Lorenzo Drufuca scite author profile

Cancer is characterized by pervasive epigenetic alterations with enhancer dysfunction orchestrating the aberrant cancer transcriptional programs and transcriptional dependencies. Here, we epigenetically characterize human colorectal cancer (CRC) using de novo chromatin state discovery on a library of different patient-derived organoids. By exploring this resource, we unveil a tumor-specific deregulated enhancerome that is cancer cell-intrinsic and independent of interpatient heterogeneity. We show that the transcriptional coactivators YAP/TAZ act as key regulators of the conserved CRC gained enhancers. The same YAP/TAZ-bound enhancers display active chromatin profiles across diverse human tumors, highlighting a pan-cancer epigenetic rewiring which at single-cell level distinguishes malignant from normal cell populations. YAP/TAZ inhibition in established tumor organoids causes extensive cell death unveiling their essential role in tumor maintenance. This work indicates a common layer of YAP/TAZ-fueled enhancer reprogramming that is key for the cancer cell state and can be exploited for the development of improved therapeutic avenues.

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Effect of donepezil on the expression and responsiveness to LPS of CHRNA7 and CHRFAM7A in macrophages: A possible link to the cholinergic anti-inflammatory pathway

Maroli

Lascio

Drufuca

et al. 2019

Journal of Neuroimmunology

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Multi-Step Regulation of the TLR4 Pathway by the miR-125a~99b~let-7e Cluster

et al. 2018

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An appropriate immune response requires a tight balance between pro- and anti-inflammatory mechanisms. IL-10 is induced at late time-points during acute inflammatory conditions triggered by TLR-dependent recognition of infectious agents and is involved in setting this balance, operating as a negative regulator of the TLR-dependent signaling pathway. We identified miR-125a~99b~let-7e as an evolutionary conserved microRNA cluster late-induced in human monocytes exposed to the TLR4 agonist LPS as an effect of this IL-10-dependent regulatory loop. We demonstrated that microRNAs generated by this cluster perform a pervasive regulation of the TLR signaling pathway by direct targeting receptors (TLR4, CD14), signaling molecules (IRAK1), and effector cytokines (TNFα, IL-6, CCL3, CCL7, CXCL8). Modulation of miR-125a~99b~let-7e cluster influenced the production of proinflammatory cytokines in response to LPS and the IL-10-mediated tolerance to LPS, thus identifying this gene as a previously unrecognized major regulatory element of the inflammatory response and endotoxin tolerance.

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ALS lymphoblastoid cell lines as a considerable model to understand disease mechanisms

Pansarasa

Bordoni

Drufuca

et al. 2018

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In the past, amyotrophic lateral sclerosis (ALS) has been considered a ‘neurocentric’ disease; however, new evidence suggests that it should instead be looked at from a ‘multisystemic’ or ‘non-neurocentric’ point of view. From 2006, we focused on the study of non-neural cells: ALS patients’ peripheral blood mononuclear cells (PMBCs) and lymphoblastoid cell lines (LCLs). Here, we characterize LCLs of sporadic ALS (sALS) and patients carrying SOD1, TARDBP and FUS mutations to identify an ALS biologically relevant molecular signature, and determine whether and how mutations differentially affect ALS-linked pathways. Although LCLs are different from motor neurons (MNs), in LCLs we found some features typical of degenerating MNs in ALS, i.e. protein aggregation and mitochondrial dysfunction. Moreover, different gene mutations have different effects on ALS cellular mechanisms. TARDBP and FUS mutations imbalance mitochondrial dynamism toward increased fusion, whereas sALS and SOD1 mutations mainly affect fission. With regards to protein aggregation and/or mislocalization, TARDBP and SOD1 mutations show the presence of aggregates, whereas FUS mutation does not induce protein aggregation and/or mislocalization. Finally, all LCLs, independently from mutation, are not able to work in a condition of excessive energy request, suggesting that mitochondria from ALS patients are characterized by a significant metabolic defect. Taken together, these data indicate that LCLs could be a valid cellular model in ALS research in the identification and study of specific pathological pathways.

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Glucocorticoids downregulate TLR4 signaling activity via its direct targeting by miR‐511‐5p

et al. 2017

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Endotoxin tolerance assures proper regulation of the TLR4 signaling pathway and avoids uncontrolled inflammation, limiting tissue damage and endotoxin shock development. Though underlying molecular mechanisms are still undefined, evidence indicates the involvement of microRNAs, which represent a new layer of regulation of inflammatory pathways. Here, we report that LPS and other inflammatory stimuli repress miR-511-5p expression in human monocytes, while anti-inflammatory stimuli, such as TGF-β and glucocorticoids, have the opposite effect. MiR-511-5p levels selectively influenced cell activation when endotoxin was used, while biological activity of other TLR agonists was unaffected. Consistent with this, TLR4 was validated as the miR-511-5p direct target responsible for glucocorticoids- and TGF-β-mediated inhibition of pro-inflammatory cytokines production observed in endotoxin tolerant monocytes. MiR-511-5p thus acts as an intracellular mediator of glucocorticoids and TGF-β for the induction of endotoxin tolerance in human monocytes.

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Lorenzo Drufuca

Clonally expanded EOMES+ Tr1-like cells in primary and metastatic tumors are associated with disease progression

Epigenomic landscape of human colorectal cancer unveils an aberrant core of pan-cancer enhancers orchestrated by YAP/TAZ

Effect of donepezil on the expression and responsiveness to LPS of CHRNA7 and CHRFAM7A in macrophages: A possible link to the cholinergic anti-inflammatory pathway

Multi-Step Regulation of the TLR4 Pathway by the miR-125a~99b~let-7e Cluster

ALS lymphoblastoid cell lines as a considerable model to understand disease mechanisms

Glucocorticoids downregulate TLR4 signaling activity via its direct targeting by miR‐511‐5p

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