PRODE recovers essential and context-essential genes through neighborhood-informed scores

Thomas Cantore; Paola Gasperini; Riccardo Bevilacqua; Yari Ciani; Sanju Sinha; Eytan Ruppin; Francesca Demichelis

doi:10.1186/s13059-025-03501-0

PRODE recovers essential and context-essential genes through neighborhood-informed scores

Thomas Cantore, Paola Gasperini, Riccardo Bevilacqua, Yari Ciani, Sanju Sinha, Eytan Ruppin, Francesca Demichelis^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Gene context-essentiality assessment supports precision oncology opportunities. The variability of gene effects inference from loss-of-function screenings across models and technologies limits identifying robust hits. We propose a computational framework named PRODE that integrates gene effects with protein–protein interactions to generate neighborhood-informed essential (NIE) and neighborhood-informed context essential (NICE) scores. It outperforms the canonical gene effect approach in recovering missed essential genes in shRNA screens and prioritizing context-essential hits from CRISPR-KO screens, as supported by in vitro validations. Applied to Her2 + breast cancer tumor samples, PRODE identifies oxidative phosphorylation genes as vulnerabilities with prognostic value, highlighting new therapeutic opportunities.

Original language	English
Article number	42
Journal	Genome Biology
Volume	26
Issue number	1
DOIs	https://doi.org/10.1186/s13059-025-03501-0
State	Published - Dec 2025
Externally published	Yes

Funding

Funders	Funder number
Foundation for Alcohol Research and Education
Università degli Studi di Trento
Ministero dell’Istruzione, dell’Università e della Ricerca
European Research Council
Horizon 2020 Framework Programme	648670

Keywords

Cancer
Cancer vulnerabilities
Context-essentiality
Essentiality
Gene effect
Neighborhood-informed scores
Oncology
PPI
Synthetic lethality

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1186/s13059-025-03501-0

Cite this

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abstract = "Gene context-essentiality assessment supports precision oncology opportunities. The variability of gene effects inference from loss-of-function screenings across models and technologies limits identifying robust hits. We propose a computational framework named PRODE that integrates gene effects with protein–protein interactions to generate neighborhood-informed essential (NIE) and neighborhood-informed context essential (NICE) scores. It outperforms the canonical gene effect approach in recovering missed essential genes in shRNA screens and prioritizing context-essential hits from CRISPR-KO screens, as supported by in vitro validations. Applied to Her2 + breast cancer tumor samples, PRODE identifies oxidative phosphorylation genes as vulnerabilities with prognostic value, highlighting new therapeutic opportunities.",

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AU - Gasperini, Paola

AU - Bevilacqua, Riccardo

AU - Ciani, Yari

AU - Sinha, Sanju

AU - Ruppin, Eytan

AU - Demichelis, Francesca

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AB - Gene context-essentiality assessment supports precision oncology opportunities. The variability of gene effects inference from loss-of-function screenings across models and technologies limits identifying robust hits. We propose a computational framework named PRODE that integrates gene effects with protein–protein interactions to generate neighborhood-informed essential (NIE) and neighborhood-informed context essential (NICE) scores. It outperforms the canonical gene effect approach in recovering missed essential genes in shRNA screens and prioritizing context-essential hits from CRISPR-KO screens, as supported by in vitro validations. Applied to Her2 + breast cancer tumor samples, PRODE identifies oxidative phosphorylation genes as vulnerabilities with prognostic value, highlighting new therapeutic opportunities.

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KW - Gene effect

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KW - Synthetic lethality

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PRODE recovers essential and context-essential genes through neighborhood-informed scores

Abstract

Funding

Keywords

UN SDGs

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