Your search keyword '"Hieu-Hoa Dang"' showing total 3 results

1. The Class IIA Histone Deacetylase (HDAC) Inhibitor TMP269 Downregulates Ribosomal Proteins and Has Anti-Proliferative and Pro-Apoptotic Effects on AML Cells

Author

Laura Urwanisch, Michael Stefan Unger, Helene Sieberer, Hieu-Hoa Dang, Theresa Neuper, Christof Regl, Julia Vetter, Susanne Schaller, Stephan M. Winkler, Emanuela Kerschbamer, Christian X. Weichenberger, Peter W. Krenn, Michela Luciano, Lisa Pleyer, Richard Greil, Christian G. Huber, Fritz Aberger, and Jutta Horejs-Hoeck

Subjects

Cancer Research, Oncology, AML, HDAC, HDAC inhibitor, TMP269, RPL6, proliferation, venetoclax, azacitidine, apoptosis

Abstract

Acute myeloid leukemia (AML) is a hematopoietic malignancy characterized by altered myeloid progenitor cell proliferation and differentiation. As in many other cancers, epigenetic transcriptional repressors such as histone deacetylases (HDACs) are dysregulated in AML. Here, we investigated (1) HDAC gene expression in AML patients and in different AML cell lines and (2) the effect of treating AML cells with the specific class IIA HDAC inhibitor TMP269, by applying proteomic and comparative bioinformatic analyses. We also analyzed cell proliferation, apoptosis, and the cell-killing capacities of TMP269 in combination with venetoclax compared to azacitidine plus venetoclax, by flow cytometry. Our results demonstrate significantly overexpressed class I and class II HDAC genes in AML patients, a phenotype which is conserved in AML cell lines. In AML MOLM-13 cells, TMP269 treatment downregulated a set of ribosomal proteins which are overexpressed in AML patients at the transcriptional level. TMP269 showed anti-proliferative effects and induced additive apoptotic effects in combination with venetoclax. We conclude that TMP269 exerts anti-leukemic activity when combined with venetoclax and has potential as a therapeutic drug in AML.

Published

2023

2. The NLRP3/eIF2 axis drives cell cycle progression in acute myeloid leukemia

Author

Pleyer L, Luciano M, Helen Strandt, Daniel Neureiter, Susanne Schaller, Dirk Strunk, Rieser S, Theresa Neuper, Peter W. Krenn, Binder S, Constantin Blöchl, Zell L, Renate Bauer, Stephan M. Winkler, Fritz Aberger, Bergsleitner O, Dominik P. Elmer, Tanja Nicole Hartmann, Hieu-Hoa Dang, Christian G. Huber, Julia Vetter, Suzana Tesanovic, Urwanisch L, Jutta Horejs-Hoeck, and Richard Greil

Subjects

Cell cycle checkpoint, integumentary system, biology, Kinase, Cell growth, Chemistry, Inflammasome, Haematopoiesis, biology.protein, Cancer research, medicine, Cyclin-dependent kinase 6, CDK inhibitor, Cyclin, medicine.drug

Abstract

Aberrant activation of the NLR family pyrin domain containing 3 (NLRP3) inflammasome mediates numerous inflammatory diseases. Oncogenes can activate the NLRP3 inflammasome and thereby promote myeloproliferative neoplasia, suggesting a crucial role of NLRP3 in the malignant transformation of hematopoietic cells. Here, we show that bone marrow-derived mononuclear cells of AML patients display enhanced expression of NLRP3, IL-1β and IL-18 and that high-level expression of NLRP3 is linked to poor survival of AML patients. Pharmacological and genetic inhibition of NLRP3 inflammasome activation attenuated cell proliferation of MOLM-13 AML cells in vitro. In vivo, genetic inhibition of NLRP3 in MOLM-13 AML cells resulted in reduced engraftment potential in xenografts, along with reduced splenomegaly and organ infiltration. Differential proteomic analysis revealed the eIF2 pathway as potential target of NLRP3 in AML, with a significant increase of eIF2α phosphorylation upon NLRP3 inhibition. NLRP3 inhibition also caused a strong decrease in cyclin – dependent kinases CDK4 and CDK6, accompanied by an upregulation of the CDK inhibitor p21 (CDKN1A) and a marked arrest of cell cycle progression in the G0/G1 phase, consistent with the role of eIF2α phosphorylation as negative cell cycle regulator.Taken together, we show that inhibition of the NLRP3 inflammasome reduces AML cell proliferation by promoting eIF2α phosphorylation, which in turn enhances the expression of cell cycle arrest genes such as p21. Thus, the study uncovers the NLRP3/eIF2 axis as new driver of AML proliferation and proposes a novel therapeutic treatment of AML by targeted inhibition of NLRP3 activation.

Published

2021

3. Oncogenic GLI1 and STAT1/3 activation drives immunosuppressive tryptophan/kynurenine metabolism via synergistic induction of IDO1 in skin cancer cells

Author

Victoria Strobl, Georg Stockmaier, Suzana Tesanovic, Florian Wolff, Wolfgang Gruber, Fritz Aberger, David Licha, Roland Reischl, Sandra Grund-Groeschke, Angela Risch, Markus Wiederstein, Christina Sternberg, Jutta Horejs-Hoeck, Dominik P. Elmer, Anna Strobl, Richard Moriggl, Hieu-Hoa Dang, and Christian G. Huber

Subjects

0303 health sciences, biology, integumentary system, Chemistry, Melanoma, T cell, medicine.disease, 3. Good health, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Immune system, medicine.anatomical_structure, GLI1, 030220 oncology & carcinogenesis, biology.protein, Cancer research, medicine, STAT1, STAT3, Transcription factor, Kynurenine, 030304 developmental biology

Abstract

Pharmacological targeting of Hedgehog (HH)/GLI has proven effective for certain blood, brain and skin cancers including basal cell carcinoma (BCC). However, limited response rates and the development of drug resistance call for improved anti-HH therapies that take into account synergistic crosstalk mechanisms and immune evasion strategies.In previous work, we demonstrated that crosstalk of HH/GLI with pro-inflammatory Interleukin-6 (IL6) signaling drives BCC by promoting tumor cell proliferation [1]. In the present study, we screened for possible mechanisms of cancer immune evasion regulated by synergistic HH-IL6 signaling and identified the immunosuppressive enzyme indoleamine 2,3-dioxygenase 1 (IDO1) as a novel transcriptional target co-regulated by HH-IL6 signaling. Analysis of thecis-regulatory region of IDO1 by chromatin-immunoprecipitation revealed co-occupancy of this region by HH- IL6 induced GLI1 and STAT3 transcription factors along with active chromatin marks at the histone level. Elevated expression of IDO1 in human BCC with high-level HH and IL6 signatures supports the clinical relevance of our mechanistic data. Genetic inhibition of GLI1 expression prevented the induction of IDO1 expression in response to IL6/STAT3 and IFNγ/STAT1 signaling in human melanoma cells. Pharmacological targeting of HH signaling at the level of GLI proteins interfered with IDO1 expression and consequently prevented the production of the immunosuppressive metabolite kynurenine generated by active IDO1 from tryptophan. Further, inhibition of GLI1 enhanced the efficacy of the selective IDO1 inhibitor epacadostat. Of note, inhibition of HH/GLI signaling in melanoma cells not only reduced IDO1 expression but also interfered with the repression of T cell activation by attenuating IDO1/kynurenine-mediated immunosuppression. These data identify the immunosuppressive IDO1-kynurenine pathway as a novel pro-tumorigenic effector of oncogenic HH-IL6 and GLI-STAT cooperation. Our data suggest simultaneous pharmacological targeting of the HH/GLI, JAK/STAT and IDO1- kynurenine axis as rational combination therapy in skin cancers.

Published

2020