibilità ai farmaci VX-680, ZM447439 e NMS1 nelle linee doxorubicina(DX)-resistenti (caratterizzate da elevati livelli di espressione di ABCB1), indicando questi farmaci come potenziali substrati di ABCB1. La Roscovitina, nonostante i valori di IC50 elevati, non sembrerebbe substrato di ABCB1. La validazione preclinica di VX-680 e ZM447439 è stata completata. La forte inibizione della crescita è causata da endoreduplicazione per mancata citodieresi con conseguente formazione di una popolazione iperploide e apoptosi. Inoltre, VX-680 inibisce la motilità e la capacità di formare colonie. Esperimenti di associazione farmacologica mostrano che VX-680 interagisce positivamente con tutti i chemioterapici convenzionali impiegati nel trattamento dell’OS. NMS-1 produce interazioni positive con la DX in linee cellulari DX-resistenti, probabilmente grazie all’effetto revertante esercitato su ABCB1. La Roscovitina produce interazioni positive con CDDP e DX nelle varianti resistenti, effetto probbilmente dovuto al ruolo di CDK2 nei meccanismi di riparo del DNA.
Conclusioni:
L’analisi in vitro dell’attività degli inibitori ha permesso di identificare VX-680 come nuovo farmaco di potenziale interesse clinico, soprattutto in virtù delle sue interazioni sinergiche con i chemioterapici di uso convenzionale nel trattamento dell’osteosarcoma. / Background:
Objective of this study was the preclinical validation of protein kinases and kinase inhibitors of possible clinical usefulness in osteosarcoma.
Results:
By mining genome-wide expression profiling data obtained from 21 osteosarcoma (OS) clinical samples, five protein kinases emerged as the most relevant for the osteosarcoma biology: AURK-A, AURK-B, CDK2, PIK3CA, PLK1. Theyr validation was perfomed by RNAinterference. We therefore investigated the efficacy of the following drugs: VX-680 and ZM447439 (AURKs inhibitors), the CDK2 inhibitor Roscovitine and the PLK1 inhibitor NMS-1, which have been included in clinical trials for other tumors.
In terms of cell growth inhibition, VX-680 and NMS-1 proved to be the most effective among the tested drugs. A decrease of drug sensitivity was observed in doxorubicin-resistant cell lines (characterized by a high ABCB1 expression), suggesting VX-680, ZM447439 and NMS-1 as ABCB1 substrates. Roscovitine was less effective than other drugs but it did not appear to be affected by the ABC-mediated efflux mechanisms.
Preclinical validation of VX-680 and ZM447439 has been completed. Cell growth inhibition was caused by occurring endoreduplication with cytokinesis failure and consequent generation of hyperploid populations. Generally, this alteration is followed by apotosis induction. VX-680 also decreased motility and soft-agar colony formation ability of human OS cells.
Drug association experiments showed that VX-680 positively interacts with all drugs conventionally used in OS. NMS-1 proved a positive interaction with DX in DX-resistant cell lines, probabily due to the revertant effect of this drug on ABCB1 activity. Roscovitine produced positive interactions with CDDP and DX in resistant variants, probabily due to CDK2 role in DNA-damage repair pathway.
Conclusions:
These results indicate that kinases might represent new candidate therapeutic targets for OS and in vitro analysis of two inhibitors of AURK-A and AURK-B indicated in VX-680 a new promising drug of potential clinical usefulness to target these molecules.
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Generation and characterization of mouse models of Small cell lung cancer and Basal cell carcinoma for the preclinical evaluation of new therapiesRuocco, Margherita <1981> 08 April 2013 (has links)
Background. Human small cell lung cancer (SCLC) accounting for approximately 15-20% of all lung cancers, is an aggressive tumor with high propensity for early regional and distant metastases. Although the initial tumor rate response to chemotherapy is very high, SCLC relapses after approximately 4 months in ED and 12 months in LD.
Basal cell carcinoma (BCC) is the most prevalent cancer in the western world, and its incidence is increasing worldwide. This type of cancer rarely metastasizes and the death rate is extraordinary low. Surgery is curative for most of the patients, but for those that develop locally advanced or metastatic BCC there is currently no effective treatment.
Both types of cancer have been deeply investigated and genetic alterations, MYCN amplification (MA) among the most interesting, have been found. These could become targets of new pharmacological therapies.
Procedures. We created and characterized novel BLI xenograft orthotopic mouse models of SCLC to evaluate the tumor onset and progression and the efficacy of new pharmacological strategies. We compared an in vitro model with a transgenic mouse model of BCC, to investigate and delineate the canonical HH signalling pathway and its connections with other molecular pathways.
Results and conclusions. The orthotopic models showed latency and progression patterns similar to human disease. Chemotherapy treatments improved survival rates and validated the in vivo model. The presence of MA and overexpression were confirmed in each model and we tested the efficacy of a new MYCN inhibitor in vitro.
Preliminar data of BCC models highlighted Hedgehog pathway role and underlined the importance of both in vitro and in vivo strategies to achieve a better understanding of the pathology and to evaluate the applicability of new therapeutic compounds
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Discovery and Pharmacological Characterization of a Novel Small Molecule Antagonist of Integrin α4β1: Focus on Antiallergic ActivityDattoli, Samantha Deianira <1986> 11 April 2014 (has links)
Allergy is a common hypersensitivity disorder that affects 15% to 20% of the population and its prevalence is increasing worldwide. Its severity correlates with the degree of eosinophil infiltration into the conjunctiva, which is mediated by chemokines that stimulate the production of adhesion molecules like intercellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule-1 (VCAM-1) on the endothelial cell surface. The α4β1 and α4β7 integrins are expressed in eosinophils and contribute to their activation and infiltration in AC through the binding to VCAM-1 or fibronectin, expressed on vascular endothelial cells. Blockade of α4 integrins might be a therapeutical achievement in allergic eye diseases. DS 70, that show an IC50 in the nanomolar range against α4β1 integrin in Jurkat cells and in the eosinophilic cell line EOL-1. This compound was able to prevent cell adhesion to VCAM-1 and FN in vitro. In a scintillation proximity assay DS70 displaced 125I-FN binding to human α4β1 integrin and, in flow cytometry analysis, it antagonized the binding of a primary antibody to α4β1 integrin expressed on the Jurkat cells surface as well. Furthermore, we analysed also its effects on integrin α4β1 signalling. In an vivo model of allergic conjunctivitis, topical DS70 reduced the clinical aspects of EPR (early phase reaction) and LPR (late phase reaction), by reducing clinical score, eosinophil accumulation, mRNA levels of cytochines and chemochines pro-inflammatory and the conjunctival expression of α4 integrin. In conclusion, DS70 seems a novel antiallergic ocular agent that has significant effects on both early and late phases of ocular allergy.
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Activity and mechanisms of action of novel organosulfur derivatives of the HDAC inhibitor Valproic Acid in human experimental models of non-small-cell lung cancer / Attivita' e meccanismo d'azione di nuovi istone-deacetilasi inibitori,derivati dall'ac. Valproico, rilascianti -h2s in modelli sperimentali di carcinoma polmonare umanoUlivi, Paola <1975> 07 April 2014 (has links)
Non-small-cell lung cancer (NSCLC) represents the leading cause of cancer death worldwide, and 5-year survival is about 16% for patients diagnosed with advanced lung cancer and about 70-90% when the disease is diagnosed and treated at earlier stages.
Treatment of NSCLC is changed in the last years with the introduction of targeted agents, such as gefitinib and erlotinib, that have dramatically changed the natural history of NSCLC patients carrying specific mutations in the EGFR gene, or crizotinib, for patients with the EML4-ALK translocation. However, such patients represent only about 15-20% of all NSCLC patients, and for the remaining individuals conventional chemotherapy represents the standard choice yet, but response rate to thise type of treatment is only about 20%. Development of new drugs and new therapeutic approaches are so needed to improve patients outcome.
In this project we aimed to analyse the antitumoral activity of two compounds with the ability to inhibit histone deacethylases (ACS 2 and ACS 33), derived from Valproic Acid and conjugated with H2S, in human cancer cell lines derived from NSCLC tissues.
We showed that ACS 2 represents the more promising agent. It showed strong antitumoral and pro-apoptotic activities, by inducing membrane depolarization, cytocrome-c release and caspase 3 and 9 activation. It was able to reduce the invasive capacity of cells, through inhibition of metalloproteinases expression, and to induce a reduced chromatin condensation. This last characteristic is probably responsible for the observed high synergistic activity in combination with cisplatin.
In conclusion our results highlight the potential role of the ACS 2 compound as new therapeutic option for NSCLC patients, especially in combination with cisplatin. If validated in in vivo models, this compound should be worthy for phase I clinical trials.
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Molecular approach to Neurodegenerative Disorders: Role of Nociceptin/Orphanin FQ - NOP System in Parkinson and Epigenetic Mechanism in Alzheimer's DiseaseBastías Candia, Sussy Del Carmen <1979> 23 January 2012 (has links)
With life expectancies increasing around the world, populations are getting age and neurodegenerative diseases have become a global issue. For this reason we have focused our attention on the two most important neurodegenerative diseases: Parkinson’s and Alzheimer’s. Parkinson’s disease is a chronic progressive neurodegenerative movement disorder of multi-factorial origin. Environmental toxins as well as agricultural chemicals have been associated with PD. Has been observed that N/OFQ contributes to both neurotoxicity and symptoms associated with PD and that pronociceptin gene expression is up-regulated in rat SN of 6-OHDA and MPP induced experimental parkinsonism. First, we investigated the role of N/OFQ-NOP system in the pathogenesis of PD in an animal model developed using PQ and/or MB. Then we studied Alzheimer's disease. This disorder is defined as a progressive neurologic disease of the brain leading to the irreversible loss of neurons and the loss of intellectual abilities, including memory and reasoning, which become severe enough to impede social or occupational functioning. Effective biomarker tests could prevent such devastating damage occurring. We utilized the peripheral blood cells of AD discordant monozygotic twin in the search of peripheral markers which could reflect the pathology within the brain, and also support the hypothesis that PBMC might be a useful model of epigenetic gene regulation in the brain. We investigated the mRNA levels in several genes involve in AD pathogenesis, as well DNA methylation by MSP Real-Time PCR. Finally by Western Blotting we assess the immunoreactivity levels for histone modifications. Our results support the idea that epigenetic changes assessed in PBMCs can also be useful in neurodegenerative disorders, like AD and PD, enabling identification of new biomarkers in order to develop early diagnostic programs.
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Sulforaphane as a multifunctional neuroprotective molecule to prevent and slow down the progression of Alzheimer’s diseaseBolondi, Cecilia <1982> 18 April 2012 (has links)
Oxidative stress has been implicated in the pathogenesis of a number of diseases including neurodegenerative disorders, cancer, ischemia, etc. Alzheimer’s disease (AD) is histopathologically characterized by the presence of extracellular senile plaque (SP), predominantly consisting of fibrillar amyloid-peptide (Aβ), intracellular neurofibrillary tangles (NFTs), composed of hyperphosphorylated tau protein, and cell loss in the selected regions of the brain. However, the pathogenesis of AD remains largely unknown, but a number of hypothesis were proposed for AD mechanisms, which include: the amyloid cascade, excitotoxicity, oxidative stress and inflammation hypothesis, and all of them are based, to some extent on the role of A. Accumulated evidence indicates that the increased levels of ROS may act as important mediators of synaptic loss and eventually promote formation of neurofibrillary tangles and senile plaques. Therefore a vicious circle between ROS and Aaccumulation may accelerate progression of AD.
For these reasons, growing attention has focused on oxidative mechanism of Atoxicity as well as the search for novel neuroprotective agents. A strategy to prevent the oxidative stress in neurons may be the use of chemopreventive agents as inducers of antioxidant and phase 2 enzymes. Sulforaphane (SF), derived from corresponding glucoraphanin, glucosinolate found in abundance in cruciferous vegetables, has recently gained attention as a potential neuroprotective compound inducer of antioxidant phase 2 enzymes. Consistent with this evidence, the study is aimed at identifying the SF ability to prevent and counteract the oxidative damage inducted by oligomers of Aβ (1-42) in terms of impairment in the intracellular redox state and cellular death in differentiated human neuroblastoma and microglia primary cultures. In addition we will evaluated the mechanism underlying the SF neuroprotection activity.
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