Matteo Burigotto scite author profile

Centrosome amplification results into genetic instability and predisposes cells to neoplastic transformation. Supernumerary centrosomes trigger p53 stabilization dependent on the PIDDosome (a multiprotein complex composed by PIDD1, RAIDD and Caspase‐2), whose activation results in cleavage of p53’s key inhibitor, MDM2. Here, we demonstrate that PIDD1 is recruited to mature centrosomes by the centriolar distal appendage protein ANKRD26. PIDDosome‐dependent Caspase‐2 activation requires not only PIDD1 centrosomal localization, but also its autoproteolysis. Following cytokinesis failure, supernumerary centrosomes form clusters, which appear to be necessary for PIDDosome activation. In addition, in the context of DNA damage, activation of the complex results from a p53‐dependent elevation of PIDD1 levels independently of centrosome amplification. We propose that PIDDosome activation can in both cases be promoted by an ANKRD26‐dependent local increase in PIDD1 concentration close to the centrosome. Collectively, these findings provide a paradigm for how centrosomes can contribute to cell fate determination by igniting a signalling cascade.

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CRISPR/Cas9 ribonucleoprotein-mediated knockin generation in hTERT-RPE1 cells

Ghetti

Burigotto

Mattivi

et al. 2021

STAR Protocols

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Summary hTERT-RPE1 cells are genetically stable near diploid cells widely used to model cell division, DNA repair, or ciliogenesis in a non-transformed context. However, poor transfectability and limited homology-directed repair capacity hamper their amenability to gene editing. Here, we describe a protocol for rapid and efficient generation of diverse homozygous knockins. In contrast to other approaches, this strategy bypasses the need for molecular cloning. Our approach can also be applied to a variety of cell types including cancer and induced pluripotent stem cells (iPSCs).

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The PIDDosome: centrosome guardian and backup on the DNA damage response

Burigotto

Fava

2021

Molecular & Cellular Oncology

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The mitotic surveillance pathway requires PLK1-dependent 53BP1 displacement from kinetochores

Burigotto

Vigorito

Mattivi

et al. 2023

Preprint

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53BP1 acts at the crossroads between DNA repair and p53-mediated stress response. With its interactor USP28, it is part of the mitotic surveillance pathway (MSP), a sensor that monitors the duration of cell division, promoting p53-dependent cell cycle arrest when a critical time threshold is surpassed. 53BP1 dynamically associates with kinetochores, being recruited during prophase, and then undergoing a time-dependent loss of affinity. However, the relevance of this behaviour remains unclear. Here, we identify CENP-F as an interaction partner and kinetochore receptor for 53BP1. By engineering human cells with a CENP-F point mutation, we demonstrate that preventing 53BP1 kinetochore localization does not reduce MSP proficiency. Strikingly, however, preventing the loss of 53BP1 from the kinetochore by inhibiting Polo-like kinase 1 (PLK1) restrains MSP activity, a phenomenon that is abrogated in the CENP-F mutant condition. Taken together, we demonstrate that kinetochore-loaded 53BP1 represents an MSP functionally inhibited state and that PLK1-dependent re-localization of 53BP1 represents an important layer of MSP regulation.

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