# PAXX/Ku interaction is rate limiting for repair of double-strand DNA breaks requiring end processing

**Authors:** Joanna Gluza, Joanna Machnik, Malgorzata Szatkiewicz, Andrew Craxton, Steven W. Hardwick, Himani Amin, Maria M. Sąsiadek, Marion MacFarlane, Grzegorz Chodaczek, Amanda K. Chaplin, Michal Malewicz

PMC · DOI: 10.1016/j.jbc.2025.110481 · The Journal of Biological Chemistry · 2025-07-12

## TL;DR

This study shows that a specific mutation in the PAXX protein speeds up DNA repair in mammalian cells, particularly for breaks that need end processing.

## Contribution

A novel gain-of-function mutation in PAXX is shown to accelerate DNA repair by stabilizing the repair complex.

## Key findings

- A conserved amino acid substitution in PAXX stabilizes the DNA repair complex.
- The mutation accelerates repair of DNA breaks requiring end processing.
- PAXX and Ku mislocalize to the nucleoli in cells with the mutation.

## Abstract

In mammalian cells, DNA double strand breaks (DSBs) are primarily repaired via classical non-homologous end joining (c-NHEJ)—one of the most essential DNA repair pathways. As NHEJ does not utilize a template, this type of repair is the default mechanism for eliminating DSBs occurring in non-cycling cells. NHEJ is a crucial process in mammals, and defects of this repair pathway often result in immunological impairment owing to failure of somatic recombination in lymphocytes and improper neuronal biogenesis. The NHEJ machinery assembles in a stepwise process at DSBs and proceeds via several key repair phases including break recognition, mediated by Ku proteins (Ku70/80 heterodimer binding to DNA), DNA ends processing, and finally DNA ligation. DNA end-bound Ku recruits the large kinase protein DNA-PKcs, and downstream repair-facilitating components such as PAXX, XLF and XRCC4/Ligase IV complex that together facilitate the repair reaction. Processing of DNA breaks can require both nucleotide removal and incorporation, involving a plethora of enzymes such as nucleases and polymerases. It is currently not known which step, if any, limits the completion of the repair process. Here, we describe a single conserved amino acid substitution in PAXX protein Ku70/80 contact interface that dramatically stabilizes the repair complex. This mutation leads to co-dependent mislocalization of PAXX and Ku to the nucleoli. Surprisingly, this novel PAXX gain-of-function mutation accelerates NHEJ repair but only of DSBs that require end processing such as radiation-induced DSBs. Thus, in mammalian NHEJ, the repair complex stability is rate-limiting for the overall repair reaction of DSBs.

## Linked entities

- **Genes:** PAXX (PAXX non-homologous end joining factor) [NCBI Gene 286257], XRCC6 (X-ray repair cross complementing 6) [NCBI Gene 2547], XRCC5 (X-ray repair cross complementing 5) [NCBI Gene 7520], PRKDC (protein kinase, DNA-activated, catalytic subunit) [NCBI Gene 5591], NHEJ1 (non-homologous end joining factor 1) [NCBI Gene 79840], XRCC4 (X-ray repair cross complementing 4) [NCBI Gene 7518], LigaseIV (ATP dependent DNA ligase) [NCBI Gene 7443664]
- **Proteins:** PAXX (PAXX non-homologous end joining factor), PRKDC (protein kinase, DNA-activated, catalytic subunit), NHEJ1 (non-homologous end joining factor 1)

## Full-text entities

- **Genes:** XRCC4 (X-ray repair cross complementing 4) [NCBI Gene 7518] {aka SSMED, hXRCC4}, PRKDC (protein kinase, DNA-activated, catalytic subunit) [NCBI Gene 5591] {aka DNA-PKC, DNA-PKcs, DNAPK, DNAPKc, DNPK1, HYRC}, PAXX (PAXX non-homologous end joining factor) [NCBI Gene 286257] {aka C9orf142, XLS}, NHEJ1 (non-homologous end joining factor 1) [NCBI Gene 79840] {aka IMD124, MCOPCB13, XLF}
- **Diseases:** immunological impairment (MESH:D007154)

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12357295/full.md

## References

22 references — full list in the complete paper: https://tomesphere.com/paper/PMC12357295/full.md

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Source: https://tomesphere.com/paper/PMC12357295