Abstract 99: Apoptotic DNase DFFB mediates cancer persister cell mutagenesis and acquired drug resistance

Abstract: Tumors frequently acquire resistance to therapy resulting in disease relapse and patient mortality. Therapeutic approaches to overcome acquired resistance are hindered by limited treatment options and the presence of multiple parallel resistance mechanisms. Rather than treating resistance after it emerges, it may possible to prevent it by inhibiting the adaptive processes which initiate resistance. However, these processes and the genes which control them are poorly understood. Here we report that drug-toleran… Show more

“…Here, we emphasize that the biomarkers of the diapause-like DTP state are rare and need to be explored. For example, TEA Domain Transcription Factor and DNA Fragmentation Factor Subunit Beta are potential biomarkers [104,105], but more experiments are needed. Breakthrough in this aspect may greatly promote the identification and treatment of the diapause-like DTP state.…”

Diapause-like Drug-Tolerant Persister State: The Key to Nirvana Rebirth

“…Here, we emphasize that the biomarkers of the diapause-like DTP state are rare and need to be explored. For example, TEA Domain Transcription Factor and DNA Fragmentation Factor Subunit Beta are potential biomarkers [104,105], but more experiments are needed. Breakthrough in this aspect may greatly promote the identification and treatment of the diapause-like DTP state.…”

Diapause-like Drug-Tolerant Persister State: The Key to Nirvana Rebirth

Drug-tolerant persister cells in cancer: the cutting edges and future directions