Complex MLL rearrangement in non-infiltrated bone marrow in an infant with stage II precursor B-lymphoblastic lymphoma

Purpose: Precursor B-lymphoblastic lymphoma cells are indistinguishable by morphology, and immune phenotype from lymphoblasts in acute leukemia which in infancy is associated with MLL rearrangements and a poor prognosis. The role of MLL gene deregulation in rare cases of isolated lymphoblastic lymphoma in infants is obscure. We report the case of a 10-month-old child who presented with a cutaneous nodule on the left foot. Histological diagnosis was precursor B-lymphoblastic lymphoma. The young age of the patient motivated us to investigate the presence of an MLL rearrangement.

Methods: Cytogenetic analysis was performed by fluorescence in situ hybridization (FISH), and the genomic fusion partner of MLL was identified by long-distance inverse (LDI-)PCR and confirmed by direct PCR.

Results: Fluorescence in situ hybridization screening of paraffin-embedded formalin-fixed tissue indeed revealed the presence of an MLL rearrangement. The genomic fusion partner was identified as AF10 by DNA sequencing of the MLL breakpoint region. The MLL-AF10 fusion gene was further detected in cytologically normal pretreated bone marrow. Treatment was started with standard four-drug induction chemotherapy. Because of the unfavorable outcome associated with MLL rearrangements in infant leukemia, we intensified postremission treatment according to the Interfant-06 study protocol. The child is in continuous first remission 36 months after diagnosis.

Conclusion: This is the first report of submicroscopic bone marrow involvement in MLL-rearranged isolated cutaneous B-cell precursor lymphoma in an infant. To prospectively address the role of MLL rearrangements in extramedullary B-lymphoblastic malignancies in infants, we suggest to assess both tumors and non-infiltrated bone marrow for the presence of this genetic abnormality.