Alana L. Keller scite author profile

BackgroundPatients diagnosed with triple negative breast cancer (TNBC) have limited treatment options and often suffer from resistance and toxicity due to chemotherapy. We previously found that depleting calcium and integrin-binding protein 1 (CIB1) induces cell death selectively in TNBC cells, while sparing normal cells. Therefore, we asked whether CIB1 depletion further enhances tumor-specific killing when combined with either the commonly used chemotherapeutic, docetaxel, or the cell death-inducing ligand, TRAIL.MethodsWe targeted CIB1 by RNA interference in MDA-MB-436, MDA-MB-231, MDA-MB-468, docetaxel-resistant MDA-MB-436 TNBC cells and ME16C normal breast epithelial cells alone or combination with docetaxel or TRAIL. Cell death was quantified via trypan blue exclusion using flow cytometry and cell death mechanisms were analyzed by Western blotting. Cell surface levels of TRAIL receptors were measured by flow cytometry analysis.ResultsCIB1 depletion combined with docetaxel significantly enhanced tumor-specific cell death relative to each treatment alone. The enhanced cell death strongly correlated with caspase-8 activation, a hallmark of death receptor-mediated apoptosis. The death receptor TRAIL-R2 was upregulated in response to CIB1 depletion, which sensitized TNBC cells to the ligand TRAIL, resulting in a synergistic increase in cell death. In addition to death receptor-mediated apoptosis, both combination treatments activated a non-apoptotic mechanism, called paraptosis. Interestingly, these combination treatments also induced nearly complete death of docetaxel-resistant MDA-MB-436 cells, again via apoptosis and paraptosis. In contrast, neither combination treatment induced cell death in normal ME16C cells.ConclusionNovel combinations of CIB1 depletion with docetaxel or TRAIL selectively enhance naive and docetaxel-resistant TNBC cell death while sparing normal cell. Therefore, combination therapies that target CIB1 could prove to be a safe and durable strategy for treatment of TNBC and potentially other cancers.Electronic supplementary materialThe online version of this article (10.1186/s12935-019-0740-2) contains supplementary material, which is available to authorized users.

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High Ex Vivo Response Rates to CD38/CD28xCD3 Trispecific T Cell Engager in Patients Relapsed after Anti-CD38 and Anti-BCMA Targeted Immunotherapies

Keller

Reiman

et al. 2022

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Harnessing the T Cell to Treat Multiple Myeloma: Dawn of a New Therapeutic Paradigm

Keller

Sherbenou²,

Forsberg³

et al. 2022

Front. Oncol.

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Multiple myeloma is an incurable hematologic malignancy. The typical disease course for myeloma patients is characterized by initial response to treatment followed by eventual development of resistance. Subsequent cycles of remission and relapse proceed as long as patients have new lines of therapy available to them. This reality has prompted development of many novel immunotherapeutics. Many of these drugs exploit the cytotoxic capabilities of the patients’ own T cells, effectively redirecting them to myeloma cells that are otherwise evading immune attack. Approaches including CAR T cell therapy and bispecific antibodies have displayed impressive efficacy in clinical trials for myeloma patients. This review examines the different approaches that utilize T cells in multiple myeloma therapy and investigates the benefits and risks of these exciting new strategies.

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Specificity of bivalent chemical degraders targeted to the BET proteins

Turner

Potjewyd

Keller

et al. 2019

Journal of Virus Eradication

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Alana L. Keller

CIB1 depletion with docetaxel or TRAIL enhances triple-negative breast cancer cell death

High Ex Vivo Response Rates to CD38/CD28xCD3 Trispecific T Cell Engager in Patients Relapsed after Anti-CD38 and Anti-BCMA Targeted Immunotherapies

Harnessing the T Cell to Treat Multiple Myeloma: Dawn of a New Therapeutic Paradigm

Specificity of bivalent chemical degraders targeted to the BET proteins

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