Acta Neuropathologica Communications (Jul 2018)

Medulloblastoma therapy generates risk of a poorly-prognostic H3 wild-type subgroup of diffuse intrinsic pontine glioma: a report from the International DIPG Registry

  • Hunter C. Gits,
  • Maia Anderson,
  • Stefanie Stallard,
  • Drew Pratt,
  • Becky Zon,
  • Christopher Howell,
  • Chandan Kumar-Sinha,
  • Pankaj Vats,
  • Katayoon Kasaian,
  • Daniel Polan,
  • Martha Matuszak,
  • Daniel E. Spratt,
  • Marcia Leonard,
  • Tingting Qin,
  • Lili Zhao,
  • James Leach,
  • Brooklyn Chaney,
  • Nancy Yanez Escorza,
  • Jacob Hendershot,
  • Blaise Jones,
  • Christine Fuller,
  • Sarah Leary,
  • Ute Bartels,
  • Eric Bouffet,
  • Torunn I. Yock,
  • Patricia Robertson,
  • Rajen Mody,
  • Sriram Venneti,
  • Arul M. Chinnaiyan,
  • Maryam Fouladi,
  • Nicholas G. Gottardo,
  • Carl Koschmann

DOI
https://doi.org/10.1186/s40478-018-0570-9
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 12

Abstract

Read online

Abstract With improved survivorship in medulloblastoma, there has been an increasing incidence of late complications. To date, no studies have specifically addressed the risk of radiation-associated diffuse intrinsic pontine glioma (DIPG) in medulloblastoma survivors. Query of the International DIPG Registry identified six cases of DIPG with a history of medulloblastoma treated with radiotherapy. All patients underwent central radiologic review that confirmed a diagnosis of DIPG. Six additional cases were identified in reports from recent cooperative group medulloblastoma trials (total n = 12; ages 7 to 21 years). From these cases, molecular subgrouping of primary medulloblastomas with available tissue (n = 5) revealed only non-WNT, non-SHH subgroups (group 3 or 4). The estimated cumulative incidence of DIPG after post-treatment medulloblastoma ranged from 0.3–3.9%. Posterior fossa radiation exposure (including brainstem) was greater than 53.0 Gy in all cases with available details. Tumor/germline exome sequencing of three radiation-associated DIPGs revealed an H3 wild-type status and mutational signature distinct from primary DIPG with evidence of radiation-induced DNA damage. Mutations identified in the radiation-associated DIPGs had significant molecular overlap with recurrent drivers of adult glioblastoma (e.g. NRAS, EGFR, and PTEN), as opposed to epigenetic dysregulation in H3-driven primary DIPGs. Patients with radiation-associated DIPG had a significantly worse median overall survival (median 8 months; range 4–17 months) compared to patients with primary DIPG. Here, it is demonstrated that DIPG occurs as a not infrequent complication of radiation therapy in survivors of pediatric medulloblastoma and that radiation-associated DIPGs may present as a poorly-prognostic distinct molecular subgroup of H3 wild-type DIPG. Given the abysmal survival of these cases, these findings provide a compelling argument for efforts to reduce exposure of the brainstem in the treatment of medulloblastoma. Additionally, patients with radiation-associated DIPG may benefit from future therapies targeted to the molecular features of adult glioblastoma rather than primary DIPG.

Keywords