Katalin Hegyi

Mitotic Failures in Cancer: Aurora B Kinase and its Potential Role in the Development of Aneuploidy

One of the basic requirements during the process of cell division is to maintain genetic integrity and ensure normal ploidy. The family of Aurora kinases, composed of Aurora A, B and C, takes a major role in the control of centrosome cycle, mitotic entry, chromosome condensation and coordination of chromosomal movements. Deregulation of kinase expression was described in a series of different malignancies which was also associated with aneuploidy. Recently, Aurora kinases gained significant interest as potential therapeutic targets in oncology. While there is increasing evidence about the activities of Aurora A kinase during cancer progression, data are controversial regarding the role of Aurora B. In this review the biology of Aurora kinases and its potential relation to cancer progression is discussed with special focus on functional changes and determination of Aurora B kinase.

Aurora kinase B expression in breast carcinoma: cell kinetic and genetic aspects.

Background: Mitotic deregulations may contribute significantly to cell division errors and the development of aggressive tumor cells. The mitotic kinase Aurora B is essential for chromosome segregation. Its gene is located at 17p13 in close proximity to the TP53 gene. Although the frequent alteration of this locus is well known, the information about the AURKB status and protein expression is limited. Methods: 50 breast carcinoma cases were evaluated for 17p13 status and chromosome 17 ploidy by FISH and for Aurora B protein by immunohistochemistry. Results: Aurora B protein expression showed a strong correlation with cell proliferation (regression coefficient = 0.77). Therefore, the Aurora B/MIB-1 index was used as a measure of expression, which showed a wide range (1–35%, mean 0.32, SD ± 0.28). A gain in the 17p13 chromosome locus could not be shown while a deletion was stated in 10/50 cases including a subset with TP53 and AURKB codeletion in 6/10 cases. The loss of TP53/AURKB loci strongly correlated with aneusomy (p < 0.0001). Conclusion: Elevated Aurora B expression frequently occurs due to an increased cell proliferation rate in breast carcinoma. Codeletion of TP53 and AURKB at 17p13 indicates a concerted mechanism leading to the survival of cell clones with deficient mitotic kinase function which could contribute to the formation of aneuploid cells and an aggressive tumor phenotype.

One-day FISH approach for the high-speed determination of HER2 gene copy status in breast carcinoma.

Fluorescence in situ hybridization (FISH) is a commonly used method to detect chromosomal aberrations, for example, to assess human epidermal growth factor receptor 2 (HER2) gene status in breast carcinoma. The classical FISH approach requires overnight incubation for proper hybridization result. Tissue morphologic features are varying because of aggressive pretreatment and application of high temperatures. To eliminate some of the methodological problems, a new 1-day FISH method was recently introduced. The aim of our study was to evaluate the utility of the Instant Quality FISH with the conventional FISH kit from the same provider (Dako pharmDx) for determination of HER2 status. We performed in situ hybridization on the same 40 invasive breast carcinoma samples with both probe kits, and HER2/CEN17 and chromosome 17/cell nucleus ratios were calculated. FISH signal stability was also tested by the reassessment of the slides after 2 months storage. The accordance regarding HER2 gene amplification status between the 2 FISH kits tested was 100%. There was an excellent correlation between HER2/CEN17 ratios with a concordance correlation coefficient of 0.958 and correlation coefficient (R) of 0.959. The 1-day HER2 Instant Quality FISH diagnostic kit points with fast and stable reaction showing the same result in the diagnostic practice when compared with the conventional overnight FISH method.

Concurrence of chromosome 3 and 4 aberrations in human uveal melanoma

Uveal melanoma (UM) is the most common primary intraocular malignancy with a very poor prognosis. The most frequent chromosome aberration in UM is the monosomy of chromosome 3. Previously, we demonstrated that ~50% of UMs express type-I receptor for luteinizing hormone-releasing hormone (LH-RH-R). The gene encoding LH-RH-R is located in chromosome 4 (location: 4q21.2); however, the occurrence of numerical aberrations of chromosome 4 have never been studied in UM. In the present study, we investigated the abnormalities of chromosome 3 and 4, and the possible correlation between them, as well as with LH-RH-R expression. Forty-six specimens of UM were obtained after enucleation. Numerical aberrations of chromosome 3 and 4 were studied by fluorescence in situ hybridization (FISH). Chromosome 4 was detected in normal biparental disomy only in 14 (30%) samples; however, 32 cases (70%) showed more than 2 signals/nucleus. Monosomy of chromosome 3 could be found in 16 (35%) samples. In 6 specimens (13%), more than 2 copies of chromosome 3 were found, while normal biparental disomy was detected in 24 (52%) samples. Statistical analysis indicated a statistically significant (p<0.05) correlation between the copy number of chromosome 3 and 4. Moreover, moderate difference was revealed in the survival rate of the UM patients with various pathological profiles. No correlation was found between chromosome aberrations and LH-RH-R expression. Our results clearly demonstrate abnormalities in chromosome 3 and 4 and the incidence of the monosomy of chromosome 3 in human UM. In summary, our results provide new incite concerning the genetic background of this tumor. Our findings could contribute to a more precise determination of the prognosis of human UM and to the development of new therapeutic approaches to this malignancy.

Mitotic Index Determined by Phosphohistone H3 Immunohistochemistry for Precise Grading in Follicular Lymphoma.

The World Health Organization classification recommends follicular lymphoma (FL) grading (G1-3) by considering centroblast number, while also suggesting its influence on disease outcome. As centroblast counting and other proliferation markers have limitations, we looked for more specific measures of cellular activity in FL. Phosphorylated histone H3 (pHH3) was widely applied for the objective detection of mitotic activity in different tumors. The aim was to evaluate the utility of pHH3 protein in FL grading and compare its value with the classical features of cell proliferation. Representative samples from 48 FL patients and 9 samples with follicular hyperplasia were examined. Hematoxylin-eosin–based mitosis index (HE-MI), number of mitotic figures based on anti-pHH3 immunohistochemical staining (pHH3-MI), and percentage of Ki-67-positive cells [proliferation index (PI)] were determined and compared with centroblast-based histologic grade. PHH3-MI showed significant correlation with HE-MI (r=0.85, P<0.0001) and PI (r=0.84, P<0.0001). All 3 cell proliferation parameters showed significant correlation with histologic grade: HE-MI versus grade, r=0.85 (P<0.0001); PI versus grade, r=0.74 (P<0.0001); pHH3-MI versus grade, r=0.80 (P<0.0001). PHH3-MI showed continuous increase with the histologic grade. The pHH3-MI value was distinctive between the G2 and the G1 FL groups (P<0.0001) and was increased in G3 FL compared with that in the G2 FL group (P=0.0020). In conclusion, easy-to-perform mitotic counting following phosphohistone H3 immunohistochemistry (pHH3-MI) correlates well with centroblast-based grading. PHH3 immunohistochemistry offers a reliable quantification tool supporting lymphoma grading and can be recommended as an additional parameter for the precise subcategorization of FL cases.

Distinct Dynamics of Mitotic Transition in B-Cell Lymphoma and Reactive B-Cell Lymphoproliferations Determined by H3S10 Phosphohistone Immunolabeling

Objectives: Clonal selection in the follicular germinal centers in lymphatic tissues is accompanied by an intense proliferation of polyclonal B cells in a precisely regulated fashion. In contrast, B-cell neoplasias proliferate autonomously due to endogenous stimuli. The cell kinetic activity is obvious at many levels including progressive chromatin modification and elevated mitotic rates. We asked if there are differences in the kinetics of histone H3S10 phosphorylation required for mitotic entry between highly proliferating B cells of reactive germinal centers and in B-cell lymphomas with different proliferative capacity. Material and Methods: Phospho-H3 histone (pH3S10)-specific immunohistochemistry was applied to cultivated cell, reactive and selected indolent and aggressive lymphoma samples (diffuse large B-cell lymphoma, Burkitt lymphoma, lymphoblastic lymphoma, follicular lymphoma and small lymphocytic lymphoma). Microscopic quantification of the “dot-type” (representing late G2 phase) and “mitotic” immunolabeling patterns per field of view was performed and compared with classical cell proliferation markers. Results: In addition to the dense homogeneous chromatin labeling highlighting mitotic figures, we stated a selective dot-type nuclear labeling representing ongoing chromatin condensation in premitotic G2 phase cells. While cell proliferation and mitotic counts correlated in general with histology, statistical analysis indicated an accumulation of G2 phase pH3S10 pattern in the reactive germinal centers in contrast to lymphomas. The dot-type G2 staining pattern was surprisingly overrepresented (1,321.7 ± 356.5/10 HPF) in the reactive germinal centers compared to aggressive lymphomas (101.3 ± 33.1) (p < 0.005). The relative G2/M value was significantly higher (4.6 ± 0.6) in reactive germinal center B cells than in any lymphoma entity evaluated (0.7 ± 0.2 in Burkitt lymphoma, 0.9 ± 0.4 in grade 3b follicular lymphoma, 1.3 ± 1.1 in diffuse large B-cell lymphoma, 1.5 ± 0.6 in lymphoblastic lymphoma, and 0.9 ± 0.2 in small lymphocytic lymphoma). Conclusions: pH3S10 immunohistochemistry enabled the presentation of significant differences in the cell cycle kinetics between reactive and neoplastic B-cell lymphoproliferations. Accumulation of G2 phase B cells in reactive folliculi directs to physiological G2/M checkpoint blockade. In contrast, accelerated G2/M transition in lymphomas is potentially associated with impaired genomic repair and cell death mechanisms.

Down-regulation of increased TRAF6 expression in the peripheral mononuclear cells of patients with primary Sjögren's syndrome by an EBV-EBER1-specific synthetic single-stranded complementary DNA molecule

We described earlier a simultaneously increased that the increased expression of miRNA‐146a/b was accompanied by an increase in the expression of and TRAF6 and a decrease in the expression of IRAK1 genes in the peripheral mononuclear cells (PBMCs) of patients with primary Sjogrens syndrome (pSS) patients. Recently, the expression of EBV encoded. RNA (EBER) was published in the B cells of salivary glands of in pSS. In the present study, we applied an EBV‐EBER1 specific synthetic single stranded complementary DNA molecule (EBV‐EBER1‐cDNA) to test whether any EBER1 related effect exists also in PBMCs of pSS patients.

Uncommon Late Relapse of Angioimmunoblastic T-Cell Lymphoma after 16-Year Remission Period

Abbreviations AITL Angioimmunoblastic T-cell lymphoma EBV Epstein-Barr virus FDG-PET/ CT Fluoro-deoxy-glucose Positron Emission Tomography/Computed Tomography LDH Lactate dehydrogenase CHOP Cyclophosphamide, doxorubicine, vincristine, prednisone COPBLAM Cyclophosphamide, vincristine, prednisone, bleomycin, adriamycin and procarbazin CEVP Cyclophosphamide, vinblastine, epirubicin and prednisone DHAP Dexamethasone, cytarabin, and cisplatin TNF Tumor necrosis factor EBER Epstein-Barr early RNA