Genomic instability and genetic heterogeneity in neuroblastoma tumours
Sammanfattning
Javanmardi, N., 2017, Genomic instability and genetic heterogeneity in neuroblastoma
Department of Pathology and Clinical Genetics, Institute of Biomedicine at
Sahlgrenska Academy, University of Gothenburg, Sweden
Neuroblastoma (NB), a tumour of the sympathetic nervous system and the most
common malignant disease of early childhood, is responsible for 9% of paediatric
cancer related deaths. Aggressive NB still constitutes a major clinical problem
with survival rates of about 35%. It is therefore of great clinical interest to further
study the biological parameters that can (i) better classify tumours so that the
children may be given the right treatment (ii) identify new actionable targets.
Aim - the objective of this thesis was to explore genes and chromosomal regions
with potential involvement in the initiation/progression of NB that can be used
for improved patient stratification.
Results – In paper I and III we detected point mutations in the tyrosine kinase
domain of the ALK oncogene. Minor population of cells with ALK mutations
were detected with massive parallel deep DNA sequencing. It is likely that early
detection of subclones with ALK mutation is critical in treatment of these
tumours with recently derived small molecule ALK inhibitors. We propose
increased serial sampling of tumour material from high-risk NB tumours and
analysis with the new sequencing techniques.
In paper II we observed that the distal part of chromosome arm 2p often is
subjected to gain of an extra copy – i.e. 2p-gain. Interestingly, this region contains
three genes, ALKAL2, MYCN and ALK, of strong importance for NB
development. We suggest that the gain of this “cassette” of genes is beneficial to
the NB tumor pathogenesis with potential to aid in therapeutical intervention.
In the last study, paper IV, we analysed the high-risk 11q-deleted NB tumours.
We show that 11q-deleted tumours with and without MYCN amplification
present different 11q-deletion breakpoint patterns. The detailed analysis of these
patterns enabled us to detect genes and chromosomal regions on 11q that may
contain tumour suppressors in this severe child cancer subgroup. Furthermore,
we propose DLG2 as a highly interesting 11q candidate NB gene.
Conclusion - Our observation of a significant spatiotemporal variation of ALK
mutations is of utmost importance in clinical practice. DLG2 stands out as a
strong tumor suppressor candidate for the 11q-deleted NBs. It is important to
note that the experiments we propose are expected to contribute to precision medicine.
Delarbeten
I . Schleiermacher G, Javanmardi N, Bernard V, Leroy Q, Cappo J, RioFrio T, Pierron G, Lapouble E, Combaret V, Speleman F, de Wild B, Djos A, Ora I, Hedborg F, Träger C, Holmqvist BM, Abrahamsson J, Peuchmaur M, Michon J, Janoueix-Lerosey I, Kogner P, Delattre O,
Martinsson T; Emergence of new ALK mutations at relapse of neuroblastoma. J
Clin Oncol. 2014 Sep 1;32(25):2727-34 ::pmid::25071110 I I . Javanmardi N, Fransson S, Djos A, Umapathy G, Östensson M, Milosevic J, Kogner P, Hallberg B, Martinsson T, and Palmer RH; The 2p cassette gain in neuroblastoma tumours, A potent combination of ALK,
MYCN and the ALK ligand ALKAL2 (FAM150B/AUGa). 2017, Manuscript I I I . Javanmardi N, Fransson S, Djos A, Sjöberg RM, Nilsson S, Lorentzen E, Truvé K, Kogner P, Martinsson T; Low frequency ALK hotspots mutations in
Neuroblastoma tumours detected by ultra deep sequencing: Implications for ALK inhibitor treatment. 2017, Manuscript IV. Javanmardi N, Fransson S, Djos A, Sjöberg RM, Östensson M, Bergerall A, Carén H, Beiske K, Palmer RH, Hallberg B, Noguera R, Kogner P and Martinsson T; Chromosome 11 in high-risk neuroblastoma
tumours; A loss and gain pattern indicative of both tumour suppressor and oncogene activity. 2017, Manuscript
Examinationsnivå
Doctor of Philosophy (Medicine)
Universitet
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Biomedicine. Department of Pathology
Disputation
Torsdagen den 23 november 2017, kl. 9.00, Hörsal Ivan Östholm, Medicinaregatan 13, Göteborg
Datum för disputation
2017-11-23
E-post
niloufar.javanmardi@gu.se
Datum
2017-11-03Författare
Javanmardi, Niloufar
Nyckelord
Neuroblastoma tumour
subclone
mutation
relapse
deep sequencing
tumour supressor gene
Publikationstyp
Doctoral thesis
ISBN
978-91-629-0336-7 (print)
978-91-629-0337-4 (PDF)
Språk
eng