To the editor:
Recently, mutations in the CBL gene have been demonstrated in patients with juvenile myelomonocytic leukemia (JMML).1 Screening for CBL mutation using DNA from peripheral blood mononuclear cells (PBMCs) taken after informed consent of the patients' guardians revealed the presence of heterozygous CBL mutations in 4 (case nos. 1 and 4, in remission; case nos. 2 and 3, at diagnosis) of 12 JMML patients who possessed wild-type NRAS, KRAS, and PTPN11 genes and did not exhibit the clinical features of neurofibromatosis type I (Table 1). This study was approved by the Institutional Review Board of Shinshu University. To elucidate the possibility of the coexistence of cells harboring homozygous mutations, those with heterozygous mutations, and normal clones, we performed genetic analyses using DNA from granulocyte-macrophage colony constituent cells, erythroid colony constituent cells, or nails.3 The 3 JMML patients (case nos. 1-3) had heterozygous and/or homozygous CBL mutations. Taken together with the data obtained by microsatellite analysis for the detection of a loss of heterozygosity and those obtained by multiplex ligation probe amplification analysis for the determination of copy numbers, homozygous CBL mutations in 2 patients appeared to result from acquired uniparental disomy (UPD).4,5 DNA obtained from the nails of case nos. 1 and 2 had heterozygous CBL mutations identical to blood samples, suggesting that the patients had germline heterozygous CBL mutations. These patients did not exhibit the neurologic abnormalities reported by Niemeyer et al.6 It is of interest that case nos. 1 and 2 have achieved hematologic improvement after nonintensive chemotherapy and approximately 15- to 28-year survival. Although Muramatsu et al7 reported no difference in the probability of 2-year overall survival between JMML patients with and those without CBL mutations, some JMML patients with the mutations may not always show a poor prognosis.
. | Case 1 . | Case 2 . | Case 3 . | Case 4 . |
---|---|---|---|---|
Diagnostic criteria of JMML2 | Compatible | Compatible | Compatible | Compatible |
At diagnosis | ||||
Age | 9 mo | 5 mo | 2 mo | 2 mo |
Leukocytes, ×109/L | 38.5 | 68.6 | 24.3 | 31.9 |
Immature myeloid cells, % | 22 | 12 | 6.5 | 1 |
Monocytes, % | 11 | 13 | 13 | 15 |
Bone marrow blasts, % | 1.5 | 3 | 1.6 | 1 |
Hemoglobin, g/L | 126 | 113 | 58 | 108 |
Platelets, ×109/L | 72 | 151 | 13 | 382 |
Hemoglobin F, % | 9.4 | 7.8 | 10.7 | 17.2 |
Liver/spleen, length (cm)* | 3/4.5 | 6/10 | 5/4.5 | 1.5/0 |
Karyotype | Normal | Normal | Normal | Normal |
BCR/ABL fusion gene | − | − | − | − |
GM-CSF hypersensitivity | + | + | + | − |
Treatment (duration) | 6-MP (28 y) | 6-MP+Ara-C (12 y) | 6-MP, UBMT | None |
Outcome | Alive | Alive | Died of GVHD | Alive |
At present | ||||
Age | 28 y | 15 y | 16 y | |
Leukocytes, ×109/L | 5.8 | 8.6 | 6.3 | |
Immature myeloid cells, % | 0 | 1 | 0 | |
Monocytes, % | 5 | 12 | 6 | |
Hemoglobin, g/L | 117 | 137 | 133 | |
Platelets, ×109/L | 170 | 136 | 283 | |
Liver/spleen, cm | 0/0 | 0/0 | 0/0 | |
Treatment | 6-MP | None | None | |
CBL mutation type | 1250C>G | 1111T>C | 1255T>C | 1096-1G>T |
Nail | Ht | Ht | NA | Wt |
Colony-constituent cells at onset | ||||
GM, Ho/Ht/Wt | NA | 15/0/0 | 10/6/0 | NA |
Erythroid, Ho/Ht/Wt | NA | 11/0/0 | 2/7/0 | NA |
Colony-constituent cells at present | ||||
GM, Ho/Ht/Wt | 0/4/0 | 15/0/0 | 0/9/2 | |
Erythroid, Ho/Ht/Wt | 0/9/0 | 15/0/0 | 0/17/1 | |
CD3+ cells | Ht | Ht | Ht | Ht |
CD20+ cells | Ht | Ht | Ht | Ht |
. | Case 1 . | Case 2 . | Case 3 . | Case 4 . |
---|---|---|---|---|
Diagnostic criteria of JMML2 | Compatible | Compatible | Compatible | Compatible |
At diagnosis | ||||
Age | 9 mo | 5 mo | 2 mo | 2 mo |
Leukocytes, ×109/L | 38.5 | 68.6 | 24.3 | 31.9 |
Immature myeloid cells, % | 22 | 12 | 6.5 | 1 |
Monocytes, % | 11 | 13 | 13 | 15 |
Bone marrow blasts, % | 1.5 | 3 | 1.6 | 1 |
Hemoglobin, g/L | 126 | 113 | 58 | 108 |
Platelets, ×109/L | 72 | 151 | 13 | 382 |
Hemoglobin F, % | 9.4 | 7.8 | 10.7 | 17.2 |
Liver/spleen, length (cm)* | 3/4.5 | 6/10 | 5/4.5 | 1.5/0 |
Karyotype | Normal | Normal | Normal | Normal |
BCR/ABL fusion gene | − | − | − | − |
GM-CSF hypersensitivity | + | + | + | − |
Treatment (duration) | 6-MP (28 y) | 6-MP+Ara-C (12 y) | 6-MP, UBMT | None |
Outcome | Alive | Alive | Died of GVHD | Alive |
At present | ||||
Age | 28 y | 15 y | 16 y | |
Leukocytes, ×109/L | 5.8 | 8.6 | 6.3 | |
Immature myeloid cells, % | 0 | 1 | 0 | |
Monocytes, % | 5 | 12 | 6 | |
Hemoglobin, g/L | 117 | 137 | 133 | |
Platelets, ×109/L | 170 | 136 | 283 | |
Liver/spleen, cm | 0/0 | 0/0 | 0/0 | |
Treatment | 6-MP | None | None | |
CBL mutation type | 1250C>G | 1111T>C | 1255T>C | 1096-1G>T |
Nail | Ht | Ht | NA | Wt |
Colony-constituent cells at onset | ||||
GM, Ho/Ht/Wt | NA | 15/0/0 | 10/6/0 | NA |
Erythroid, Ho/Ht/Wt | NA | 11/0/0 | 2/7/0 | NA |
Colony-constituent cells at present | ||||
GM, Ho/Ht/Wt | 0/4/0 | 15/0/0 | 0/9/2 | |
Erythroid, Ho/Ht/Wt | 0/9/0 | 15/0/0 | 0/17/1 | |
CD3+ cells | Ht | Ht | Ht | Ht |
CD20+ cells | Ht | Ht | Ht | Ht |
Liver and spleen sizes (cm) were given in medioclavicular line below the costal margin. Colonies were obtained from PBMCs under stimulation with saturating doses of granulocyte-macrophage colony-stimulating factor, stem cell factor, interleukin 3, and erythropoietin. DNA of individual colonies was directly subjected to a PCR reaction without whole-genome amplification. CD3+ and CD20+ PB cells were separated immunomagnetically. According to flow cytometric analysis, 99% of the isolated cells were CD3+ or CD20+.
mo indicates months; GM-CSF, granulocyte-macrophage colony-stimulating factor; 6-MP, 6-mercaptopurine; y, years; Ara-C, cytarabine; UBMT, unrelated bone marrow transplantation; GVHD, graft-versus-host disease; Ht, heterozygous mutation; NA, not available; Wt, wild-type; GM, granulocyte-macrophage; and Ho, homozygous mutation.
Because colonies of case no. 1 were not obtained at diagnosis, we cannot exclude the possibility that the patient had lost her homozygous clone when she went into remission. Among 34 JMML patients with CBL mutations reported by us and other investigators,1,7 31 patients had homozygous mutations at onset, whereas the remaining 3 patients showed heterozygous mutations. Thus, loss of the wild-type allele may play an important role in the disease occurrence of JMML patients with CBL mutations.
Case no. 4 had mild hematologic abnormalities at diagnosis, which improved spontaneously. Sequence analyses of genomic DNA and transcribed mRNA from colony constituent cells at 16 years of age revealed a heterozygous CBL mutation (1096-1G>T) and the use of novel splice acceptor sites resulting in splice variants. The mutation was present in his lymphocytes, whereas the nails had the wild-type of the gene. None of 100 healthy controls nor the parents of case no. 4 possessed this mutation. Thus, the patient may continue to carry a somatic mutation without disease at present. Although T cells generally do not belong to the leukemic clone in most JMML patients, RAS gene mutations were detected in CD3+ cells of 3 JMML patients.3 It should be elucidated whether the heterozygous 1096-1G>T transversion contributes to spontaneous hematologic remission and a somatic mutation in lymphocytes. The father of case no. 1, who has been healthy and has shown normal hematologic findings, harbored the same heterozygous CBL mutation as his daughter in his nails as well as PBMCs, indicating an inherited germline mutation. Persons with heterozygous CBL mutations who appear healthy may be present.
Authorship
Contribution: K.K. and K.M. designed and performed research, collected samples, analyzed data, and wrote the paper; C.T. performed research and analyzed data; K.S., S.S., M.T.-Y., R.Y., Y.N., M.S., K.F., M.O. collected samples and analyzed data; and T.H. and T.N. analyzed data.
Conflict-of-interest disclosure: The authors declare no competing financial interests.
Correspondence: Kenichi Koike, Department of Pediatrics, Shinshu University School of Medicine, 3-1-1, Asahi, Matsumoto, 390-8621, Japan; e-mail: koikeken@shinshu-u.ac.jp.