121 resultados para Récepteur de cellule T

em AMS Tesi di Dottorato - Alm@DL - Università di Bologna


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La letteratura scientifica degli ultimi anni si è arricchita di un numero sempre crescente di studi volti a chiarire i meccanismi che presiedono ai processi di homing di cellule staminali emopoietiche e del loro attecchimento a lungo termine nel midollo osseo. Tali fenomeni sembrano coinvolgere da un lato, l’interazione delle cellule staminali emopoietiche con la complessa architettura e componente cellulare midollare, e dall’altro la riposta ad un’ampia gamma di molecole regolatrici, tra le quali chemochine, citochine, molecole di adesione, enzimi proteolitici e mediatori non peptidici. Fanno parte di quest’ultimo gruppo anche i nucleotidi extracellulari, un gruppo di molecole-segnale recentemente caratterizzate come mediatori di numerose risposte biologiche, tra le quali l’allestimento di fenomeni flogistici e chemiotattici. Nel presente studio è stata investigata la capacità dei nucleotidi extracellulari ATP ed UTP di promuovere, in associazione alla chemochina CXCL12, la migrazione di cellule staminali umane CD34+. E’ così emerso che la stimolazione con UTP è in grado di incrementare significativamente la migrazione dei progenitori emopoietici in risposta al gradiente chemioattrattivo di CXCL12, nonché la loro capacità adesiva. Le analisi citofluorimetriche condotte su cellule migranti sembrano inoltre suggerire che l’UTP agisca interferendo con le dinamiche di internalizzazione del recettore CXCR4, rendendo così le cellule CD34+ maggiormente responsive, e per tempi più lunghi, al gradiente attrattivo del CXCL12. Saggi di homing competitivo in vivo hanno parallelamente mostrato, in topi NOD/SCID, che la stimolazione con UTP aumenta significativamente la capacità dei progenitori emopoeitci umani di localizzarsi a livello midollare. Sono state inoltre indagate alcune possibili vie di trasduzione del segnale attivate dalla stimolazione di recettori P2Y con UTP. Esperimenti di inibizione in presenza della tossina della Pertosse hanno evidenziato il coinvolgimento di proteine Gαi nella migrazione dipendente da CXCL12 ed UTP. Ulteriori indicazioni sono provenute dall’analisi del profilo trascrizionale di cellule staminali CD34+ stimolate con UTP, con CXCL12 o con entrambi i fattori contemporaneamente. Da questa analisi è emerso il ruolo di proteine della famiglia delle Rho GTPasi e di loro effettori a valle (ROCK 1 e ROCK 2) nel promuovere la migrazione UTP-dipendente. Questi dati sono stati confermati successivamente in vitro mediante esperimenti con Tossina B di C. Difficile (un inibitore delle Rho GTPasi) e con Y27632 (in grado di inibire specificatamente le cinasi ROCK). Nel complesso, i dati emersi in questo studio dimostrano la capacità del nucleotide extracellulare UTP di modulare la migrazione in vitro di progenitori emopoietici umani, nonché il loro homing midollare in vivo. L’effetto dell’UTP su questi fenomeni si esplica in concerto con la chemochina CXCL12, attraverso l’attivazione concertata di vie di trasduzione del segnale almeno parzialmente condivise da CXCR4 e recettori P2Y e attraverso il reclutamento comune di proteine ad attività GTPasica, tra le quali le proteine Gαi e i membri della famiglia delle Rho GTPasi.

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Uric acid is a major inducer of inflammation in renal interstitium and may play a role in the progression of renal damage in hyperuricemic subjects with primary nephropathies, renal vascular disease, and essential hypertension. At the same time, UA also acts as a water-soluble scavenger of reactive oxygen species. We evaluated the cellular effects of UA on cultured HMC as a potential interstitial target for abnormally elevated levels in acute and chronic renal disease. Intracellular free Ca2+ ([Ca2+]i) was monitored by microfluorometry of fura 2-loaded cells, while oxidation of intracellularly trapped non-fluorescent 2’,7’-dichlorofluorescein diacetate (DCFHDA, 20 uM) was employed to assess the generation of reactive oxygen species during 12-hr incubations with various concentrations of UA or monosodium urate. Fluorescent metabolites of DCFH-DA in the culture media of HMC were detected at 485/530 nm excitation/emission wavelengths, respectively. UA dose-dependently lowered resting [Ca2+]i (from 102±9 nM to 95±3, 57±2, 48±6 nM at 1-100 uM UA, respectively, p <0.05), leaving responses to vasoconstrictors such as angiotensin II unaffected. The effect was not due to Ca2+/H+ exchange upon acidification of the bathing media, as acetate, glutamate, lactate and other organic acids rather increased [Ca2+]i (to max. levels of 497±42 nM with 0.1 mM acetate). The decrease of [Ca2+]i was abolished by raising extracellular Ca2+ and not due to effects on Ca2+ channels or activation of Ca2+-ATPases, since unaffected by thapsigargin. The process rather appeared sensitive to removal of extracellular Na+ in combination with blockers of Na+/Ca2+ exchange, such as 2’,4’-dichlorobenzamil, pointing to a countertransport mechanism. UA dose-dependently prompted the extracellular release of oxidised DCFH (control 37±2 relative fluorescence units (RFU)/ml, 0.1uM 47±2, 1 uM 48±2, 10 uM 51±4, 0.1 mM 53±4; positive control, 10 uM sodium nitroprusside 92±5 RFU/ml, p<0.01). In summary, UA interferes with Ca2+ transport in cultured HMC, triggering oxidative stress which may initiate a sequence of events leading to interstitial injury and possibly amplifying renal vascular damage and/or the progression of chronic disease.

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The Clusterin (CLU) gene produces different forms of protein products which vary in their biological properties and distribution within the cell. Both the extra- and intracellular CLU forms regulate cell proliferation and apoptosis. Dis-regulation of CLU expression occurs in many cancer types, including prostate cancer. The role that CLU plays in tumorigenesis is still unclear. We found that CLU over-expression inhibited cell proliferation and induced apoptosis in prostate cancer cells. Here we show that depletion of CLU affects the growth of PC-3 prostate cancer cells. Following siRNA, all protein products quickly disappeared, inducing cell cycle progression and higher expression of specific proliferation markers (i.e. H3 mRNA, PCNA and cyclins A, B1 and D) as detected by RT-qPCR and Western blot. Quite surprisingly, we also found that the turnover of CLU protein is very rapid and tightly regulated by ubiquitin–proteasome mediated degradation. Inhibition of protein synthesis by cycloheximide showed that CLU half-life is less than 2 hours. All CLU protein products were found poly-ubiquitinated by co-immuniprecipitation. Proteasome inhibition by MG132 caused stabilization and accumulation of all CLU protein products, strongly inducing the nuclear form of CLU (nCLU) and committing cells to caspase-dependent death. In conclusion, proteasome inhibition may induce prostate cancer cell death through accumulation of nCLU, a potential tumour suppressor factor.

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Oxidative stress is considered to be of major relevance for a variety of pathological processes. Thus, it is valuable to identify compounds, which might act as antioxidants, i.e. compounds that antagonize the deleterious action of reactive oxygen species (ROS) on biomolecules. The mode of action of these compounds could be either to scavenge ROS directly or to trigger protective mechanisms inside the cell, thereby resulting in improved defense against ROS. Sulforaphane (SF) (1-isothiocyanato-(4R)-(methylsulfinyl)butane) is a naturally occurring cancer chemopreventive agent found as a precursor glucosinolate in Cruciferous vegetables like broccoli. Although SF is not a direct-acting antioxidant, there is substantial evidence that SF acts indirectly to increase the antioxidant capacity of animal cells and their abilities to cope with oxidative stress. Induction of phase 2 enzymes is one means by which SF enhances the cellular antioxidant capacity. Enzymes induced by SF include Glutathione S-transferases (GST) and NAD[P]H:quinone oxidoreductase (NQO1) which can function as protectors against oxidative stress. To protect themselves from oxidative stress, cells are equipped with reducing buffer systems including the GSH and thioredoxin (Trx) reductase. GSH is an important tripeptide thiol which in addition to being the substrate for GSTs maintains the cellular oxidation– reduction balance and protects cells against free radical species. Aim of the first part of this thesis was to investigate the ability of SF to induce the expression and the activity of different phase 2 and antioxidant enzymes (such as GST, GR, GPx, NQO1, TR, SOD, CAT) in an in vitro model of rat cardiomyocytes, and also to define if SF treatment supprts cells in counteracting oxidative stress induced by H2O2 It is well known that acute exhaustive exercise causes significant reactive oxygen species generation that results in oxidative stress, which can induce negative effects on health and well being. In fact, increased oxidative stress and biomarkers (e.g., protein carbonyls, MDA, and 8- hydroxyguanosine) as well as muscle damage biomarkers (e.g. plasmatic Creatine cinase and Lactate dehydrogenase) have been observed after supramaximal sprint exercises, exhaustive longdistance cycling or running as well as resistance-type exercises, both in trained and untrained humans. Markers of oxidative stress also increase in rodents following exhaustive exercise. Moreover, antioxidant enzyme activities and expressions of antioxidant enzymes are known to increase in response to exhaustive exercise in both animal and human tissues. Aim of this project was to evaluate the effect of SF supplementation in counteracting oxidative stress induced by physical activity through its ability to induce phase 2, and antioxidant enzymes in rat muscle. The results show that SF is a nutraceutical compound able to induce the activity of different phase 2 and antioxidant enzymes in both cardiac muscle and skeletal muscle. Thanks to its actions SF is becoming a promising molecule able to prevent cardiovascular damages induced by oxidative stress and muscle damages induced by acute exhaustive exercise.

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In the era of monoclonal antibodies the role of autologous stem cell transplantation (ASCT) in the management of follicular lymphoma (FL) is still debated. To evaluate the safety and efficacy of myeloablative therapy with rescue of purged or unpurged harvests in FL pts. At our institution form 1997 to 2007 28 pts with refractory/resistant FL were eligible for ASCT. Before high dose therapy they received 2-3 cycles of CHOP-like regimen (ACOD), followed by Cyclophosphamide 4g/mq to mobilize the stem cells (SC). After SC collection the pts underwent 3 cycles of subcutaneous Cladribine at a daily dose of 0,14-0,10 mg/Kg for Day 1-5 every 3-4 weeks. The conditioning regimen was based on Mitoxantrone 60mg/mq + Melphalan 180 mg/mq, followed by SC re-infusion 24-hours later and G-CSF starting 24 hours after re-infusion. In 19 pts the SC underwent purging: in 10 harvests the CD34+ were selected by immunomagnetic beads, while in the other 9 pts, only Rituximab was used as “purging in vivo” agent. The remaining 9 pts received unpurged SC. Before ASCT 11 pts were in complete response (CR), 9 in partial response (PR) and 2 in stable disease. Two pts were not eligible for ASCT because of progressive disease (PD). The remaining 25 pts were eligible for ASCT. The engraftment was at a median of 11 days for leucocytes and 14 days for platelets (>20.000/mmc), with a delay of one day in the pts, who received purged SC. Grade 3-4 mucositis was described in 8 pts. During aplasia a 48% infection rate was reported, without differences between pts with purged or unpurged SC. One patient in CR presented myelodysplastic syndrome at 18 months from ASCT. After ASCT 22 pts were in CR, 2 in PR and one patient were not valuable, because died before response assessment. Nine pts in CR showed PD at a median time of 14 months from ASCT. With a median follow up of 5 years (range 2 months -10 years), 22 pts are alive and 11 (44%) in CR. Ten pts died, 5 for progressive disease and 5 for treatment-related causes; in particular 7 of them received in-vitro purged SC. Conclusions: Our chemotherapy regimen, which included the purine analogue Cladribine in the induction phase, seems safe and feasible. The high rate of CR reported and the sustained freedom from progression up to now, makes such modality of treatment a valid option principally in relapsing FL patients. In our experience, the addition of a monoclonal antibody as part of treatment confirms its role “in vivo purging” without observing an increased incidence of infection.

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The cytotoxicity of dental composites has been attributed to the release of residual monomers from polymerized adhesive systems due to degradation processes or the incomplete polymerization of materials. 2-Hydroxyethyl methacrylate (HEMA) is one of the major components released from dental adhesives. Cytotoxic effects due to high concentrations of HEMA have already been investigated, but the influence of minor toxic concentrations for long-term exposition on specific proteins such as type I collagen and tenascin has not been studied in depth. The objective of this project was to study the effect of minor toxic concentrations of HEMA on human gingival fibroblasts (HGFs) and human pulp fibroblasts (HPFs), investigating modification in cell morphology, cell viability, and the influence on type I collagen and tenascin proteins. Different concentrations of the resin monomer and different times of exposition were tested on both cell lines. The cell vitality was determined by MTT assay, and high-resolution scanning electron microscopy analysis was performed to evaluate differences in cell morphology before and after treatment. To evaluate the variability in the expression and synthesis of procollagen α1 type I and tenascin proteins on HGFs and HPFs treated with HEMA at different concentrations immunofluorescence, RT-PCR and western blot analysis, were carried out. The treatments on HGFs with 3mmol/L HEMA, showed a strong reduction of procollagen α1 type I protein at 72h and 96h, demonstrating that HEMA interferes both with the synthesis of the procollagen α1 type I protein and its mRNA expression. The results obtained on HPFs treated with different concentrations of HEMA ranging from 0,5mmol/L to 3mmol/L and for different exposition times showed a strong reduction in cell viability in specimens treated for 96h and 168h, while immunofluorescence and western blotting analysis demonstrated a reduction of procollagen α1 type I and an overexpression of tenascin protein. In conclusion, our results showed that the concentrations of HEMA we tested, effect the normal cell production and activity, such as the synthesis of some dental extracellular matrix proteins.

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Background. Mesenchymal stem cells (MSC) may be of value in regeneration of renal tissue after damage, however lack of biological knowledge and variability of results in animal models limit their utilization. Methods. We studied the effects of MSC on podocytes ‘in vitro’ and ‘in vivo’ utilizing adriamycin (ADR) as a model of renal toxicity. The ‘in vivo’ experimental approach was carried out in male Sprague Dawley rats (overall 60 animals) treated with different ADR schemes to induce acute and chronic nephrosis. MSC were given a) concomitantly to ADR in tail vein or b) in aorta and c) in tail vein 60 days after ADR. Homing was assessed with PKH26-MSC. Results. MSC rescued podocytes from apoptosis induced by ADR ‘in vitro’. The maximal effect (80% rescue) was obtained with MSC/Podocytes co-culture ratio of 1:1 for 72 hours. All rats treated with ADR developed nephrosis. In no case MSC modified the clinical parameters (i.e. proteinuria, serum creatinine, lipids) but protected the kidney from severe glomerulosclerosis when given concomitantly to ADR. Rats given MSC 60 days after ADR developed the same severe renal damage. Only few MSC were found in renal tubule-interstitial areas after 1-24 hours from injection and no MSC was detected in glomeruli. Conclusions. MSC reduced apoptosis of podocytes treated with ADR ‘in vitro’. Early and repeated MSC infusion blunted glomerular damage in chronic ADR nephropathy. MSC did not modify proteinuria and progression to renal failure, that implies lack of regenerative potential in this model.

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The effector function of natural killer (NK) cells is regulated by activating and inhibitory receptors, termed killer immunoglobulin-like receptors (KIRs). In haploidentical T-cell depleted transplantation the donor/recipient KIR mismatch significantly impacts on NK-mediated tumor cell killing, particularly in acute myeloid leukaemia (AML). Thirty-four high risk AML patients entered a phase I-II study of adoptive NK-cell based immunotherapy and were screened for the availability of one haploidentical KIR ligand mismatched donor. Thirteen of them resulted as having one suitable donor. NK cells were enriched from steady-state leukaphereses by using a double-step immunomagnetic separation system, consisting in depletion of CD3+ T cells followed by positive selection of CD56+ NK cells. CD56+ cells were enriched from 7,70% (1,26-11,70) to 93,50% (66,41-99,20) (median recovery 53,05% (30,97-72,85), median T-depletion 3,03 log (2,15-4,52) viability >92%) and their citotoxic activity was inalterate. All patients (4 progressions, 1 partial remission and 8 complete remissions) received NK cell infusion which was preceeded by immunosuppressive chemotherapy (fludarabine and cyclophosphamide) and followed by interleukin 2 injections. The median number of reinfused NK cells was 2,74x10(e)6/kg(1,11-5,00) and contamining CD3+ T cells were always less than 1x10(e)5/kg. The procedure was well-tolerated and no significant toxicity, including GvHD, related to NK cell infusion was observed. The donor NK cells were demonstrated in 5/10 patients. Among the 8 patients in complete remission 5 patients are stable after 18, 15, 4, 2 months of follow-up. Three other patients relapsed after 2 and 7 months. The patient in partial remission obtained a complete remission, which lasted for 6 months. The 4 patients with active/progressive disease showed the persistence of disease. This clinical observation may be correlated with in vitro studies, indicating that AML cells are capable to induce NK cell apoptosis in a dose-depend manner. In summery, a two-step enrichment of CD56+ NK cells allows the collection of a suitable number of target cells to be used as adoptive immunotherapy in AML patients. Infusion of NK cells is feasible and safe and adoptively transferred NK cells can be detected after infusion.