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Belang van cytogenetica bij CLL Barbara Cauwelier Voorjaarssymposium Hematologie 23.4.2016 FISH
Belang van cytogenetica bij CLL
Barbara Cauwelier
Voorjaarssymposium Hematologie 23.4.2016
FISH
Conventional karyotyping
Recurrent aberrations in CLL
Gahrton, Blood 1980
• Low mitotic index : only 40% aberrations >> 80% after B cell stimulation CpG-IL2
• sub-optimal quality of oncological metaphases
• Low sensitivity: 3/20 metaphases
• Low resolution (10 Mb) : del 13q > del 17p often missed
• Laborintensive (2-3 W)
• Expertise
• Whole genome
• Balanced / unbalanced translocations
• Cheap
Fluorescence In Situ Hybridization
FISH
Cytogenetic prognostic markers of CLL
Interphase FISH ; 325 CLL
>80% aberrations 5 cytogenetic risk groups:
17p deletion (TP53) 7% 4%11q deletion (ATM) 18% 9%Trisomy 12 16% 12%Normal 18% 33%13q deletion (RB1) 55% 46%
clinical characteristics : •TP53 deletion: fludarabine resistence•Trisomy 12 : atypical morphology•ATM deletion: lymphadenopathy
Döhner et al N Engl J Med 2000Hernandez et al Haematologica, 2009
Interphase FISH ; 350 CLL
• No need for dividing cells (smears, imprints, FFPE)
• Higher sensitivity : 5/100
• Higher resolution : 100-200 kb vb del 13q/del 17p
• Fast (2d)
• Semi-quantitative
• Targeted :TP53,ATM,RB1,CEP12
• New translocations
• Expensive : € 20 per probe (€ 100 per patient)
• Not suited for MRD ; only at diagnosis/transformation
• Expertise interpretation/labourintensive
Fluorescence In Situ Hybridization
Comparative Genomic Hybridization on array
Array : slide imprinted with BAC (FISH) clones or oligonucleotides selected throughoutthe whole genome (or region of interest)
Hybridisation of tumor DNA vs normal DNA (Comparative)
High resolution *BAC clones: cfr FISH (100-200kb)
*oligonucleotides: 60 bp
* SNPs (single nucleotide) : aUPD
Array CGH
BAC aCGH
Oligo aCGH
• Whole genome
• High resolution
• Deletions/amplifications (incl cryptic or new)
• Unbalanced translocations
• Low quality DNA (FFPE)
• ‘Simple’ interpretation
• Balanced translocations
• Normal copy number variants (CNV)
• Tumorsize at least 20%
• No quantitative result
Molecular karyotyping
Detection rate of prognostic markers
by different cytogenetic techniques
Karyotype aCGH FISH
del (13)(q14) 3(17 missed :
0.6 Mb-16 Mb)
20 20
afwijkend mannelijk:
del(13)(q14.11q21.1)
del(13)(q14) aanwezig in
45% van de cellen 46,XY,del (13)(Q14Q21) (8)
Karyotype aCGH FISH
+12 6
(1 missed : 8%)
5
(2 missed: 8-12%)
7
Detection rate of prognostic markers
by different cytogenetic techniques
Karyotype aCGH FISH
del (11)(q22) 3
(1 missed : 10%)
4 4
Detection rate of prognostic markers
by different cytogenetic techniques
Karyotype aCGH FISH
del (17)(p13) 3
(2 missed : 10-
25%)
3
(2 missed: 10-
25%)
5
Detection rate of prognostic markers
by different cytogenetic techniques
13q14 deletions :
55% of CLL, similar frequency in CLL-MBL (early event)
Isolated : Good prognosis
Array CGH Heterogeneous !
MDR: miR-15a and miR16-1 : tumor suppressor genes ; downregulation leads to increased BCL2 expression
Cytogenetic prognostic markers of CLL : What’s new ?
RB1
MDR: miR-15a and miR16-1
Y Pekarsky1and C M Croce1
Cell Death and Differentiation (2015)
2 types 13q14 deletions with different prognostic value
type I deletions (80%) : small deletion 13q involving only miR-15aand miR16-1
type II deletions (20%) : 13q loss involving RB1 gene : shorter TTFT and OS
> 2 Mb
strong association with elevated genomic complexity ( copy number aberrations)
may contribute to CLL disease evolution through genomic destabilization
P.Ouilette et al. Clin Cancer Res. 2011
Cytogenetic prognostic markers of CLL : What’s new ?
normal type II type I
Biallelic loss of 13q14 in 30% of 13q deleted CLLs (2013)
small type I deletions evolution of monoallelic 13q14 deletion : more aggressive ? no significant differences in clinical outcome by different studies
Higher percentage of 13q14 deleted nuclei : > 80 % deleted nuclei
overexpression of genes involved in proliferation ≈ % deleted nuclei Higher lymphocyte count, diffuse bone marrow infiltration significant shorter TTFT and OS than normal karyotype gene expression pattern similar to 11q- cases
Although heterogeneity of 13q deletion, studies that integrate molecular
and cytogenetic data keep 13q deletion as very low-risk group
Cytogenetic prognostic markers of CLL : What’s new ?
Hernandez et al Haematologica, 2009
Trisomy 12
Clonal driver mutation (early in CLL )
10-20% of CLL, 8-22% of MBL (both HC and LC-MBL)
Often unique cytogenetic aberration (40-60%)
Atypical morphology and immunophenotype
Atypical morphology : CLL with > 10% larger lymphocytes with cleft and folded nuclei, CLL-PL
Atypical immunophenotype : FMC7+, bright sIg expression, Catovsky score < 3/5
Diagnostic for (atypical) CLL : DD Mantle cell lymphoma
CLL with trisomy 12 : mostly catovsky score < 3/5 and CD200 – (cfr MCL), CCND1/BCL1 negative
Cytogenetic prognostic markers of CLL : What’s new ?
Trisomy 12
- Prognosis : First studies : agressive clinical coarse low - intermediate
• depending on the presence of concurrent mutations or deletions
• Patients with trisomy 12 in the absence of TP53, NOTCH1 or other mutations have similarsurvival than those with normal FISH findings
• Patients with trisomy 12 and NOTCH 1/ SF3B1 mutations have similar survival as del 11q22
Del 17p (TP53)
3-8% of CLL diagnosis; up to 30% in refractory CLL patiënts Highest risk category No response to standard treatment for CLL
(FC: fludarabine-cyclofosfamide) or FCR (FC+rituximab)
Percentage of 17p deleted nuclei prognostic important
cut-off : 20-25%
clone size has a negative impact on OS and response to treatment as a continious variable
Rare cryptic deletions 17p can be detected by aCGH
smaller than FISH probes
Additional mutations in TP53 non-deleted allele :
75% of del 17p, 5% in non del 17p Sanger sequencing/NGS Monoallelic inactivation of TP53 is enough for resistance to treatment and clonal selection
Delgado et al. BJH 2012
Del 11q (ATM)
10-15% of CLL diagnosis; 30% in refractory CLL
Large deletions (>20 Mb) including entire ATM gene
Clinically progressive disease , lymphadenopathy, shorter TTFT, lower treatment response following standard chemotherapy (FC)
Percentage of 11q deleted nuclei prognostic important
<25% 11q deleted nuclei experienced longer TTFT compared with patients with ≥25% 11q deleted nuclei and also showed better response to treatments
(Marasca et al, Hematolgical Oncology 2013)
Genetic mutations associated with higher percentage (>40%) of 11q deleted cells :
SF3B1, NOTCH1, TP53, BIRC3 (not for ATM)
(Hernandez et al, PLOS 2015)
Del 11q (ATM)
ATM deletions mostly include the BIRC3 gene
11q deleted CLL : 83% including BIRC3 gene ATM or BIRC3 responsible for worse prognosis ?
ATM mutation rather than BIRC3 deletion or mutation predicts reduced survival in 11q deleted CLL (Rose-Zerilli, Haematologica 2014)
Additional mutations in ATM in non-deleted allele :
31% ATM mutations in del 11q (ex 3-59, no hotspots)
5% BIRC3 mutations , mostly associated with BIRC3 deletion Monoallelic inactivation of ATM by eiter deletion or mutation is not enough for
impaired therapy response; biallelic ATM lesions as bad as TP53 alterations
Which cytogenetic test at CLL diagnosis/ evolution ?
Karyotyping aCGH FISH
Known
prognostic
factors
+12, del11q +12, del11q, del 13q, del17p
except for small clones ( < 20%)
+12, del11q, del 13q, del17p
(cut-off 5%)
Additional
findings
Chromosomal translocations :
27%
IgH, 13q14, other B-NHL
other genome loss or gain
detection of (novel)
cryptic aberrations (del17p)
Clinical
importance
Complex karyotype (> 3) or
unbalanced translocations :
13,6% poor prognosis (often
associated with del11q or del17p)
6q deletions (9 %): ?
2p gain (MYCN): up to 28% , risk
of transformation Richter, shorter
OS
8p+, 8q+ : 2-5% : shorter OS?
MYC : < 1% ; transformation;
poor prognosis
diagnosis
evolution
