FLT3 mutations at diagnosis and relapse in acute myeloid leukemia: cytogenetic and pathologic correlations, including cuplike blast morphology.

CONTEXT: Acquired mutations in the fms-like tyrosine kinase 3 gene (FLT3) adversely impact relapse risk after chemotherapy in patients with acute myeloid leukemia (AML). The FLT3 mutation status may differ at diagnosis and relapse, suggesting a potential role in chemoresistance, yet few reports have addressed the cytogenetic and pathologic correlates of FLT3 mutations in relapsed AML. OBJECTIVES: To determine FLT3 mutations at diagnosis and relapse in a cohort of adult patients with chemoresistant AML and to correlate mutation status with multiple variables. DESIGN: We retrospectively determined FLT3 internal tandem duplication (FLT3/ITD) and FLT3 tyrosine kinase domain mutations in 50 diagnosis/relapse pairs. We correlated FLT3 status with karyotype, World Health Organization 2008 subtype, white blood cell count, biopsy cellularity, blast percentage, and the presence of invaginated ("cuplike") blast nuclei. RESULTS: In 11 of 50 patients (22%) the FLT3 mutation status differed at relapse and diagnosis, with a trend toward gain of FLT3/ITD (n = 7) and loss of FLT3 tyrosine kinase domain (n = 5) mutations. FLT3-mutated AMLs correlated with the World Health Organization 2008 subtype, AML, not otherwise specified, hyperproliferative features at diagnosis and relapse, and cytogenetic evolution. FLT3-wild type AMLs correlated with the subtype AML with myelodysplasia-related changes and frequently had adverse presentation karyotypes. Cuplike blast morphology was associated with FLT3/ITD+ status and with high mutation levels. Four of 7 patients with relapse-only FLT3/ITD mutations exhibited cuplike blasts at relapse after being noncuplike at diagnosis. CONCLUSIONS: In addition to well-known correlates in pretreatment specimens, FLT3 mutation status has pathologic and cytogenetic significance at relapse. A shift to cuplike blast morphology at relapse may herald emergence of a previously undetected FLT3/ITD mutation.

HER2 assessment by immunohistochemical analysis and fluorescence in situ hybridization: comparison of HercepTest and PathVysion commercial assays.

We determined HER2 protein overexpression by immunohistochemical analysis and HER2 gene amplification by fluorescence in situ hybridization (FISH) in 215 formalin-fixed, paraffin-embedded breast tumors. Pathologist concordance for immunohistochemical scoring, and HER2 status concordance, as determined by immunohistochemistry and FISH, were high for immunohistochemical 3+, 1+, and 0 tumors but poor for 2+ tumors. Consensus immunohistochemical scores correlated with absolute and chromosome 17 (CEPI 7)-corrected HER2 gene copy number Among HER2-nonamplified tumors, the immunohistochemical score and mean absolute chromosome 17 (CEP17) copy number were weakly correlated. Seventeen tumors were HER2-amplified using absolute HER2 gene criteria but nonamplified when corrected for chromosome 17 polysomy (8 of these were immunohistochemical 2+). Assessment of benign epithelium within the immunohistochemical slides revealed either no staining or basolateral membrane staining, suggesting normal HER2 protein expression. Twenty tumors showing similar basolateral HER2 immunostaining were all low-moderate grade, tubule-forming, and HER2-nonamplified (17) or borderline amplified (3). Additional studies relating changes in HER2 gene content due to amplification or chromosome 17 polysomy and HER2 protein expression may be helpful to pathologists who interpret HER2 immnuohistochemical slides. Breast tumors scored at 2+ should be analyzed by FISH, preferably using a dual-probe FISH assay capable of distinguishing HER2 gene amplification from chromosome 17 polysomy.