UVSSA facilitates transcription-coupled repair of DNA interstrand crosslinks.

DNA interstrand crosslinks (ICLs) are covalent bonds between bases on opposing strands of the DNA helix which prevent DNA melting and subsequent DNA replication or RNA transcription. Here, we show that Ultraviolet Stimulated Scaffold Protein A (UVSSA) is critical for ICL repair in human cells, at least in part via the transcription coupled ICL repair (TC-ICR) pathway. Inactivation of UVSSA sensitizes human cells to ICL-inducing drugs, and delays ICL repair.

Replication-Independent ICL Repair: From Chemotherapy to Cell Homeostasis.

Interstrand crosslinks (ICLs) are a type of covalent lesion that can prevent transcription and replication by inhibiting DNA strand separation and instead trigger cell death. ICL inducing compounds are commonly used as chemotherapies due to their effectiveness in inhibiting cell proliferation. Naturally occurring crosslinking agents formed from metabolic processes can also pose a challenge to genome stability especially in slowly or non-dividing cells.

Transcription-Coupled Repair of DNA Interstrand Crosslinks by UVSSA.

DNA interstrand crosslinks (ICLs) are covalent bonds between bases on opposing strands of the DNA helix which prevent DNA melting and subsequent DNA replication or RNA transcription. Here, we show that Ultraviolet Stimulated Scaffold Protein A (UVSSA) participates in transcription-coupled repair of ICLs in human cells. Inactivation of UVSSA sensitizes human cells to ICL-inducing drugs, and delays ICL repair.