10 research outputs found

    Extracellular Vesicles and Epidermal Growth Factor Receptor Activation: Interplay of Drivers in Cancer Progression

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    Extracellular vesicles (EVs) are of great interest to study the cellular mechanisms of cancer development and to diagnose and monitor cancer progression. EVs are a highly heterogeneous population of cell derived particles, which include microvesicles (MVs) and exosomes (EXOs). EVs deliver intercellular messages transferring proteins, lipids, nucleic acids, and metabolites with implications for tumour progression, invasiveness, and metastasis. Epidermal Growth Factor Receptor (EGFR) is a major driver of cancer. Tumour cells with activated EGFR could produce EVs disseminating EGFR itself or its ligands. This review provides an overview of EVs (mainly EXOs and MVs) and their cargo, with a subsequent focus on their production and effects related to EGFR activation. In particular, in vitro studies performed in EGFR-dependent solid tumours and/or cell cultures will be explored, thus shedding light on the interplay between EGFR and EVs production in promoting cancer progression, metastases, and resistance to therapies. Finally, an overview of liquid biopsy approaches involving EGFR and EVs in the blood/plasma of EGFR-dependent tumour patients will also be discussed to evaluate their possible application as candidate biomarkers

    Aberrant MET activation impairs perinuclear actin cap organization with YAP1 cytosolic relocation

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    : Little is known about the signaling network responsible for the organization of the perinuclear actin cap, a recently identified structure holding unique roles in the regulation of nuclear shape and cell directionality. In cancer cells expressing a constitutively active MET, we show a rearrangement of the actin cap filaments, which crash into perinuclear patches associated with spherical nuclei, meandering cell motility and inactivation of the mechano-transducer YAP1. MET ablation is sufficient to reactivate YAP1 and restore the cap, leading to enhanced directionality and flattened nuclei. Consistently, the introduction of a hyperactive MET in normal epithelial cells, enhances nuclear height and alters the cap organization, as also confirmed by TEM analysis. Finally, the constitutively active YAP1 mutant YAP5SA is able to overcome the effects of oncogenic MET. Overall, our work describes a signaling axis empowering MET-mediated YAP1 dampening and actin cap misalignment, with implications for nuclear shape and cell motility

    Studio dell'autofagia come meccanismo patogenetico della Neuropatia Ottica Ereditaria di Leber

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    Questo elaborato di tesi presenta uno studio volto a identificare il ruolo dell’autofagia nella patogenesi della neuropatia ottica ereditaria di Leber (LHON), una patologia neurodegenerativa mitocondriale dovuta a mutazioni nel mtDNA. Tali mutazioni generano difetti nella catena respiratoria, nelle vie apoptotiche mediate dai mitocondri e nella produzione di ROS; dati preliminari hanno dimostrato una correlazione tra le mutazioni LHON e l’omeostasi mitocondriale, regolata dai processi contrapposti di autofagia e mitobiogenesi. Secondo questa ipotesi, le alterazioni LHON aumentano il flusso autofagico soprattutto negli individui affetti, mentre i portatori di mutazione sani (carrier) risultano protetti da un importante incremento nella mitobiogenesi che agisce da meccanismo compensatorio. È stata dunque caratterizzata tramite Western Blotting l’espressione proteica di due marker autofagici, LC3 e p62, in PBMCs (Peripheral Blood Mononuclear Cells) estratte da pazienti LHON, affetti e carrier, e individui di controllo. Sono stati inoltre quantificati i livelli cellulari di due proteine della membrana interna mitocondriale, COX IV e SDHA, al fine di valutare la massa mitocondriale come parametro di confronto rispetto ai livelli di autofagia. È stata infine analizzata l’influenza dell’idebenone sull’autofagia e sulla massa mitocondriale, confrontando pazienti affetti in terapia con questo farmaco e pazienti affetti non trattati. Lo studio ha in parte avvalorato i risultati preliminari; l’elevata variabilità riscontrata porta però all’esigenza, nelle analisi future, di una maggiore campionatura, nonché di indagini di diversa natura condotte in parallelo per validare i risultati

    Aberrant c-MET activation impairs perinuclear actin cap organization with YAP1 cytosolic relocation

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    Growing evidence indicates that cell and nuclear deformability plays a crucial role in the determination of cancer cells tumorigenic and metastatic potential. The perinuclear actin cap, by wrapping the nucleus with a functional network of actomyosin cables, can modulate nuclear architecture and consequently cell/nuclear elasticity. The hepatocyte growth factor receptor (MET) stands out among other membrane receptors as crucial player of the actin filaments organization, but no data are available on a specific role for MET in the actin cap assembly and the overall nuclear architecture organization. In a cell system characterized by MET hyperactivation, we observed a strong rearrangement of the cellular actin caps, with a complete dismantling of apical stress fibers and a strikingly enhanced nuclear height. CRISPR/Cas9 silencing of MET completely reverted the aberrant phenotype, resulting in flattened cells with perfectly aligned perinuclear actomyosin bundles, as well as decreased MAPK and PI3K/AKT signaling, cell proliferation rate and aggressiveness. Interestingly, MET ablated cells acquired a remarkably directed and polarized migratory phenotype, contrarily to cells with MET sustained activation showing meandering random walk. A pathway enrichment analysis comparing MET-activated and MET-KO cells RNAseq data, unveiled the contribution of multiple pathways associated with cytoskeleton remodeling, regulation of cell shape and response to mechanical stimuli. In line, the co-transcriptional activator YAP1, playing a major role in cell mechanosensing and focal adhesions/actin stabilization, appeared the culprit of the genetic reassembling of KO cells. Indeed, MET silencing was shown to induce YAP1 nuclear shuttling and increased co-transcriptional activity. Finally, we were able to induce in a normal epithelial model a phenotype closer to MET activated cancer cells only by introducing a constitutive fusion protein of MET. Taken together, our results demonstrate a new mechanism of MET-mediated actin remodeling responsible for a tumor-initiating capacity and meandering random migration, which requires YAP1 inactivation

    A novel role for interleukin 1 axis in the resistance to EGFR targeting antibody

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    Background Cetuximab (CTX) is a monoclonal antibody targeting the Epidermal Growth Factor Receptor (EGFR), which is commonly utilized to treat patients with metastatic colorectal cancer (mCRC). Unfortunately, clinicians often observe a residual disease, with a population of cells surviving the treatment and eventually enabling CTX resistance. Our previous studies, performed with a cohort of 150 CRC xenopatients, associated poor response to CTX with increased abundance of a set of pro-inflammatory cytokines, including IL-1A, IL-1B and IL-8. IL-1 has been reported in the promotion of Senescence Associated Secretory Phenotype (SASP). Stemming from these observations, our current work aims to assess the effect of IL-1 pathway in CTX mediated senescence and resistance. Methods We employed a recombinant decoy (IL-1R1 TRAP), namely a soluble protein combining the human immunoglobulin Fc portion linked to the extracellular region of IL1-receptor, with the ability to sequester IL1 directly from the medium. We generated stable clones expressing a functional IL-1R1 TRAP, and tested the effects on proliferation of cancer cells growing both as monolayer and as 3D colonospheres. Next, the action of IL-1R1 TRAP decoy on EGFR downstream signalling pathways has been evaluated by analyses of MAPK and AKT axes. Results The analysis of colorectal cancer patients' datasets revealed that high levels of IL-1 receptor correlate with poor survival, specifically for the consensus molecular subtype 1 (CMS1). Next, mCRC patients not responding to CTX blockage, display higher level of IL-1R1 compared to the responsive ones. Furthermore, we found that IL-1R1 inhibition leads to decreased proliferation of colorectal cancer cells as consequence of a dampened MAPK and AKT signalling activation. Mechanistically, we show that CTX leads to a post-senescent phenotype as detected by bgalactosidase, HP1-g and p21 markers and stemness traits. Conclusions We are currently working on dissecting the contribution of IL1 signalling in resistance to CTX, as a consequence of the post-senescent phenotype. We conclude that IL1 signalling inhibition may represent a new therapeutic strategy suitable for patients who acquired refractoriness to EGFR targeted antibody therapy

    Colorectal cancer screening: Assessment of CEACAM6, LGALS4, TSPAN8 and COL1A2 as blood markers in faecal immunochemical test negative subjects

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    Prevention is essential to reduce Colorectal Cancer (CRC) mortality. We previously reported a panel of four genes: CEACAM6, LGALS4, TSPAN8, COL1A2 (CELTiC) able to discriminate patients with CRC. Here, we assessed the CELTiC panel by quantitative polymerase chain reaction, in the blood of 174 healthy subjects, who resulted negative to the faecal immunochemical test (FITN). Using non-parametric statistic and multinomial logistic models, the FITN were compared to previously analysed subjects: 36 false positive FIT (NFIT), who were negative at colonoscopy, 36 patients with low risk lesions (LR) and 92 patients with high risk lesions or CRC (HR/CRC). FITN showed a significantly lower expression of the four genes when compared to HR/CRC. Moreover, FITN showed a significantly lower expression of TSPAN8 and COL1A2 compared to NFIT and LR patients. The multinomial logistic model confirmed that TSPAN8 alone specifically discriminated FITN from NFIT, LR and HR/CRC, while LGALS4 was able to differentiate FITN from false positive FIT. Finally, ROC curves analysis of the comparisons between FITN and HR/CRC, LR or NFIT reported AUC greater than 0.87, with a sensitivity and specificity of 83% and 76%, respectively. The CELTiC panel was confirmed a useful tool to identify CRC patients and to discriminate false FIT positive subjects

    Glucocorticoid Receptor Modulates EGFR Feedback upon Acquisition of Resistance to Monoclonal Antibodies

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    Evidences of a crosstalk between Epidermal Growth Factor Receptor (EGFR) and Glucocorticoid Receptor (GR) has been reported, ranging from the modulation of receptor levels or GR mediated transcriptional repression of EGFR target genes, with modifications of epigenetic markers. The present study focuses on the involvement of EGFR positive and negative feedback genes in the establishment of cetuximab (CTX) resistance in metastatic Colorectal Cancer (CRC) patients. We evaluated the expression profile of the EGFR ligands TGFA and HBEGF, along with the pro-inflammatory cytokines IL-1B and IL-8, which were previously reported to be negatively associated with monoclonal antibody response, both in mice and patient specimens. Among EGFR negative feedback loops, we focused on ERRFI1, DUSP1, LRIG3, and LRIG1. We observed that EGFR positive feedback genes are increased in CTX-resistant cells, whereas negative feedback genes are reduced. Next, we tested the expression of these genes in CTX-resistant cells upon GR modulation. We unveiled that GR activation leads to an increase in ERRFI1, DUSP1, and LRIG1, which were shown to restrict EGFR activity, along with a decrease in the EGFR activators (TGFA and IL-8). Finally, in a cohort of xenopatients, stratified for response to cetuximab, we observed an inverse association between the expression level of LRIG1 and CRC progression upon CTX treatment. Our model implies that combining GR modulation to EGFR inhibition may yield an effective treatment strategy in halting cancer progression

    Roles of IL-1 in Cancer: From Tumor Progression to Resistance to Targeted Therapies

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    IL-1 belongs to a family of 11 members and is one of the seven receptor-agonists withpro-inflammatory activity. Beyond its biological role as a regulator of the innate immune response,IL-1 is involved in stress and chronic inflammation, therefore it is responsible for several pathologicalconditions. In particular, IL-1 is known to exert a critical function in malignancies, influencing thetumor microenvironment and promoting cancer initiation and progression. Thus, it orchestratesimmunosuppression recruiting pro-tumor immune cells of myeloid origin. Furthermore, new recentfindings showed that this cytokine can be directly produced by tumor cells in a positive feedback loopand contributes to the failure of targeted therapy. Activation of anti-apoptotic signaling pathwaysand senescence are some of the mechanisms recently proposed, but the role of IL-1 in tumor cellsrefractory to standard therapies needs to be further investigated
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