To the editor:
Spindle-shaped tryptase+/CD25+/CD117+/CD2+/− mast cells (MCs) are a hallmark of the bone marrow (BM) in myeloid/lymphoid neoplasms harboring a FIP1L1-PDGFRA (FP) fusion gene.1,2 These neoplasms that may present as chronic eosinophilic leukemia (CEL), acute myeloid leukemia/blast phase, myeloid sarcoma, or lymphoblastic lymphoma/leukemia rarely fulfill the criteria of the World Health Organization category “systemic mastocytosis with associated haematological non-mast cell disorders” (SM-AHNMD).1-5 Among 123 SM-AHNMD patients, only 12 carried an FP fusion gene.5 KIT D816V analysis performed on 8 of these FP-positive patients and on 2 cases included in another study were negative.5,6 Thus, the relationship between MCs in FP-positive CEL and KIT D816V-positive SM remains elusive.
We microdissected tryptase+ MCs from formalin-fixed, EDTA-decalcified, paraffin-embedded BM trephine biopsies of 19 FP-positive CEL patients using a PALM MicroBeam (Carl Zeiss Microscopy, Oberkochen, Germany). DNA was extracted from 100 to 250 pooled MCs per biopsy (QIAamp DNA Mini Kit; Qiagen, Hilden, Germany). KIT D816V mutation was evaluated by analyzing KIT exon 17 nested polymerase chain reaction products by LightCycler-based high-resolution melting and conventional direct sequencing.6 Genomic DNA from the KIT D816V-positive MC leukemia cell line HMC-1 and NB4 cells harboring wild-type KIT served as controls. The polymerase chain reaction reactions and final results were evaluated in a blinded fashion. Low levels of KIT D816V-mutated DNA ranging from <10% to 20% were detected in the MCs of 5 of 19 FP-positive CEL patients (Figure 1). The KIT D816V mutation was not detectable in DNA/RNA extracted from whole white blood cells derived from peripheral blood or BM samples, probably as a consequence of the very low burden of mutated KIT D816V-positive cells, which was only detectable in DNA obtained from microdissected MCs. Fluorescence Immunophenotyping and Interphase Cytogenetic as a Tool for Investigation Of Neoplasia (FICTION) using a Vysis 4q12 tri-color rearrangement fluorescence in situ hybridization probe kit (Abbott Molecular, Wiesbaden, Germany) resulted in 1 green/aqua fusion signal with a deletion of the orange signal of the CHIC2 gene in the nuclei of tryptase+ BM MCs in a patient with KIT D816V-positive MCs (Figure 1). The presence of CD25+-positive MCs with concomitant KIT D816V and serum tryptase levels >20 ng/mL support the diagnosis of SM-AHNMD/SM-FP–positive CEL in 2 patients. This discrepancy to the previously published negative KIT D816V mutational analysis of microdissected MCs may be explained by a sampling effect because only 2 FP-positive SM-CEL cases were examined.6 It remains elusive whether FP and KIT D816V are present in the same clone or whether there are 2 separate clones. We reported on the heterogeneity of molecular aberrations in KIT D816V-positive SM with ≥1 additional mutation, for example, TET2, SRSF2, ASXL1, and others in 24 of 27 patients.7 In a murine model, expansion of eosinophils and MCs may result from an interaction between FP, interleukin 5, the ligand stem cell factor, and KIT in the absence of a KIT mutation.8 It can be speculated that the FP fusion gene favors secondary KIT mutations in MCs via growth and proliferation signals or that a yet unknown mechanism causes genomic instability with independent evolution of FP and KIT D816V.
![Figure 1. FP-positive CEL with concomitant KIT D816V mutation. (A) Hypercellular BM biopsy with a marked increase in eosinophils (Giemsa stain). (B-E) Phenotypically aberrant MCs are arranged in loose clusters and as interstial infiltrates (B) tryptase, (C) CD117, (D) CD2, and (E) CD25. (F-I) fluorescence in situ hybridization with a 4q12 tri-color rearrangement probe (F) alone or (G-H) combined with tryptase IH (fiction) (note nuclei with green/aqua fusion signals [arrows] as a surrogate for CHIC2 deletion). Normal tricolor green/orange/aqua fusion signals are marked by an arrowhead. (J) c-kit antisense sequence of microdissected MCs from FIP1L1-PDGFRA–positive CEL showing a KIT D816V mutation. (A-E) Photomicrographs by Horn Imaging Camera (Aalen, Germany) adopted to a Zeiss Imager.M1 (Carl Zeiss, Oberkochen, Germany) microscope. (F-I) Imaging system ApoTome.2 (Carl Zeiss).](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/123/4/10.1182_blood-2013-10-530642/4/m_595f1.jpeg?Expires=1735451361&Signature=ilMYEkuMaLPnnuQWA4XMB0dbFPiguUPP9kniRbny~iUAz0iDoMr8yGHz97yLXAwJ3niluyAdZRXu7FLJBZHGSxCLUeOK8WHXJvN2VgL3W09t5Ths7vjVnzcd9gDziJrLC0z4t1nWrqB-RiDyqRDB6nU~ENqJsbQsstadQow~l5H39irBugLHdPnqIMCnbnlFkH8wS62Mn6ymOeWGeNKw6e~QFXEm9Xf3P8AvVDnoA1FQwnUcVuove9ZSjPWLClMuJTPrnMb6bq4zWpzlaVpSe0Kn0kj1MXnt~RAewFSSgp54LO60eIRirhVJHBywG8dFQ1YDpRYlkalkdiOAvIplMQ__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
FP-positive CEL with concomitant KIT D816V mutation. (A) Hypercellular BM biopsy with a marked increase in eosinophils (Giemsa stain). (B-E) Phenotypically aberrant MCs are arranged in loose clusters and as interstial infiltrates (B) tryptase, (C) CD117, (D) CD2, and (E) CD25. (F-I) fluorescence in situ hybridization with a 4q12 tri-color rearrangement probe (F) alone or (G-H) combined with tryptase IH (fiction) (note nuclei with green/aqua fusion signals [arrows] as a surrogate for CHIC2 deletion). Normal tricolor green/orange/aqua fusion signals are marked by an arrowhead. (J) c-kit antisense sequence of microdissected MCs from FIP1L1-PDGFRA–positive CEL showing a KIT D816V mutation. (A-E) Photomicrographs by Horn Imaging Camera (Aalen, Germany) adopted to a Zeiss Imager.M1 (Carl Zeiss, Oberkochen, Germany) microscope. (F-I) Imaging system ApoTome.2 (Carl Zeiss).
FP-positive CEL with concomitant KIT D816V mutation. (A) Hypercellular BM biopsy with a marked increase in eosinophils (Giemsa stain). (B-E) Phenotypically aberrant MCs are arranged in loose clusters and as interstial infiltrates (B) tryptase, (C) CD117, (D) CD2, and (E) CD25. (F-I) fluorescence in situ hybridization with a 4q12 tri-color rearrangement probe (F) alone or (G-H) combined with tryptase IH (fiction) (note nuclei with green/aqua fusion signals [arrows] as a surrogate for CHIC2 deletion). Normal tricolor green/orange/aqua fusion signals are marked by an arrowhead. (J) c-kit antisense sequence of microdissected MCs from FIP1L1-PDGFRA–positive CEL showing a KIT D816V mutation. (A-E) Photomicrographs by Horn Imaging Camera (Aalen, Germany) adopted to a Zeiss Imager.M1 (Carl Zeiss, Oberkochen, Germany) microscope. (F-I) Imaging system ApoTome.2 (Carl Zeiss).
Authorship
Acknowledgments: This work was supported by the European Leukemia Net, Work Package 9.
Contribution: A.H.S.-G., P.E., and A.R. designed the study; A.H.S.-G., P.E., J.S., B.V.-K., P.F., and A.R. performed experiments and analyzed data; A.H.S.-G., P.E., J.S. G.M., and A.R. collected patients’ samples; K.S. gave advice concerning the KIT D816V mutational analysis; A.H.S.-G., K.S., H.-P.H., and H.-H.K. critically reviewed patients’ BM biopsies; A.H.S.-G., P.E., G.M., P.F., and A.R. wrote the manuscript; and all authors critically reviewed and edited the paper.
Conflict-of-interest disclosure: The authors declare no competing financial interests.
Correspondence: Annette H. Schmitt-Graeff, Departement für Pathologie, Universitätsklinikum Freiburg, Breisacherstrasse 114a, D-79106 Freiburg, Germany; e-mail: annette.schmitt-graeff@uniklinik-freiburg.de.
