Evaluation of clonality in lentigo maligna
- Author(s)
- Lim, SS; Zhao, P; Wong, NC; Szeto, P; Wilson, T; Mitchell, H; Vergara, IA; Bruscino-Raiola, F; McCormack, C; Webb, A; Henderson, MA; McLean, C; Papenfuss, AT; Mar, V; Shackleton, M;
- Journal Title
- Journal of Investigative Dermatology
- Publication Type
- Online publication before print
- Abstract
- Lentigo maligna (LM), a type of in situ melanoma, has a high rate of local recurrence following surgical resection. Although recurrences might represent inadequately excised incident LMs, apparent recurrences could be new primary LMs developing from distinct melanocytic clones in the same ultraviolet radiation-damaged anatomical region. As distinguishing these possibilities has implications for patient management, we tested genetic relationships between incident and recurrent LMs. Incident LMs with histologically clear margins and their recurrent LMs and invasive lentigo maligna melanomas (LMMs) were laser microdissected for DNA extraction. Tumour and matched germline DNA underwent whole exome sequencing. Clonal relationships between incident and recurrent LMs were tested by elucidating and tracking clones within and across samples. Seven incident LMs with recurrent LM and four with recurrent LMM were sequenced. LM/LMMs had a high mutational burden, a predominant UVR signature, copy number alterations, and defects in DNA repair and cell cycle checkpoint regulator genes. All incident LMs were clonally related to their post-operative local recurrences. We found that local recurrences of LM commonly arise from subclinical residual disease after surgery. The mutational landscape of recurrent LM/LMMs was typical of melanomas arising from chronic sun exposure, but also displayed features described in late-stage melanomas.
- Keywords
- bioinformatics; melanoma; surgical oncology; translational research; tumor evolution
- Department(s)
- Surgical Oncology; Laboratory Research
- Publisher's Version
- https://doi.org/10.1016/j.jid.2025.12.013
- Terms of Use/Rights Notice
- Refer to copyright notice on published article.
Creation Date: 2026-01-22 02:13:26
Last Modified: 2026-01-22 02:13:47