Guglielmo Bove scite author profile

The OFD1 protein is necessary for the formation of primary cilia and left–right asymmetry establishment but additional functions have also been ascribed to this multitask protein. When mutated, this protein results in a variety of phenotypes ranging from multiorgan involvement, such as OFD type I (OFDI) and Joubert syndromes (JBS10), and Primary ciliary dyskinesia (PCD), to the engagement of single tissues such as in the case of retinitis pigmentosa (RP23). The inheritance pattern of these condition differs from X‐linked dominant male‐lethal (OFDI) to X‐linked recessive (JBS10, PCD, and RP23). Distinctive biological peculiarities of the protein, which can contribute to explain the extreme clinical variability and the genetic mechanisms underlying the different disorders are discussed. The extensive spectrum of clinical manifestations observed in OFD1‐mutated patients represents a paradigmatic example of the complexity of genetic diseases. The elucidation of the mechanisms underlying this complexity will expand our comprehension of inherited disorders and will improve the clinical management of patients.

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CBX2 shapes chromatin accessibility promoting AML via p38 MAPK signaling pathway

Gaudio

Costanzo

Liu

et al. 2022

Mol Cancer

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Background The dynamic epigenome and proteins specialized in the interpretation of epigenetic marks critically contribute to leukemic pathogenesis but also offer alternative therapeutic avenues. Targeting newly discovered chromatin readers involved in leukemogenesis may thus provide new anticancer strategies. Accumulating evidence suggests that the PRC1 complex member CBX2 is overexpressed in solid tumors and promotes cancer cell survival. However, its role in leukemia is still unclear. Methods We exploited reverse genetic approaches to investigate the role of CBX2 in human leukemic cell lines and ex vivo samples. We also analyzed phenotypic effects following CBX2 silencing using cellular and molecular assays and related functional mechanisms by ATAC-seq and RNA-seq. We then performed bioinformatic analysis of ChIP-seq data to explore the influence of histone modifications in CBX2-mediated open chromatin sites. Lastly, we used molecular assays to determine the contribution of CBX2-regulated pathways to leukemic phenotype. Results We found CBX2 overexpressed in leukemia both in vitro and ex vivo samples compared to CD34+ cells. Decreased CBX2 RNA levels prompted a robust reduction in cell proliferation and induction of apoptosis. Similarly, sensitivity to CBX2 silencing was observed in primary acute myeloid leukemia samples. CBX2 suppression increased genome-wide chromatin accessibility followed by alteration of leukemic cell transcriptional programs, resulting in enrichment of cell death pathways and downregulation of survival genes. Intriguingly, CBX2 silencing induced epigenetic reprogramming at p38 MAPK-associated regulatory sites with consequent deregulation of gene expression. Conclusions Our results identify CBX2 as a crucial player in leukemia progression and highlight a potential druggable CBX2-p38 MAPK network in AML.

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Epigenetic alterations in glioblastomas: Diagnostic, prognostic and therapeutic relevance

Montella¹,

Cuomo

Gaudio

et al. 2022

Intl Journal of Cancer

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Glioblastoma, the most common and heterogeneous tumor affecting brain parenchyma, is dismally characterized by a very poor prognosis. Thus, the search of new, more effective treatments is a vital need. Here, we will review the druggable epigenetic features of glioblastomas that are, indeed, currently explored in preclinical studies and in clinical trials for the development of more effective, personalized treatments. In detail, we will review the studies that have led to the identification of epigenetic signatures, IDH mutations, MGMT gene methylation, histone modification alterations, H3K27 mutations and epitranscriptome landscapes of glioblastomas, in each case discussing the corresponding targeted therapies and their potential efficacy. Finally, we will emphasize how recent technological improvements permit to routinely investigate many glioblastoma epigenetic biomarkers in clinical practice, further enforcing the hope that personalized drugs, targeting specific epigenetic features, could be in future a therapeutic option for selected patients.

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Interplay between m⁶A epitranscriptome and epigenome in cancer: current knowledge and therapeutic perspectives

Bove

Amin

Babaei

et al. 2022

Intl Journal of Cancer

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Chromatin has an extremely flexible structure that allows the fine regulation of gene expression. To orchestrate this process, small chemical modifications are dynamically added or removed on DNA, RNA and histone substrates. Epigenetic modifications govern a plethora of key cellular functions, whose dysregulation contributes to oncogenesis. The interrelationship between (irreversible) genetic mutations and (reversible) epigenetic alterations and how this crosstalk regulates gene expression has long been a major area of interest. Marks modulating the RNA code (epitranscriptome), such as the well-studied N 6 -methyladenosine (m 6 A), are known to influence stability, metabolism and life cycle of many mRNAs, including cancer-associated transcripts.Together, epigenetic and epitranscriptomic pathways therefore control the entire cellular expression profile and, eventually, cell fate. Recently, previously undescribed crosstalk between these two pathways has started to be unrevealed. For example, m 6 A and its effectors cooperate with histone modifications to localize chromatinmodifying complexes to their target regions. Epigenetic marks governing the expression of m 6 A factors can also be found at specific genetic loci. m 6 A itself can mark noncoding RNAs (including lncRNAs, circRNAs and miRNAs), influencing their structure, maturation and function. These interactions affect both cell physiology and pathology. Clear evidence that dysregulation of this network plays a role in cancer has emerged, suggesting a new layer of complexity in the landscape of gene expression. Here, we summarize current knowledge on the interplay between m 6 A

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Discovery of a new class of triazole based inhibitors of acetyl transferase KAT2A

Pacifico

Gaudio

Bove

et al. 2022

Journal of Enzyme Inhibition and Medicinal Chemistry

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We have recently developed a new synthetic methodology that provided both N -aryl-5-hydroxytriazoles and N -pyridine-4-alkyl triazoles. A selection of these products was carried through virtual screening towards targets that are contemporary and validated for drug discovery and development. This study determined a number of potential structure target dyads of which N -pyridinium-4-carboxylic-5-alkyl triazole displayed the highest score specificity towards KAT2A. Binding affinity tests of abovementioned triazole and related analogs towards KAT2A confirmed the predictions of the in-silico assay. Finally, we have run in vitro inhibition assays of selected triazoles towards KAT2A; the ensemble of binding and inhibition assays delivered pyridyl-triazoles carboxylates as the prototype of a new class of inhibitors of KAT2A.

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Looking Beyond the Glioblastoma Mask: Is Genomics the Right Path?

et al. 2022

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Glioblastomas are the most frequent and malignant brain tumor hallmarked by an invariably poor prognosis. They have been classically differentiated into primary isocitrate dehydrogenase 1 or 2 (IDH1 -2) wild-type (wt) glioblastoma (GBM) and secondary IDH mutant GBM, with IDH wt GBMs being commonly associated with older age and poor prognosis. Recently, genetic analyses have been integrated with epigenetic investigations, strongly implementing typing and subtyping of brain tumors, including GBMs, and leading to the new WHO 2021 classification. GBM genomic and epigenomic profile influences evolution, resistance, and therapeutic responses. However, differently from other tumors, there is a wide gap between the refined GBM profiling and the limited therapeutic opportunities. In addition, the different oncogenes and tumor suppressor genes involved in glial cell transformation, the heterogeneous nature of cancer, and the restricted access of drugs due to the blood–brain barrier have limited clinical advancements. This review will summarize the more relevant genetic alterations found in GBMs and highlight their potential role as potential therapeutic targets.

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Efficacy of selective histone deacetylase 6 inhibition in mouse models of Pseudomonas aeruginosa infection: A new glimpse for reducing inflammation and infection in cystic fibrosis

Brindisi

Barone

Rossi

et al. 2022

European Journal of Pharmacology

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Epi-Drugs Targeting RNA Dynamics in Cancer

Bove

Lettiero

Sgueglia

et al. 2023

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Guglielmo Bove

OFD1: One gene, several disorders

CBX2 shapes chromatin accessibility promoting AML via p38 MAPK signaling pathway

Epigenetic alterations in glioblastomas: Diagnostic, prognostic and therapeutic relevance

Interplay between m⁶A epitranscriptome and epigenome in cancer: current knowledge and therapeutic perspectives

Discovery of a new class of triazole based inhibitors of acetyl transferase KAT2A

Looking Beyond the Glioblastoma Mask: Is Genomics the Right Path?

Efficacy of selective histone deacetylase 6 inhibition in mouse models of Pseudomonas aeruginosa infection: A new glimpse for reducing inflammation and infection in cystic fibrosis

Epi-Drugs Targeting RNA Dynamics in Cancer

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Guglielmo Bove

OFD1: One gene, several disorders

CBX2 shapes chromatin accessibility promoting AML via p38 MAPK signaling pathway

Epigenetic alterations in glioblastomas: Diagnostic, prognostic and therapeutic relevance

Interplay between m6A epitranscriptome and epigenome in cancer: current knowledge and therapeutic perspectives

Discovery of a new class of triazole based inhibitors of acetyl transferase KAT2A

Looking Beyond the Glioblastoma Mask: Is Genomics the Right Path?

Efficacy of selective histone deacetylase 6 inhibition in mouse models of Pseudomonas aeruginosa infection: A new glimpse for reducing inflammation and infection in cystic fibrosis

Epi-Drugs Targeting RNA Dynamics in Cancer

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Interplay between m⁶A epitranscriptome and epigenome in cancer: current knowledge and therapeutic perspectives