Medical Biology - Research Publications

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Start date: 2000 × Author: Kelly, Gemma × Author: Huang, David × Type: Journal Article ×

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    Intact TP-53 function is essential for sustaining durable responses to BH3-mimetic drugs in leukemias
    Thijssen, R ; Diepstraten, ST ; Moujalled, D ; Chew, E ; Flensburg, C ; Shi, MX ; Dengler, MA ; Litalien, V ; MacRaild, S ; Chen, M ; Anstee, NS ; Reljic, B ; Gabriel, SS ; Djajawi, TM ; Riffkin, CD ; Aubrey, BJ ; Chang, C ; Tai, L ; Xu, Z ; Morley, T ; Pomilio, G ; Bruedigam, C ; Kallies, A ; Stroud, DA ; Bajel, A ; Kluck, RM ; Lane, SW ; Schoumacher, M ; Banquet, S ; Majewski, IJ ; Strasser, A ; Roberts, AW ; Huang, DCS ; Brown, FC ; Kelly, GL ; Wei, AH (AMER SOC HEMATOLOGY, 2021-05-20)
    Selective targeting of BCL-2 with the BH3-mimetic venetoclax has been a transformative treatment for patients with various leukemias. TP-53 controls apoptosis upstream of where BCL-2 and its prosurvival relatives, such as MCL-1, act. Therefore, targeting these prosurvival proteins could trigger apoptosis across diverse blood cancers, irrespective of TP53 mutation status. Indeed, targeting BCL-2 has produced clinically relevant responses in blood cancers with aberrant TP-53. However, in our study, TP53-mutated or -deficient myeloid and lymphoid leukemias outcompeted isogenic controls with intact TP-53, unless sufficient concentrations of BH3-mimetics targeting BCL-2 or MCL-1 were applied. Strikingly, tumor cells with TP-53 dysfunction escaped and thrived over time if inhibition of BCL-2 or MCL-1 was sublethal, in part because of an increased threshold for BAX/BAK activation in these cells. Our study revealed the key role of TP-53 in shaping long-term responses to BH3-mimetic drugs and reconciled the disparate pattern of initial clinical response to venetoclax, followed by subsequent treatment failure among patients with TP53-mutant chronic lymphocytic leukemia or acute myeloid leukemia. In contrast to BH3-mimetics targeting just BCL-2 or MCL-1 at doses that are individually sublethal, a combined BH3-mimetic approach targeting both prosurvival proteins enhanced lethality and durably suppressed the leukemia burden, regardless of TP53 mutation status. Our findings highlight the importance of using sufficiently lethal treatment strategies to maximize outcomes of patients with TP53-mutant disease. In addition, our findings caution against use of sublethal BH3-mimetic drug regimens that may enhance the risk of disease progression driven by emergent TP53-mutant clones.
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    MCL-1 is required throughout B-cell development and its loss sensitizes specific B-cell subsets to inhibition of BCL-2 or BCL-XL
    Vikstrom, IB ; Slomp, A ; Carrington, EM ; Moesbergen, LM ; Chang, C ; Kelly, GL ; Glaser, SP ; Jansen, JHM ; Leusen, JHW ; Strasser, A ; Huang, DCS ; Lew, AM ; Peperzak, V ; Tarlinton, DM (NATURE PUBLISHING GROUP, 2016-08)
    Pro-survival BCL-2 family members protect cells from programmed cell death that can be induced by multiple internal or external cues. Within the haematopoietic lineages, the BCL-2 family members BCL-2, BCL-XL and MCL-1 are known to support cell survival but the individual and overlapping roles of these pro-survival BCL-2 proteins for the persistence of individual leukocyte subsets in vivo has not yet been determined. By combining inducible knockout mouse models with the BH3-mimetic compound ABT-737, which inhibits BCL-2, BCL-XL and BCL-W, we found that dependency on MCL-1, BCL-XL or BCL-2 expression changes during B-cell development. We show that BCL-XL expression promotes survival of immature B cells, expression of BCL-2 is important for survival of mature B cells and long-lived plasma cells (PC), and expression of MCL-1 is important for survival throughout B-cell development. These data were confirmed with novel highly specific BH3-mimetic compounds that target either BCL-2, BCL-XL or MCL-1. In addition, we observed that combined inhibition of these pro-survival proteins acts in concert to delete specific B-cell subsets. Reduced expression of MCL-1 further sensitized immature as well as transitional B cells and splenic PC to loss of BCL-XL expression. More markedly, loss of MCL-1 greatly sensitizes PC populations to BCL-2 inhibition using ABT-737, even though the total wild-type PC pool in the spleen is not significantly affected by this drug and the bone marrow (BM) PC population only slightly. Combined loss or inhibition of MCL-1 and BCL-2 reduced the numbers of established PC >100-fold within days. Our data suggest that combination treatment targeting these pro-survival proteins could be advantageous for treatment of antibody-mediated autoimmune diseases and B-cell malignancies.
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    VDAC2 enables BAX to mediate apoptosis and limit tumor development
    Chin, HS ; Li, MX ; Tan, IKL ; Ninnis, RL ; Reljic, B ; Scicluna, K ; Dagley, LF ; Sandow, JJ ; Kelly, GL ; Samson, AL ; Chappaz, S ; Khaw, SL ; Chang, C ; Morokoff, A ; Brinkmann, K ; Webb, A ; Hockings, C ; Hall, CM ; Kueh, AJ ; Ryan, MT ; Kluck, RM ; Bouillet, P ; Herold, MJ ; Gray, DHD ; Huang, DCS ; van Delft, MF ; Dewson, G (NATURE PUBLISHING GROUP, 2018-11-26)
    Intrinsic apoptosis is critical to prevent tumor formation and is engaged by many anti-cancer agents to eliminate tumor cells. BAX and BAK, the two essential mediators of apoptosis, are thought to be regulated through similar mechanisms and act redundantly to drive apoptotic cell death. From an unbiased genome-wide CRISPR/Cas9 screen, we identified VDAC2 (voltage-dependent anion channel 2) as important for BAX, but not BAK, to function. Genetic deletion of VDAC2 abrogated the association of BAX and BAK with mitochondrial complexes containing VDAC1, VDAC2, and VDAC3, but only inhibited BAX apoptotic function. Deleting VDAC2 phenocopied the loss of BAX in impairing both the killing of tumor cells by anti-cancer agents and the ability to suppress tumor formation. Together, our studies show that efficient BAX-mediated apoptosis depends on VDAC2, and reveal a striking difference in how BAX and BAK are functionally impacted by their interactions with VDAC2.
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    Therapeutic Response to Non-genotoxic Activation of p53 by Nutlin3a Is Driven by PUMA-Mediated Apoptosis in Lymphoma Cells
    Valente, LJ ; Aubrey, BJ ; Herold, MJ ; Kelly, GL ; Happo, L ; Scott, CL ; Newbold, A ; Johnstone, RW ; Huang, DCS ; Vassilev, LT ; Strasser, A (CELL PRESS, 2016-03-01)
    Nutlin3a is a small-molecule antagonist of MDM2 that promotes non-genotoxic activation of p53 through p53 protein stabilization and transactivation of p53 target genes. Nutlin3a is the forerunner of a class of cancer therapeutics that have reached clinical trials. Using transgenic and gene-targeted mouse models lacking the critical p53 target genes, p21, Puma, and Noxa, we found that only loss of PUMA conferred profound protection against Nutlin3a-induced killing in both non-transformed lymphoid cells and Eμ-Myc lymphomas in vitro and in vivo. CRISPR/Cas9-mediated targeting of the PUMA gene rendered human hematopoietic cancer cell lines markedly resistant to Nutlin3a-induced cell death. These results demonstrate that PUMA-mediated apoptosis, but not p21-mediated cell-cycle arrest or senescence, is a critical determinant of the therapeutic response to non-genotoxic p53 activation by Nutlin3a. Importantly, in human cancer, PUMA expression may predict patient responses to treatment with MDM2 antagonists.