Extreme acute radiation‐induced toxicity in a patient with polymorphous low‐grade adenocarcinoma of the nasopharynx and rare variants in DNA repair genes

Abstract

AbstractBackgroundPolymorphous low‐grade adenocarcinoma (PLGA) is an extremely rare finding in the nasopharynx. There are no guidelines for the treatment of PLGA in this localization. Radiotherapy may be administered to treat this malignancy; however, in radiosensitive individuals, it is associated with a risk of severe radiotherapy‐induced toxicity.MethodsWe present a case of a 73‐year‐old woman with locally advanced polymorphous low‐grade adenocarcinoma of the nasopharynx who developed a severe adverse acute reaction to radiotherapy leading to treatment discontinuation. Despite intensive treatment, the patient died 40 days after RT initiation. Whole genome sequencing was performed using DNA from peripheral blood mononuclear cells in the search for variants that could explain such extreme toxicity.ResultsWe identified a combination of pathogenic variants that may have contributed to the patient's reaction to radiation therapy, including predisposing variants in XRCC1, XRCC3, and LIG4. We also identified candidate variants, not previously described in this context, which could be associated with radiation toxicity based on plausible mechanisms. We discuss previous reports of this rare tumor from the literature and known contributors to radiation‐induced toxicity.ConclusionsGenetic causes should be considered in cases of extreme radiosensitivity, especially when is not explained by clinical factors.