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Researchers clarify role of VGLL3 in DNA double-strand break repair and chemotherapy

by Medical Xpress
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Model for VGLL3 in DDR and chemoresponse. Credit: Science Advances (2024). DOI: 10.1126/sciadv.adr2643

A research group led by Prof. Guo Caixia from the Beijing Institute of Genomics of the Chinese Academy of Sciences (CAS) and Tang Tie-Shan from the Institute of Zoology of CAS have discovered that VGLL3 modulates chemosensitivity through promoting DNA double-strand break repair. The study was published in Science Advances.

DNA double-strand breaks (DSBs) are one of the most deleterious types of DNA lesions, which can result in mutagenic events or if left unrepaired or repaired inappropriately. In general, DSBs are mainly repaired by non-homologous end joining (NHEJ) and homologous recombination (HR).

VGLL3 is a member of the VGLL family that contains a conserved TONDU motif (TDU), a region essential for binding with TEA domain-containing transcription factors (TEADs). Distinct from other VGLL family members, VGLL3 contains a unique glutamate-rich (E-rich) motif at the N-terminus and a histidine-rich (H-rich) motif at the C-terminus.

Emerging evidence has implicated a role of VGLL3 in tumor development. VGLL3 was reported to associate with cancer progression by promoting tumor cell proliferation or motility, with its expression positively correlated with poor prognosis in multiple types of human cancers.

Paradoxically, a tumor suppressor role of VGLL3 was also reported in (ER) positive breast cancers. Therefore, how VGLL3 functions in remains largely obscure.

In this study, the researchers report that VGLL3 can be recruited to DSBs in a PARylation- and chromodomain helicase DNA-binding protein 4-dependent manner. Through its E-rich motif, VGLL3 associates with KLHL15, an E3 ubiquitin ligase adapter, to prevent CtIP from proteasomal degradation.

VGLL3 also associates with MDC1 through its H-rich motif to enhance the MDC1-USP7 interaction and to limit the interaction between MDC1 and thyroid hormone receptor interactor 12 (TRIP12), a known E3 ubiquitin ligase for USP7.

The researchers found that the depletion of VGLL3 downregulates the expression of CtIP and MDC1 at the protein level, impairing the recruitment of multiple DNA damage response (DDR) factors to DSBs.

The unique E-rich and H-rich domains enable VGLL3 specific functions in stabilizing CtIP and MDC1, thereby synergistically promoting HR, which is not conserved among other VGLL family members. As a functional consequence, VGLL3 deficiency impairs HR repair and sensitizes cells to multiple DSB-inducing agents. Consistently, targeting VGLL3 inhibits and sensitizes xenografted tumors to etoposide treatment.

These findings reveal that VGLL3 can function as a DDR regulator that is essential for optimal initial DDR signaling and DSB end resection, which is independent of its roles in transcriptional regulation.

It is highly likely that VGLL3 may also regulate the stability of other DDR factors besides CtIP and MDC1, which remains to be identified in future studies.

Given that DDR can protect tumor cells from genotoxic drug treatment, a better therapeutic outcome can be achieved by inhibition of VGLL3 DDR function and its association with TEAD.

More information:
Wei Wu et al, VGLL3 modulates chemosensitivity through promoting DNA double-strand break repair, Science Advances (2024). DOI: 10.1126/sciadv.adr2643

Citation:
Researchers clarify role of VGLL3 in DNA double-strand break repair and chemotherapy (2024, October 11)
retrieved 11 October 2024
from https://medicalxpress.com/news/2024-10-role-vgll3-dna-strand-chemotherapy.html

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