1,720,990 research outputs found
In vitro stability of Cucumber mosaic virus nanoparticles carrying a Hepatitis C virus-derived epitope under simulated gastrointestinal conditions and in vivo efficacy of an edible vaccine
No full textTRAP1 role in endoplasmic reticulum stress protection favors resistance to anthracyclins in breast carcinoma cells
No full textAdaptation to endoplasmic reticulum (ER) stress through the upregulation of the ER chaperone BiP/Grp78 favors resistance of cancer cells to anthracyclins. We recently demonstrated that the mitochondrial HSP90 chaperone TNF receptor-associated protein 1 (TRAP1) is also localized in the ER, where it is responsible for protection from ER stress and quality control on specific mitochondrial proteins contributing to its anti-apoptotic function and the regulation of the mitochondrial apoptotic pathway. Based on the evidence that Bip/Grp78 and TRAP1 are co-upregulated in about 50% of human breast carcinomas (BCs), and considering that the expression of TRAP1 is critical in favoring resistant phenotypes to different antitumor agents, we hypothesized that ER-associated TRAP1 is also favoring resistance to anthracyclins. Indeed, anthracyclins induce ER stress in BC cells and cross-resistance between ER stress agents and anthracyclins was observed in bortezomib- and anthracyclin-resistant cells. Several lines of evidence suggest a mechanistic link between the ER-stress protecting function of TRAP1 and resistance to anthracyclins: i) ER stress- and anthracyclin-resistant cell lines are characterized by the upregulation of TRAP1; ii) TRAP1 silencing in both drug-resistant cell models restored the sensitivity to bortezomib and anthracyclins; iii) the transfection of a TRAP1 deletion mutant, whose localization is restricted to the ER, in TRAP1 KD cells protected from apoptosis induced by anthracyclins; iv) the disruption of the ER-associated TRAP1/TBP7 pathway by a TBP7 dominant negative deletion mutant re-established drug sensitivity in drug-resistant cells. This process is likely mediated by the ability of TRAP1 to modulate the PERK pathway as TRAP1 KD cells failed to induce the phosphorylation of PERK in response to anthracyclins. Moreover, the downregulation of TRAP1 in combination with ER stress agents produced high cytotoxic effects in BC cells. These results suggest that ER-associated TRAP1 plays a role in protecting tumor cells against DNA damaging agents by modulating the PERK pathway
TRAP1 role in endoplasmic reticulum stress protection favors resistance to anthracyclins in breast carcinoma cells
No full textNovel epigenetic drivers of drug resistance linked to gene expression modulation in colorectal carcinomas: preliminary analysis.
No full textMetabolic Dysregulations and Epigenetics: A Bidirectional Interplay that Drives Tumor Progression
No full textCancer has been considered, for a long time, a genetic disease where mutations in keyregulatory genes drive tumor initiation, growth, metastasis, and drug resistance. Instead, theadvent of high-throughput technologies has revolutionized cancer research, allowing to investigatemolecular alterations at multiple levels, including genome, epigenome, transcriptome, proteome,and metabolome and showing the multifaceted aspects of this disease. The multi-omics approachesrevealed an intricate molecular landscape where different cellular functions are interconnected andcooperatively contribute to shaping the malignant phenotype. Recent evidence has brought to lighthow metabolism and epigenetics are highly intertwined, and their aberrant crosstalk can contributeto tumorigenesis. The oncogene-driven metabolic plasticity of tumor cells supports the energeticand anabolic demands of proliferative tumor programs and secondary can alter the epigeneticlandscape via modulating the production and/or the activity of epigenetic metabolites. Conversely,epigenetic mechanisms can regulate the expression of metabolic genes, thereby altering themetabolome, eliciting adaptive responses to rapidly changing environmental conditions, andsustaining malignant cell survival and progression in hostile niches. Thus, cancer cells takeadvantage of the epigenetics-metabolism crosstalk to acquire aggressive traits, promote cellproliferation, metastasis, and pluripotency, and shape tumor microenvironment. Understandingthis bidirectional relationship is crucial to identify potential novel molecular targets for theimplementation of robust anti-cancer therapeutic strategies
Endoplasmic reticulum stress and unfolded protein response in breast cancer: The balance between apoptosis and autophagy and its role in drug resistance
No full textThe unfolded protein response (UPR) is a stress response activated by the accumulation of unfolded or misfolded proteins in the lumen of the endoplasmic reticulum (ER) and its uncontrolled activation is mechanistically responsible for several human pathologies, including metabolic, neurodegenerative, and inflammatory diseases, and cancer. Indeed, ER stress and the downstreamUPR activation lead to changes in the levels and activities of key regulators of cell survival and autophagy and this is physiologically finalized to restore metabolic homeostasis with the integration of pro-death or/and pro-survival signals. By contrast, the chronic activation of UPR in cancer cells is widely considered a mechanismof tumor progression. In this review,we focus on the relationship between ER stress, apoptosis, and autophagy in human breast cancer and the interplay between the activation of UPR and resistance to anticancer therapies with the aimto disclose novel therapeutic scenarios. The hypothesis that autophagy and UPRmay provide novelmolecular targets in humanmalignancies is discussed
Sviluppo in piante di nuove strategie di immunizzazione orale per la malattia di Alzheimer (AD). Ricerca, innovazione e sviluppo nelle biotecnologie agro-alimentari
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Circulating tumor cells: Utopia or reality?
No full textCirculating tumor cells (CTCs) could be considered a sign of tumor aggressiveness, but highly sensitive and specific methods of CTC detection are necessary owing to the rarity and heterogeneity of CTCs in peripheral blood. This review summarizes recent studies on tumor biology, with particular attention to the metastatic cascade, and the molecular characterization and clinical significance of CTCs. Recent technological approaches to enrich and detect these cells and challenges of CTCs for individualized cancer treatment are also discussed. This review also provides an insight into the positive and negative features of the future potential applications of CTC detection, which sometimes remains still a 'utopia, but its actual utility remains among the fastest growing research fields in oncology. © 2013 Future Medicine Ltd
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