Mobile circular DNAs regulating memory and communication in CNS neurons

Abstract: Stimuli that stimulate neurons elicit transcription of immediate-early genes, a process which requires local sites of chromosomal DNA to form double-strand breaks (DSBs) generated by topoisomerase IIb within a few minutes, followed by repair within a few hours. Wakefulness, exploring a novel environment, and contextual fear conditioning also elicit turn-on of synaptic genes requiring DSBs and repair. It has been reported (in non-neuronal cells) that extrachromosomal circular DNA can form at DSBs as the sites a… Show more

“…Furthermore, the discovery that tumor cells can release microDNAs into the bloodstream, and the differences and dynamic changes of microDNAs in tumor tissues versus normal tissues, as well as in the same tissues of patients before and after surgery ( Zhao et al, 2022 ; Jiang et al, 2023 ), suggest that microDNAs have the potential to be used as a non-invasive biomarker to monitor tumor progression and therapeutic efficacy ( Kumar et al, 2017 ; Zhu et al, 2018 ). Smalheiser suggested that microDNA, which is mobile and stable circular DNA, might have a role in regulating memory and communication in CNS neurons ( Smalheiser, 2023 ).…”

Characterization, biogenesis model, and current bioinformatics of human extrachromosomal circular DNA

“…Furthermore, the discovery that tumor cells can release microDNAs into the bloodstream, and the differences and dynamic changes of microDNAs in tumor tissues versus normal tissues, as well as in the same tissues of patients before and after surgery ( Zhao et al, 2022 ; Jiang et al, 2023 ), suggest that microDNAs have the potential to be used as a non-invasive biomarker to monitor tumor progression and therapeutic efficacy ( Kumar et al, 2017 ; Zhu et al, 2018 ). Smalheiser suggested that microDNA, which is mobile and stable circular DNA, might have a role in regulating memory and communication in CNS neurons ( Smalheiser, 2023 ).…”

Characterization, biogenesis model, and current bioinformatics of human extrachromosomal circular DNA