Monitoring of minimal residual disease in MYCN-amplified neuroblastoma by chromosomal breakpoint recognition

A Szymansky; R Menon; MJ Witthauer; A Winkler; MJ Pogodzinski; MD Overath; J Toedling; F Hertwig; K Schönbeck; L Heukamp; J Heukmann; P Hundsdoerfer; A Eggert; M Fischer; C Eckert; JH Schulte

doi:10.1055/s-0038-1645024

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Klin Padiatr 2018; 230(03): 175
DOI: 10.1055/s-0038-1645024

Top 7 Novel approaches and applications

Georg Thieme Verlag KG Stuttgart · New York

Monitoring of minimal residual disease in MYCN-amplified neuroblastoma by chromosomal breakpoint recognition

A Szymansky

¹Charité Berlin

,

R Menon

²NEO New Oncology GmbH, Cologne

,

MJ Witthauer

¹Charité Berlin

,

A Winkler

¹Charité Berlin

,

MJ Pogodzinski

¹Charité Berlin

,

MD Overath

¹Charité Berlin

,

J Toedling

¹Charité Berlin

³DKTK, Berlin

,

F Hertwig

¹Charité Berlin

³DKTK, Berlin

,

K Schönbeck

¹Charité Berlin

,

L Heukamp

⁶Institut für Hämatopathologie, Hamburg

,

J Heukmann

²NEO New Oncology GmbH, Cologne

,

P Hundsdoerfer

¹Charité Berlin

³DKTK, Berlin

⁴BIH, Berlin

,

A Eggert

¹Charité Berlin

³DKTK, Berlin

⁴BIH, Berlin

,

M Fischer

⁷University Hospital Cologne, Germany

,

C Eckert

¹Charité Berlin

,

JH Schulte

¹Charité Berlin

³DKTK, Berlin

⁴BIH, Berlin

⁵DKFZ, Heidelberg

› Institutsangaben

Weitere Informationen

Publikationsverlauf

Publikationsdatum:
08. Mai 2018 (online)

Auch verfügbar auf

Introduction:

About 25% of all neuroblastoma cases show an amplification of MYCN and half of these relapse after first-line therapy, which implies the survival of neuroblasts, referred to as minimal residual disease (MRD). We show that detection of breakpoints can be used as MRD assay for MYCN-amplified neuroblastoma.

Methods:

We employ a custom hybrid capture-sequencing to recover patient-specific alterations from primary tumors. RQ-PCR and ddPCR are designed from the MYCN amplicon chromosomal breakpoints to assess MRD in bone marrow aspirates throughout therapy.

Results:

As a proof of concept, all MYCN breakpoints (n = 25) in ten neuroblastoma cell lines were successfully recovered. MYCN breakpoints were detectable in single tumor cells among up to 10⁶ reference cells. Moreoever, the assay recovered all MYCN breakpoints (n = 14) in patient tumors (n = 6) and breakpoints persisted up to relapse. Furthermore, we archived parallel detection of MYCN breakpoints and other mutated genes (e.g. ALK, TERT).

Conclusion:

We are establishing prospective MRD for individual high-risk patient follow-ups, to detect residual neuroblasts before their clinical manifestation, which may support therapy decisions.

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