Oncogenic enhancers prime quiescent metastatic cells to escape NK immune surveillance by eliciting transcriptional memory.
Daniela MichelattiSven BeyesChiara BernardisMaria Luce NegriLeonardo MorelliNaiara Garcia BediagaVittoria PoliLuca FagnocchiSara LagoSarah D'AnnunzioNicole ConaIlaria GaspardoAurora BianchiJovana JoveticMatteo GianeselloAlice TurdoCaterina D'AccardoMiriam GaggianesiMartina DoriMattia ForcatoGiuliano CrispatzuÁlvaro Rada-IglesiasMaria Soledad SosaH Th Marc TimmersSilvio BicciatoMatilde TodaroLuca TiberiAlessio ZippoPublished in: Nature communications (2024)
Metastasis arises from disseminated tumour cells (DTCs) that are characterized by intrinsic phenotypic plasticity and the capability of seeding to secondary organs. DTCs can remain latent for years before giving rise to symptomatic overt metastasis. In this context, DTCs fluctuate between a quiescent and proliferative state in response to systemic and microenvironmental signals including immune-mediated surveillance. Despite its relevance, how intrinsic mechanisms sustain DTCs plasticity has not been addressed. By interrogating the epigenetic state of metastatic cells, we find that tumour progression is coupled with the activation of oncogenic enhancers that are organized in variable interconnected chromatin domains. This spatial chromatin context leads to the activation of a robust transcriptional response upon repeated exposure to retinoic acid (RA). We show that this adaptive mechanism sustains the quiescence of DTCs through the activation of the master regulator SOX9. Finally, we determine that RA-stimulated transcriptional memory increases the fitness of metastatic cells by supporting the escape of quiescent DTCs from NK-mediated immune surveillance. Overall, these findings highlight the contribution of oncogenic enhancers in establishing transcriptional memories as an adaptive mechanism to reinforce cancer dormancy and immune escape, thus amenable for therapeutic intervention.
Keyphrases
- transcription factor
- induced apoptosis
- gene expression
- cell cycle arrest
- squamous cell carcinoma
- small cell lung cancer
- public health
- randomized controlled trial
- stem cells
- signaling pathway
- dna methylation
- body composition
- working memory
- oxidative stress
- genome wide
- cell proliferation
- physical activity
- heat shock
- heat stress