Oncogene-like addiction to aneuploidy in human cancers

Girish, Vishruth; Lakhani, Asad A.; Thompson, Sarah L.; Scaduto, Christine M.; Brown, Leanne M.; Hagenson, Ryan A.; Sausville, Erin L.; Mendelson, Brianna E.; Kandikuppa, Pranav K.; Lukow, Devon A.; Yuan, Monet Lou; Stevens, Eric C.; Lee, Sophia N.; Schukken, Klaske M.; Akalu, Saron M.; Vasudevan, Anand; Zou, Charles; Šalovská, Barbora; Li, Wenxue; Smith, John K.; Taylor, Alison M.; Martienssen, Robert A.; Liu, Yansheng; Sun, Ruping; Sheltzer, Jason M.

doi:10.1126/science.adg4521

Cited by 40 publications

(16 citation statements)

References 94 publications

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“…We ranked the expressed genes based on their essentiality to the pluripotent state 18 ( Figure 4B ). Notably, one of the top three most essential genes within this region is MDM4 , a known regulator of TP53 19 and a putative driver gene in the pathology of multiple types of cancers 20,21 . RNA-seq analysis of H7 and H9 v1q versus wild-type sublines further revealed differential expression of the p53 pathway in the v1q hPSCs ( Figure 4C ).…”

Section: Resultsmentioning

confidence: 99%

“…Nonetheless, it is important to note that additional genes present in the amplified region of chromosome 1q could also play a role in the behaviour of variant cells. Intriguingly, chromosome 1q is amplified in many cancers 19 and MDM4 was recently proposed as a driver of recurrent chromosome 1q gains in breast cancer through increased expression of MDM4 and reduced TP53 signalling 21 . These parallels between variant hPSCs and cancer reinforce concerns regarding their safety for regenerative medicine.…”

Section: Discussionmentioning

confidence: 99%

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Cytogenetic resource enables mechanistic resolution of changing trends in human pluripotent stem cell aberrations linked to feeder-free culture

Stavish,

Price,

Gelezauskaite

et al. 2023

Preprint

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Since the first derivation of human pluripotent stem cells (hPSCs), the number of culture conditions has steadily increased, making hPSC culture more facile. Nonetheless, there remains the persistent issue of culture-acquired genetic changes, hampering the reproducibility of hPSC research and jeopardising their clinical use. Here, we utilised comprehensive karyotyping datasets from over 20,000 hPSC cultures sampled under different conditions to ascertain association of genetic changes with specific culture regimens. We found condition-dependent patterns of aberrations, with higher prevalence of chromosome 1q gains in recent years, associated with increased use of contemporary, feeder-free cultures. Mechanistically, we show the context-dependent selection of 1q variants is mainly driven by MDM4, a gene amplified in many cancers, located on chromosome 1q. To facilitate reproducibility of hPSC research and their safe clinical utility, we provide a unique hPSC karyotype resource for informing the risk assessment of genetic aberrations and developing strategies to suppress their occurrence.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Cytogenetic resource enables mechanistic resolution of changing trends in human pluripotent stem cell aberrations linked to feeder-free culture

Stavish,

Price,

Gelezauskaite

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…Finally, MDM4 has recently been shown to also be the driver of the addiction of cancers to chromosome 1q gains to support their malignant growth 59 . The similarities between the genetic abnormalities found in cancers and hPSC have been already noted in the past 60–62 .…”

Section: Discussionmentioning

confidence: 99%

“…The similarities between the genetic abnormalities found in cancers and hPSC have been already noted in the past 60–62 . Gains of 20q11.21, one of the most common acquired abnormalities in hPSC 9 , appear in over 80% of pancreatic and colorectal carcinomas 63,64 and gains of 1q appears in over half of the cases of hepatocellular carcinoma 65 and have been recently identified as the first copy number alterations occurring in breast cancer and melanoma evolution 59 . These parallels, together with the high incidence of the gain of 1q in culture, the fact that the variant cells can take over also during differentiation and that the gain of 1q impacts the final cell product, stress the importance of factoring in the genetic integrity of the cells not only in a clinical setting, but also in a research context to ensure reliable and reproducible science 66,68 .…”

Section: Discussionmentioning

confidence: 99%

Gain of 1q confers an MDM4-driven growth advantage to undifferentiated and differentiating hESC while altering their differentiation capacity

Krivec,

Couvreu de Deckersberg,

Lei

et al. 2023

Preprint

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Gains of 1q are a highly recurrent chromosomal abnormality in human pluripotent stem cells. In this work, we show that gains of 1q impact the differentiation capacity to derivates of the three germ layers, leading to miss-specification to cranial placode and non-neural ectoderm during neuroectoderm differentiation and by poorer expression of lineage specific markers in hepatoblasts and cardiac progenitors. Competition assays show that the cells retain their selective advantage during differentiation, which is mediated by a higher expression of MDM4, a gene located in the common region of gain. MDM4 drives the winner phenotype of the mutant cells in both the undifferentiated and differentiating state by reducing the cells sensitivity to DNA-damage through decreased p53-mediated apoptosis. Finally, we find that cell density in culture plays a key role in promoting the competitive advantage of the cells by increasing DNA damage.

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“…With the advent of precision therapeutics and promising concepts aiming to allow drugging of virtually any protein (54,55), powerful models to connect tumor-specific alterations with potential synthetic lethal targets are promising. Large-scale chromosomal deletions are highly prevalent throughout many human cancers and can be routinely detected in cancer diagnostics, but only recently models to study them in detail have been described (56,57). Our model permitted in-detail characterization of tumor biology in chr8p-deleted tumors leading to a better understanding of the mechanisms driving increased tumor progression and metastasis.…”

Section: Discussionmentioning

confidence: 99%

Chromosome 8p engineering reveals increased metastatic potential targetable by patient-specific synthetic lethality in liver cancer

Huth,

Dreher,

Lemke

et al. 2023

Sci. Adv.

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Large-scale chromosomal aberrations are prevalent in human cancer, but their function remains poorly understood. We established chromosome-engineered hepatocellular carcinoma cell lines using CRISPR-Cas9 genome editing. A 33–mega–base pair region on chromosome 8p (chr8p) was heterozygously deleted, mimicking a frequently observed chromosomal deletion. Using this isogenic model system, we delineated the functional consequences of chr8p loss and its impact on metastatic behavior and patient survival. We found that metastasis-associated genes on chr8p act in concert to induce an aggressive and invasive phenotype characteristic for chr8p-deleted tumors. Genome-wide CRISPR-Cas9 viability screening in isogenic chr8p-deleted cells served as a powerful tool to find previously unidentified synthetic lethal targets and vulnerabilities accompanying patient-specific chromosomal alterations. Using this target identification strategy, we showed that chr8p deletion sensitizes tumor cells to targeting of the reactive oxygen sanitizing enzyme Nudix hydrolase 17. Thus, chromosomal engineering allowed for the identification of novel synthetic lethalities specific to chr8p loss of heterozygosity.

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Oncogene-like addiction to aneuploidy in human cancers

Cited by 40 publications

References 94 publications

Cytogenetic resource enables mechanistic resolution of changing trends in human pluripotent stem cell aberrations linked to feeder-free culture

Cytogenetic resource enables mechanistic resolution of changing trends in human pluripotent stem cell aberrations linked to feeder-free culture

Gain of 1q confers an MDM4-driven growth advantage to undifferentiated and differentiating hESC while altering their differentiation capacity

Chromosome 8p engineering reveals increased metastatic potential targetable by patient-specific synthetic lethality in liver cancer

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