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Assessment of aneuploidy in childhood acute lymphoblastic leukaemia using high density oligonucleotide arrays

Assessment of aneuploidy in childhood acute lymphoblastic leukaemia using high density oligonucleotide arrays
Assessment of aneuploidy in childhood acute lymphoblastic leukaemia using high density oligonucleotide arrays
Chromosomal copy number (CN) is an important prognostic index in childhood acute lymphoblastic leukaemia (ALL). High hyperdiploidy (51–65 chromosomes) is associated with a good prognosis and near haploidy (23–29) a poor outcome. Conventional cytogenetics produces accurate estimates of CN in the majority of cases but sometimes cytogenetic fails or the morphology of chromosomes in ALL is too poor for accurate identification. We have used single nucleotide polymorphism arrays (SNPA) to determine CN in 86 childhood ALL patients and have compared the results with conventional cytogenetic analysis. Comparison of hybridisation intensity to a reference set of 110 normal individuals was used to derive CN estimates on 34 samples obtained during remission from ALL. Twelve were analysed using GeneChip® Human Mapping 10K Array Xba 131 and 22 using Xba 142 version 2.0 arrays (Affymetrix). Gene copy number estimates for individual SNPs were averaged across the autosomes and X chromosome. Results confirmed that SNPA gave accurate estimates of CN in samples of normal cells. Analysis by SNPA was successful in all 86 presentation leukaemic samples. The results of conventional cytogenetic analysis was available in 75, 11 having a failed cytogenetic result. Estimates of CN were identical in 34 and within 1 chromosome in a further 28. High hyperdiploidy was observed in 28 cases. In 23 of these the cytogenetic and SNPA results were concordant, while in the remaining five cases with a normal (n=2) or a failed (n=3) cytogenetic result, there was evidence from interphase FISH analysis of a hidden, non-dividing high hyperdiploid clone. One patient had a SNPA result indicative of near-haploidy (23–29 chromosomes) and another low hypodiploidy (33–39 chromosomes) with the SNPA confirming the appropriate chromosomal losses. There was marked discordance in one case of near tetraploidy (a total underestimate of 33 chromosomes) but this was not unexpected as the four copies of most chromosomes comprised no allelic imbalance. Analysis of concordance for individual chromosomes showed that, of the 1679 chromosomes compared, there was concordance of copy number in 1517 (90%). The lowest concordance was for the X chromosome (79%) and chromosome 21 (77%). This level of discordance, at least for chromosome 21, may be explained by multiple copies with no allelic imbalance. For all other chromosomes the concordance level was above 80%. We have shown that SNPA can reliably estimate CN in high hyperdiploidy and near haploid cases. This is of great potential value for genome-wide screening in cases in which cytogenetics is not available. It also provides validation of the applicability of the technique for the analysis of DNA from the majority of tumour types which do not yield metaphases.
childhood, time, array
0006-4971
p.35A
Hall, Andrew G.
98c87a37-de0f-4a13-8f63-df1c55671740
Sulong, Sarina
345b2b2f-5c4a-4859-88f0-b98096de5eac
Harrison, Christine
c509c372-2275-44cd-ad07-296a289d6634
Minto, Lynne
4ffd3f1d-ffba-40d5-bb99-c1098dcb494b
Bown, Nick
86f5aed2-bbf4-42de-ab91-ff6408c721e7
Case, Marian C.
d27bb983-bf18-4e93-b824-288d469206b4
Bailey, Simon
0841f9a7-dfe7-48dd-9e97-5075ec6cc035
Irving, Julie
d6d4ae90-4a64-45f6-8c2a-360cf71cb999
Hall, Andrew G.
98c87a37-de0f-4a13-8f63-df1c55671740
Sulong, Sarina
345b2b2f-5c4a-4859-88f0-b98096de5eac
Harrison, Christine
c509c372-2275-44cd-ad07-296a289d6634
Minto, Lynne
4ffd3f1d-ffba-40d5-bb99-c1098dcb494b
Bown, Nick
86f5aed2-bbf4-42de-ab91-ff6408c721e7
Case, Marian C.
d27bb983-bf18-4e93-b824-288d469206b4
Bailey, Simon
0841f9a7-dfe7-48dd-9e97-5075ec6cc035
Irving, Julie
d6d4ae90-4a64-45f6-8c2a-360cf71cb999

Hall, Andrew G., Sulong, Sarina, Harrison, Christine, Minto, Lynne, Bown, Nick, Case, Marian C., Bailey, Simon and Irving, Julie (2006) Assessment of aneuploidy in childhood acute lymphoblastic leukaemia using high density oligonucleotide arrays. Blood, 108 (11), p.35A.

Record type: Article

Abstract

Chromosomal copy number (CN) is an important prognostic index in childhood acute lymphoblastic leukaemia (ALL). High hyperdiploidy (51–65 chromosomes) is associated with a good prognosis and near haploidy (23–29) a poor outcome. Conventional cytogenetics produces accurate estimates of CN in the majority of cases but sometimes cytogenetic fails or the morphology of chromosomes in ALL is too poor for accurate identification. We have used single nucleotide polymorphism arrays (SNPA) to determine CN in 86 childhood ALL patients and have compared the results with conventional cytogenetic analysis. Comparison of hybridisation intensity to a reference set of 110 normal individuals was used to derive CN estimates on 34 samples obtained during remission from ALL. Twelve were analysed using GeneChip® Human Mapping 10K Array Xba 131 and 22 using Xba 142 version 2.0 arrays (Affymetrix). Gene copy number estimates for individual SNPs were averaged across the autosomes and X chromosome. Results confirmed that SNPA gave accurate estimates of CN in samples of normal cells. Analysis by SNPA was successful in all 86 presentation leukaemic samples. The results of conventional cytogenetic analysis was available in 75, 11 having a failed cytogenetic result. Estimates of CN were identical in 34 and within 1 chromosome in a further 28. High hyperdiploidy was observed in 28 cases. In 23 of these the cytogenetic and SNPA results were concordant, while in the remaining five cases with a normal (n=2) or a failed (n=3) cytogenetic result, there was evidence from interphase FISH analysis of a hidden, non-dividing high hyperdiploid clone. One patient had a SNPA result indicative of near-haploidy (23–29 chromosomes) and another low hypodiploidy (33–39 chromosomes) with the SNPA confirming the appropriate chromosomal losses. There was marked discordance in one case of near tetraploidy (a total underestimate of 33 chromosomes) but this was not unexpected as the four copies of most chromosomes comprised no allelic imbalance. Analysis of concordance for individual chromosomes showed that, of the 1679 chromosomes compared, there was concordance of copy number in 1517 (90%). The lowest concordance was for the X chromosome (79%) and chromosome 21 (77%). This level of discordance, at least for chromosome 21, may be explained by multiple copies with no allelic imbalance. For all other chromosomes the concordance level was above 80%. We have shown that SNPA can reliably estimate CN in high hyperdiploidy and near haploid cases. This is of great potential value for genome-wide screening in cases in which cytogenetics is not available. It also provides validation of the applicability of the technique for the analysis of DNA from the majority of tumour types which do not yield metaphases.

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More information

Published date: 16 November 2006
Additional Information: ASH Annual Meeting Abstracts, Oral Sessions. Abstract 104.
Keywords: childhood, time, array

Identifiers

Local EPrints ID: 62764
URI: http://eprints.soton.ac.uk/id/eprint/62764
ISSN: 0006-4971
PURE UUID: b5e70b0e-a139-4b5d-aa82-d8ff8168035a

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Date deposited: 10 Nov 2008
Last modified: 22 Jul 2022 21:17

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Contributors

Author: Andrew G. Hall
Author: Sarina Sulong
Author: Christine Harrison
Author: Lynne Minto
Author: Nick Bown
Author: Marian C. Case
Author: Simon Bailey
Author: Julie Irving

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