To the Editor:

We read with interest the recent letter by Cuneo et al,1 which raises important issues about the diagnosis and classification of acute myeloid leukemia (AML)-M0 and its relation with AML-M1. The authors point out the very high incidence of AML-M0 (8.9%) and AML-M1 (19.5%) in our series2 compared with two large multicentric studies3 4 which yielded an incidence of 0.1% and 4% for AML-M0 and 16.4% and 10% for AML-M1, respectively. Moreover, they argue about the high incidence of chromosome changes among our AML-M1 cases. Accordingly, the authors emphasize the need for uniform criteria for patient selection and centralized review to make a correct diagnosis.

Our apparently higher incidence of AML-M0 is basically due to the inclusion of cases that carried lymphoid antigens. In fact, apart from those cases which fit classical French-American-British (FAB) criteria for AML-M0 diagnosis (<3% of the blasts positive for myeloperoxidase [MPO] and/or Sudan Black B [SBB], positivity for myeloid markers and lack of B-T-lineage associated antigens),5 we regarded as AML-M0 even cases bearing lymphoid antigens, based on the positivity of anti-MPO and negativity for cCD3 or cCD22.2,6,7 We believe that the expression of membrane lymphoid antigens does not necessarily exclude a diagnosis of AML-M0, once documented by immunologic/electron microscopy (EM) assay the presence of MPO. The expression of lymphoid markers might represent only an aspect of a broad heterogeneity of M0 leukemias whose common feature is a poor clinical outcome.7 Conversely, the coordinate expression of anti-MPO, cCD3, or cCD22 defines “genuine biphenotipic” leukemia,8 which is supposed to represent a distinct entity: two of our cases with these features were excluded from the analysis. A routinely immunologic approach for acute leukemia diagnosis should also use monoclonal antibodies (MoAbs) for cytoplasmic MPO, CD3, and CD229 (or as more recently suggested CD79a) to avoid underestimation of AML-M0 and an incorrect diagnosis of acute lymphoid leukemia. In this view, neither C-kit nor antilysozyme MoAb can help to definitively ascertain the diagnosis. In fact, in ours and the experience of others,7,10 CD117 expression was found not to be peculiar of immature AML; in addition, immunologic detection of lysozyme would miss those immature monocytic/monoblastic leukemia that have not yet become competent for lysozyme synthesis.11 

Regarding our 19.5% incidence of AML-M1 cases, we do not believe this figure represents a remarkable difference when compared with a 16.4% incidence observed in the large GIMEMA/EORTC trial; Ball et al12 reported an overall incidence of 20% of AML-M1 cases among 339 de novo acute myeloid leukemia. Twenty-eight of 50 observed cases of AML-M1 have been used for cytogenetic comparison as only for them chromosome pattern was available: this was the sole selection criteria and it may account for the higher rate of chromosome abnormalities as compared to the study by Cuneo et al.1 However, most of our cases were recruited to multicentric trials (EORTC/GIMEMA AML8a/b, AML10, AML12, and Amgen protocol G-CSF 91134) and centrally reviewed from a morphological and cytochemical point of view. Finally, the discrepancy in Table 1 between the number of observed cases in the different cytogenetic groups and the total number of patients is obviously due to a typographical error and we apologize for that. In fact, the category “Others” is = 5/19 instead of 6/19.

In conclusion, we certainly agree with the crucial value of a centralized reviewing for the recognition of different AML subsets and the homogeneous application of FAB criteria. For the same reasons centralized reviewing appears desirable even for phenotypic and kariotypic studies.

1
Cuneo
A
Castoldi
G
Michaux
JL
Ferrant
A
Chatelain
B
Louwagie
A
Boogaerts
M
Dal
Cin P
Van den Berghe
Differences in the chromosomal profile of AML-M0 versus AML-M1: Response.
Blood
87
1996
5381
2
Venditti A, Del Poeta G, Stasi R, Buccisano F, Aronica G, Bruno A, Cox C, Maffei L, Tamburini A, Papa G, Amadori S: Biological profile of 23 cases of minimally differentiated acute myeloid leukemia (AML-M0) and its clinical implications. Blood 87:418, 1996 (letter)
3
Zittoun
R
Mandelli
F
Willemze
R
de Witte
T
Labar
B
Resegotti
L
Leoni
F
Damasio
E
Visani
G
Papa
G
Caronia
F
Hayat
M
Stryckmans
P
Rotoli
B
Leoni
P
Peetermans
ME
Dardenne
M
Vegna
ML
Petti
MC
Solbu
S
Suciu
S
the European Organization for Research and Treatment of Cancer (EORTC) and the Gruppo Italiano Malattie Ematologiche Maligne dell'Adulto (GIMEMA) Leukemia cooperative groups
Autologous or allogeneic bone marrow transplantation compared with intensive chemotherapy in acute myelogenous leukemia.
N Engl J Med
332
1995
217
4
Castoldi
GL
Liso
V
Fenu
S
Vegna
ML
Mandelli
F
Reproducibility of the morphological diagnostic criteria for acute myeloid leukemia: The GIMEMA group experience.
Ann Hematol
66
1993
171
5
Bennett
JM
Catovsky
D
Daniel
MT
Flandrin
G
Galton
DAG
Gralnick
HR
Sultan
C
Proposals for the recognition of minimally differentiated acute myeloid leukaemia.
Br J Haematol
78
1991
325
6
Venditti
A
Del Poeta
G
Stasi
R
Masi
M
Bruno
F
Buccisano
F
Cox
C
Coppetelli
U
Aronica
G
Simone
MD
Tribalto
M
Amadori
S
Papa
G
Minimally differentiated acute myeloid leukaemia (AML-M0): Cytochemical, immunophenotypic and cytogenetic analysis of 19 cases.
Br J Haematol
88
1994
784
7
Venditti A, Del Poeta G, Buccisano F, Tamburini A, Cox C, Stasi R, Bruno A, Aronica G, Maffei L, Suppo G, Simone MD, Forte L, Cordero V, Postorino M, Tufilli V, Isacchi G, Masi M, Papa G, Amadori S: Minimally differentiated acute myeloid leukemia (AML-M0): Comparison of 25 cases with other FAB subtypes. Blood 1997 (in press)
8
Buccheri
V
Matutes
E
Dyer
MJ
Catovsky
D
Lineage commitment in biphenotypic acute leukemia.
Leukemia
7
1993
919
9
International Council for Standardization in Haematology (ISCH)
Recommeded procedures for the classification of acute leukemias.
Leuk Lymphoma
37
1993
50
10
Reuss-Borst
MA
Buhring
HJ
Schmidt
H
Muller
CA
Immunophenotypic heterogeneity and prognostic significance of C-kit expression.
Leukemia
8
1994
254
11
Bain
B
Manoharan
A
Lampit
I
McKenzie
C
Catovsky
D
Lymphoma-like presentation of acute monocytic leukemia.
J Clin Pathol
36
1983
559
12
Ball
E
Davis
RB
Griffin
JD
Mayer
RJ
Davey
FR
Arthur
DC
Wurster-Hill
D
Noll
W
Elghetany
MT
Allen
SL
Rai
K
Lee
EJ
Schiffer
CA
Bloomfield
CD
Prognostic value of lymphocyte surface markers in acute myeloid leukemia.
Blood
77
1991
2242
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