Distinct circular DNA profile in hSOD1G93A ALS that intersects with ALS proteome changes. Distinct circular DNA profile in hSOD1G93A ALS that intersects with ALS proteome changes

Numerous genes mutated in amyotrophic lateral sclerosis (ALS) share a role in DNA damage and repair, emphasizing genome disintegration in ALS. DNA instability and repair mechanisms segregate extrachromosomal circular DNAs (ec/eccDNAs) that can modulate gene expression somatically. Here, circulome profiling in a hSOD1G93A genotoxicity model of ALS revealed a 6-fold enrichment of small-size eccDNAs relative to controls. DifCir-based differential analysis identified 189 genes with patterned segregation of differentially produced per gene circles (DPpGCs) from ALS but not from control samples, implicating an inter-sample recurrence rate of at least 89% for the top 6 DPpGCs. Mass spectrometry-based ALS circulome-proteome cross-referencing revealed 31 corresponding differentially expressed proteins (DEPs), with 12 DPpGC-DEP pairs being itemized in ALS risk GWAS databases. DPpGC-DEP hotspots mainly convey neuron-specific functions counteracting ALS detriments. This is unanticipated evidence for non-random, profiled eccDNA accumulation in ALS neurodegeneration, involving putative interactions with their gene products as well as biomarker perspectives. Overall design: The data C (Control,C57BL/6J) is performed with 10 replicates. The data A (ALS,B6.Cg-Tg(SOD1*G93A)1Gur/J) is performed with 9 replicates.