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Genomic instability, inflammatory signaling and response to cancer immunotherapy

Mengting Chen, Renske Linstra, Marcel A.T.M. van Vugt

2021Biochimica et Biophysica Acta (BBA) - Reviews on Cancer166 citationsDOIOpen Access PDF

Abstract

Genomic and chromosomal instability are hallmarks of cancer and shape the genomic composition of cancer cells, thereby determining their behavior and response to treatment. Various genetic and epigenetic alterations in cancer have been linked to genomic instability, including DNA repair defects, oncogene-induced replication stress, and spindle assembly checkpoint malfunction. A consequence of genomic and chromosomal instability is the leakage of DNA from the nucleus into the cytoplasm, either directly or through the formation and subsequent rupture of micronuclei. Cytoplasmic DNA subsequently activates cytoplasmic DNA sensors, triggering downstream pathways, including a type I interferon response. This inflammatory signaling has pleiotropic effects, including enhanced anti-tumor immunity and potentially results in sensitization of cancer cells to immune checkpoint inhibitors. However, cancers frequently evolve mechanisms to avoid immune clearance, including suppression of inflammatory signaling. In this review, we summarize inflammatory signaling pathways induced by various sources of genomic instability, adaptation mechanisms that suppress inflammatory signaling, and implications for cancer immunotherapy.

Topics & Concepts

Genome instabilityChromosome instabilityBiologyDNA repairCancer researchCancerImmune systemDNA damageEpigeneticsSignal transductionDNA re-replicationImmune checkpointCell biologyImmunologyImmunotherapyGeneticsDNAEukaryotic DNA replicationGeneChromosomeCancer Immunotherapy and BiomarkersPARP inhibition in cancer therapyInflammasome and immune disorders
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