Chromosomal translocation t(X;11)(q22;q23) involving the MLL gene

Adriana Zamecnikova, Soad Al Bahar, Hassan A Al Jafar, Rames Pandita Affiliation

Kuwait Cancer Control Center, Dep of Hematology, Laboratory of Cancer Genetics, Kuwait (AZ, SAB, RP); Dep of Hematology, Amiri Hospital, Kuwait (HAAJ)

Previous history

Preleukaemia

Malignant disease

Inborn condition

Clinics case report

Age

15 mths

Sex

Liver

Spleen

Lymph nodes

Cns involv

Blood data

Wbc

50.2 (neutrophils 2%, lymphocytes 68%, probably blasts, monocytes 16%, atypical lymphocytes 14% undifferenciated cells)

10.2

Platelets

191

Blasts

Bone marrow

The bone marrow was hypercellular with more than 50% blasts that were positive for CD45, CD33, CD15, CD13, CD14 and HLA-DR.

Cyto path

Cytology

AML M4

Immunophenotype

M4. CD13+,CD14+, CD15+, CD33+, CD45+, CD64+ and MPO.

Precise diagnosis

Acute myelomonocytic leukemia

Survival data

Date diagnosis

02-2010

Treatment

Chemotherapy (ADE)

Complete remission

Treatment relat death

Relapse

Status

Date last follow

02-2011

Survival

Karyotype

Sample

Culture time

Banding

G-band

Karyotype relapse

46,XY [5] / 46,Y,t(X;11)(q22;q23) [25]

Mol cytogenet technics

Fluorescence in situ hybridization.

Mol cytogenet results

MLL rearrangement was identified using the LSI MLL (11q23) Dual Color Break Apart Rearrangement probe (Abbott Molecular) revealing 80% of cells with MLL rearrangement. The rearrangement was confirmed in metaphases demonstrating that the distal part of the MLL gene was juxtaposed to the der(X) chromosome.

Images

Top: partial karyotype of the patient. Bottom: fluorescence in situ studies were performed successively on G-banded slides prepared for chromosome analysis using a locus-specific, break-apart probe for MLL (green and red signals) and with centromeric X/Y probe (Vysis) (red and green signal). Hybridization on metaphase cells with the MLL probe detected one MLL signal on the normal chromosome 11 (red-green fusion signal) and signals on the der(11) (green signal) and the der(X), confirming MLL disruption. The red signal from MLL has moved to the derivative chromosome X, indicating that the breakpoint is in the 5 of the MLL gene. Arrows indicate derivative chromosomes, arrow heads are pointing to derivative chromosomes X and 11.

Comments section

Comments

As the gene in Xq22 is yet unknown, it is therefore uncertain whether this translocation involve a new MLL partner. Due to the similar clinical features with patients with t(X;11)(q13;q23) involving the FOXO4/MLL genes, (such as occurrence in infants and young children diagnosed with acute myelomonocytic leukemia), the possibility of involvement of FOXO4 or FOXO related gene in our patient cannot be excluded. In addition as MLL rearrangements are frequently confirmed in cases with highly complex changes, complex and/or cryptic changes cannot be excluded.

Bibliography

Pubmed ID	Last Year	Title	Authors
9593286	1998	Ten novel 11q23 chromosomal partner sites. European 11q23 Workshop participants.	Harrison CJ et al
8220128	1993	Acute megakaryoblastic leukemia in children and adolescents: a retrospective analysis of 24 cases.	Ribeiro RC et al
18633615	2008	The application of conventional cytogenetics, FISH, and RT-PCR to detect genetic changes in 70 children with ALL.	Soszynska K et al

Citation

Adriana Zamecnikova, Soad Al Bahar, Hassan A Al Jafar, Rames Pandita

Chromosomal translocation t(X;11)(q22;q23) involving the MLL gene

Atlas Genet Cytogenet Oncol Haematol. 2011-09-01

Online version: http://atlasgeneticsoncology.org/case-report/208854/chromosomal-translocation-t(x;11)(q22;q23)-involving-the-mll-gene