Lucia Maita scite author profile

Protein acetylation and deacetylation events are finely regulated by lysine-acetyl-transferases and lysine-deacetylases and constitute an important tool for the activation or inhibition of specific cellular pathways. One of the most important lysine-acetyl-transferases is p300, which is involved in the regulation of gene expression, cell growth, DNA repair, differentiation, apoptosis, and tumorigenesis. A well-known target of p300 is constituted by the tumor suppressor protein p53, which plays a critical role in the maintenance of genomic stability and whose activity is known to be controlled by post-translational modifications, among which acetylation. p300 activity toward p53 is negatively regulated by the NAD-dependent deacetylase SIRT1, which deacetylates p53 preventing its transcriptional activation and the induction of p53-dependent apoptosis. However, the mechanisms responsible for p53 regulation by p300 and SIRT1 are still poorly understood. Here we identify the nucleosome assembly protein TSPY-Like 2 (TSPYL2, also known as TSPX, DENTT, and CDA1) as a novel regulator of SIRT1 and p300 function. We demonstrate that, upon DNA damage, TSPYL2 inhibits SIRT1, disrupting its association with target proteins, and promotes p300 acetylation and activation, finally stimulating p53 acetylation and p53-dependent cell death. Indeed, in response to DNA damage, cells silenced for TSPYL2 were found to be defective in p53 activation and apoptosis induction and these events were shown to be dependent on SIRT1 and p300 function. Collectively, our results shed new light on the regulation of p53 acetylation and activation and reveal a novel TSPYL2 function with important implications in cancerogenesis.

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The Krebs Cycle Connection: Reciprocal Influence Between Alternative Splicing Programs and Cell Metabolism

Biamonti

Maita

Montecucco

2018

Front. Oncol.

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Alternative splicing is a pervasive mechanism that molds the transcriptome to meet cell and organism needs. However, how this layer of gene expression regulation is coordinated with other aspects of the cell metabolism is still largely undefined. Glucose is the main energy and carbon source of the cell. Not surprisingly, its metabolism is finely tuned to satisfy growth requirements and in response to nutrient availability. A number of studies have begun to unveil the connections between glucose metabolism and splicing programs. Alternative splicing modulates the ratio between M1 and M2 isoforms of pyruvate kinase in this way determining the choice between aerobic glycolysis and complete glucose oxidation in the Krebs cycle. Reciprocally, intermediates in the Krebs cycle may impact splicing programs at different levels by modulating the activity of 2-oxoglutarate-dependent oxidases. In this review we discuss the molecular mechanisms that coordinate alternative splicing programs with glucose metabolism, two aspects with profound implications in human diseases.

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<em>LINP1</em> lncRNA expression profile is modulated in response to DNA damage

Carriero

Maita

Bione

et al. 2021

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A: 2.4x10 5 cells were transfected with control or LINP1_1 oligos and processed after 48 h. Data are the mean of 3 independent experiments. SD, standard deviation. B: Representative phase contrast images of 46BR.1G1 cells 48 hours (t1) after transfection with CTRL and LINP1_1 LNA LINP1 lncRNA expression profile is modulated in response to DNA damage A low level of endogenous replicative DNA damage may impact gene expression programs and cell biology features relevant to cancer progression. This can be visualized by the comparison of DNA ligase I (LigI) defective 46BR.1G1 fibroblasts, deriving from a patient who died at 19 for lymphoma, and 7A3 cells, a 46BR.1G1 clone that stably expresses the ectopic wild-type LigI cDNA. LigI deficiency impairs maturation of newly synthesized DNA and increases the number of DSBs and gH2AX foci, two features associated with genome instability commonly found also in pre-neoplastic lesions.

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Lucia Maita

TSPYL2 is a novel regulator of SIRT1 and p300 activity in response to DNA damage

The Krebs Cycle Connection: Reciprocal Influence Between Alternative Splicing Programs and Cell Metabolism

<em>LINP1</em> lncRNA expression profile is modulated in response to DNA damage

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Lucia Maita

TSPYL2 is a novel regulator of SIRT1 and p300 activity in response to DNA damage

The Krebs Cycle Connection: Reciprocal Influence Between Alternative Splicing Programs and Cell Metabolism

&lt;em&gt;LINP1&lt;/em&gt; lncRNA expression profile is modulated in response to DNA damage

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<em>LINP1</em> lncRNA expression profile is modulated in response to DNA damage