https://orcid.org/0000-0002-3352-2660
![A 75-year-old man presented for the investigation of marked leukocytosis, neutrophilia, mild normocytic anemia, and thrombocytosis found on routine complete blood count. Bone marrow (BM) aspirate revealed myeloid hyperplasia and 2% basophils without dysplasia, suggestive of chronic myeloid leukemia (CML) (panels A-C; original magnification ×250 [A], ×500 [B], and ×1000 [C]; Wright-Giemsa stain). BM karyotype presented no abnormalities (panel D; R-banding karyotype, 46,XY). Real-time polymerase chain reaction revealed the presence of the typical e14a2 (b3a2, M-BCR) fusion transcript. However, fluorescence in situ hybridization (FISH) analysis using dual-color, dual-fusion probes for BCR/ABL1 showed only 1 BCR/ABL1 fusion, present on a cytogenetically normal chromosome 9, associated with diminished ABL1 signal. BCR signal was reduced on 1 chromosome 22 (panel E; D-FISH BCR/ABL1 probes; ABL1[9q34.12], red; BCR[22q11], green). Triple-color, dual-fusion probes, targeting ASS1 (212 kb from the centromeric end of ABL1) revealed a loss in the q region of the fusion chromosome (panel F; T-FISH BCR/ABL1/ASS1 probes; ABL1[9q34.12], red; BCR[22q11], green; ASS1[9q34.11], aqua; F, fusion; G, normal green signal; g, dim green signal; R, normal red signal). The probable rearrangement mechanism thus involves the partial insertion of BCR into chromosome 9 along with an interstitial deletion upstream the 5′ region of ABL. The resultant karyotype is 46,XY[20].ish der(9)del(9)(q34q34)ins(9;22)(q34;q11.2)(ASS1-,ABL1 dim,BCR+)[5].nuc ish(ASS1x1,ABL1x1,ABL1 dimx1,BCRx3)(ABL1 con BCR1x1)[96/100].](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/136/4/10.1182_blood.2020006268/1/m_bloodbld2020006268f1.png?Expires=1725020201&Signature=sl6QhLtNjdQeb8SSyQApfDdNtyUeCBITIZ6fTNFNzyW93o5CE~FbjLN8lq5tvAEH40TL2oEWQQSKo~2XpzyG9CMnLDTiZH9dJ3jN~2cUyGtR-fgcLzjAJtQLguG15PoefyXxc29EtBFw-C8TpnUVwJdYhj1ikoHdGjqEBJ0U5ZNRsdgzikbs7loMxgs72zzteQyzgl92AT8nZy1Q3~iRFRxyO8DIzpw7pIP-eBn0DTXD~lbpCHCaaGZh19KaBCH0llzV-8uF3WkkJDaJYCf~~TiV~vnTle9J9Ep7h1c3fmklDJmZwh9avGEitFdqIS8jB4j1xDjwLiF28Xv8OUuvFA__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
A 75-year-old man presented for the investigation of marked leukocytosis, neutrophilia, mild normocytic anemia, and thrombocytosis found on routine complete blood count. Bone marrow (BM) aspirate revealed myeloid hyperplasia and 2% basophils without dysplasia, suggestive of chronic myeloid leukemia (CML) (panels A-C; original magnification ×250 [A], ×500 [B], and ×1000 [C]; Wright-Giemsa stain). BM karyotype presented no abnormalities (panel D; R-banding karyotype, 46,XY). Real-time polymerase chain reaction revealed the presence of the typical e14a2 (b3a2, M-BCR) fusion transcript. However, fluorescence in situ hybridization (FISH) analysis using dual-color, dual-fusion probes for BCR/ABL1 showed only 1 BCR/ABL1 fusion, present on a cytogenetically normal chromosome 9, associated with diminished ABL1 signal. BCR signal was reduced on 1 chromosome 22 (panel E; D-FISH BCR/ABL1 probes; ABL1[9q34.12], red; BCR[22q11], green). Triple-color, dual-fusion probes, targeting ASS1 (212 kb from the centromeric end of ABL1) revealed a loss in the q region of the fusion chromosome (panel F; T-FISH BCR/ABL1/ASS1 probes; ABL1[9q34.12], red; BCR[22q11], green; ASS1[9q34.11], aqua; F, fusion; G, normal green signal; g, dim green signal; R, normal red signal). The probable rearrangement mechanism thus involves the partial insertion of BCR into chromosome 9 along with an interstitial deletion upstream the 5′ region of ABL. The resultant karyotype is 46,XY[20].ish der(9)del(9)(q34q34)ins(9;22)(q34;q11.2)(ASS1-,ABL1 dim,BCR+)[5].nuc ish(ASS1x1,ABL1x1,ABL1 dimx1,BCRx3)(ABL1 con BCR1x1)[96/100].
This is a rare case of CML harboring the BCR/ABL1 fusion in the absence of a Philadelphia chromosome. It highlights the importance of FISH as an initial tool in the elucidation of complex rearrangements allowing targeted confirmation by molecular diagnostic techniques.
A 75-year-old man presented for the investigation of marked leukocytosis, neutrophilia, mild normocytic anemia, and thrombocytosis found on routine complete blood count. Bone marrow (BM) aspirate revealed myeloid hyperplasia and 2% basophils without dysplasia, suggestive of chronic myeloid leukemia (CML) (panels A-C; original magnification ×250 [A], ×500 [B], and ×1000 [C]; Wright-Giemsa stain). BM karyotype presented no abnormalities (panel D; R-banding karyotype, 46,XY). Real-time polymerase chain reaction revealed the presence of the typical e14a2 (b3a2, M-BCR) fusion transcript. However, fluorescence in situ hybridization (FISH) analysis using dual-color, dual-fusion probes for BCR/ABL1 showed only 1 BCR/ABL1 fusion, present on a cytogenetically normal chromosome 9, associated with diminished ABL1 signal. BCR signal was reduced on 1 chromosome 22 (panel E; D-FISH BCR/ABL1 probes; ABL1[9q34.12], red; BCR[22q11], green). Triple-color, dual-fusion probes, targeting ASS1 (212 kb from the centromeric end of ABL1) revealed a loss in the q region of the fusion chromosome (panel F; T-FISH BCR/ABL1/ASS1 probes; ABL1[9q34.12], red; BCR[22q11], green; ASS1[9q34.11], aqua; F, fusion; G, normal green signal; g, dim green signal; R, normal red signal). The probable rearrangement mechanism thus involves the partial insertion of BCR into chromosome 9 along with an interstitial deletion upstream the 5′ region of ABL. The resultant karyotype is 46,XY[20].ish der(9)del(9)(q34q34)ins(9;22)(q34;q11.2)(ASS1-,ABL1 dim,BCR+)[5].nuc ish(ASS1x1,ABL1x1,ABL1 dimx1,BCRx3)(ABL1 con BCR1x1)[96/100].
This is a rare case of CML harboring the BCR/ABL1 fusion in the absence of a Philadelphia chromosome. It highlights the importance of FISH as an initial tool in the elucidation of complex rearrangements allowing targeted confirmation by molecular diagnostic techniques.
For additional images, visit the ASH Image Bank, a reference and teaching tool that is continually updated with new atlas and case study images. For more information, visit http://imagebank.hematology.org.
