1. Sperm DNA methylation dynamics after chemotherapy: a longitudinal study of a patient with testicular germ cell tumor treatment.
- Author
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Neyroud, Anne‐Sophie, Rolland, Antoine Dominique, Lecuyer, Gwendoline, Evrard, Bertrand, Alary, Nathan, Dejucq‐Rainsford, Nathalie, Bujan, Louis, Ravel, Célia, and Chalmel, Frédéric
- Subjects
DNA methylation ,TUMOR treatment ,MALE infertility ,GERM cell tumors ,SPERMATOZOA ,CANCER chemotherapy ,LONGITUDINAL method - Abstract
Background: An important issue for young men affected by testicular germ cell tumor (TGCT) is how TGCT and its treatment will affect, transiently or permanently, their future reproductive health. Previous studies have reported that xenobiotics can induce changes on human sperm epigenome and have the potential to promote epigenetic alterations in the offspring. Objectives: Here, we report the first longitudinal DNA methylation profiling of frozen sperm from a TGCT patient before and up to 2 years after a bleomycin, etoposide, and cisplatin (BEP) chemotherapy. Materials and methods: A TGCT was diagnosed in a 30‐year‐old patient. A cryopreservation of spermatozoa was proposed before adjuvant BEP treatment. Semen samples were collected before and after chemotherapy at 6, 9, 12, and 24 months. The DNA methylation status was determined by RRBS to detect DNA differentially methylated regions (DMRs). Results: The analysis revealed that among the 74 DMRs showing modified methylation status 6 months after therapy, 17 remained altered 24 months after treatment. We next associated DMRs with differentially methylated genes (DMGs), which were subsequently intersected with loci known to be important or expressed during early development. Discussion and conclusion: The consequences of the cancer treatment on the sperm epigenome during the recovery periods are topical issues of increasing significance as epigenetic modifications to the paternal genome may have deleterious effects on the offspring. The altered methylated status of these DMGs important for early development might modify their expression pattern and thus affect their function during key stages of embryogenesis, potentially leading to developmental disorders or miscarriages. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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