Abstract P6-20-11: The stapled peptide ALRN-6924, a dual inhibitor of MDMX and MDM2, enhances antitumor efficacy of paclitaxel and Nab-paclitaxel in TP53 wild-type MCF-7 breast cancer models

2019 ◽  
Author(s):  
SS Pairawan ◽  
E Yuca ◽  
K Evans ◽  
A Annis ◽  
N Narasimhan ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Antitumor Efficacy ◽  
Wild Type ◽  
Dual Inhibitor ◽  
Stapled Peptide ◽  
Cancer Models ◽  
Mcf 7

scholarly journals Glycosylation Modulates Plasma Membrane Trafficking of CD24 in Breast Cancer Cells

2021 ◽  
Vol 22 (15) ◽  
pp. 8165
Author(s):  
Amanda Chantziou ◽  
Kostas Theodorakis ◽  
Hara Polioudaki ◽  
Eelco de Bree ◽  
Marilena Kampa ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Plasma Membrane ◽  
Subcellular Localization ◽  
Cancer Cells ◽  
Membrane Trafficking ◽  
Breast Cancer Cells ◽  
Endocytic Pathway ◽  
Cell Periphery ◽  
Wild Type ◽  
Mcf 7

In breast cancer, expression of Cluster of Differentiation 24 (CD24), a small GPI-anchored glycoprotein at the cell periphery, is associated with metastasis and immune escape, while its absence is associated with tumor-initiating capacity. Since the mechanism of CD24 sorting is unknown, we investigated the role of glycosylation in the subcellular localization of CD24. Expression and localization of wild type N36- and/or N52-mutated CD24 were analyzed using immunofluorescence in luminal (MCF-7) and basal B (MDA-MB-231 and Hs578T) breast cancer cells lines, as well as HEK293T cells. Endogenous and exogenously expressed wild type and mutated CD24 were found localized at the plasma membrane and the cytoplasm, but not the nucleoplasm. The cell lines showed different kinetics for the sorting of CD24 through the secretory/endocytic pathway. N-glycosylation, especially at N52, and its processing in the Golgi were critical for the sorting and expression of CD24 at the plasma membrane of HEK293T and basal B type cells, but not of MCF-7 cells. In conclusion, our study highlights the contribution of N-glycosylation for the subcellular localization of CD24. Aberrant N-glycosylation at N52 of CD24 could account for the lack of CD24 expression at the cell surface of basal B breast cancer cells.

Synergistic inhibition of breast cancer cell lines with the combination of a dual inhibitor of EGFR/HER-2/neu and a Bcl-2 inhibitor

2006 ◽  
Vol 24 (18_suppl) ◽  
pp. 13100-13100
Author(s):  
L. Witters ◽  
A. Witkoski ◽  
M. Planas-Silva ◽  
J. Viallet ◽  
M. S. Berger ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Cancer Cells ◽  
Cell Lines ◽  
Human Breast Cancer ◽  
Breast Cancer Cells ◽  
Human Breast Cancer Cells ◽  
Human Breast ◽  
Dual Inhibitor ◽  
Her 2 ◽  
Mcf 7

13100 Background: The epidermal growth factor receptor (EGFR; ErbB1) and HER-2/neu (ErbB2), members of the ErbB family of receptor tyrosine kinases, are overexpressed in a variety of human tumors and overexpression generally correlates with poor prognosis and decreased survival. Use of inhibitors of these receptors as monotherapies, e.g., trastuzumab, Iressa, and erlotinib, has led to advances in treatment, but many patients do not respond or develop resistance. The anti-apoptotic protein, Bcl-2, is also overexpressed in a number of human tumors. Inhibitors of Bcl-2 induce apoptosis and sensitize cancer cells to other therapies. This study assesses the effects of a combination of a reversible inhibitor of both EGFR and HER-2/neu that is similar to lapatinib (GW2974) and a pan inhibitor of the Bcl-2 family (GX15–070: Gemin X Biotechnologies, Inc.) on the growth of human breast cancer cells. Methods: The MCF-7 human breast cancer cell line transfected with a control vector, MCF/neo, and the HER-2/neu transfected MCF-7 cell line, MCF/18, were treated with various concentrations of GW2974 (0.25–10 μM) and/or the GX15–070 pan Bcl-2 inhibitor (50–500 nM). After a 3 day exposure, cell number was determined using the colorimetric MTT tetrazolium dye assay. Percent of control was normalized to corresponding concentrations of the solvent for both agents (DMSO). Results: Treatment with the GW2974 dual inhibitor or the GX15–070 pan Bcl-2 inhibitor resulted in dose-dependent growth inhibition in both the control and HER-2/neu transfected MCF-7 cell lines. The combination of both agents produced synergistic growth inhibition in both cell lines as confirmed by isobologram analysis. Conclusions: This study has demonstrated synergy with the combination of a dual inhibitor of EGFR and HER-2/neu and an inhibitor of Bcl-2 in control and HER-2/neu overexpressing MCF-7 human breast cancer cells. This finding warrants an evaluation of this combination in clinical trials for the treatment of patients with metastatic breast cancer. [Table: see text]

scholarly journals Expression of an estrogen receptor variant lacking exon 3 in derivatives of MCF-7 cells with acquired estrogen independence or tamoxifen resistance

2004 ◽  
Vol 32 (3) ◽  
pp. 935-945 ◽  
Author(s):  
F Han ◽  
R Miksicek ◽  
R Clarke ◽  
SE Conrad
Keyword(s):  
Breast Cancer ◽  
Estrogen Receptor ◽  
Tumor Therapy ◽  
Tamoxifen Resistance ◽  
Wild Type ◽  
Rt Pcr ◽  
Pcr Products ◽  
Derivatives Of ◽  
Major Target ◽  
Mcf 7

The estrogen receptor (ER) plays important roles in the development and progression of breast cancer, and is a major target for tumor therapy. In this study, we investigated ER function in two derivatives of MCF-7 cells that were selected for their ability to proliferate in the absence of estrogen or in the presence of the antiestrogen, tamoxifen. Reporter gene assays indicated decreased ER activity in both cells lines, although the activity remaining retained responsiveness to both estrogen and tamoxifen. The decreased ER activity correlated with expression of a 61 kDa variant ER protein, and sequencing of RT-PCR products indicated that this variant was the product of an exon 3 deletion (ERDeltaE3). To study its effects on cell proliferation, ERDeltaE3 cDNA was stably transfected into both the MCF-7 cell line and its estrogen-independent/tamoxifen-sensitive derivative MCF-7/LCC1 (LCC1), and the phenotypes of transfectants were examined. Expression of ERDeltaE3 was not sustainable in MCF-7 cells, but was maintained for at least 17 passages in LCC1 cells. These results are in agreement with previous reports that ERDeltaE3 inhibits wild-type ER activity and negatively regulates proliferation of MCF-7 cells. They further suggest that the alteration that leads to estrogen independence in LCC1 cells allows for sustained expression of ERDeltaE3, and that additional changes are required to confer tamoxifen resistance to these cells.

scholarly journals Endocrine therapy resistance can be associated with high estrogen receptor α (ERα) expression and reduced ERα phosphorylation in breast cancer models

2006 ◽  
Vol 13 (4) ◽  
pp. 1121-1133 ◽  
Author(s):  
Barbara Kuske ◽  
Catherine Naughton ◽  
Kate Moore ◽  
Kenneth G MacLeod ◽  
William R Miller ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Estrogen Receptor ◽  
Cell Lines ◽  
Therapy Resistance ◽  
Estrogen Receptor Α ◽  
Cancer Models ◽  
Er Positive ◽  
Tamoxifen Resistant ◽  
Trefoil Factor 1 ◽  
Mcf 7

Hormone-dependent estrogen receptor (ER)-positive breast cancer cells may adapt to low estrogen environments such as produced by aromatase inhibitors. In many instances, cells become insensitive to the effects of estrogen but may still retain dependence on ER. We have investigated the expression, function, and activation of ERα in two endocrine-resistant MCF-7 models to identify mechanisms that could contribute to resistance. While MCF-7/LCC1 cells are partially estrogen dependent, MCF-7/LCC9 cells are fully estrogen insensitive and fulvestrant and tamoxifen resistant. In both MCF-7/LCC1 and MCF-7/LCC9 cell lines, high expression of ERα was associated with enhanced binding to the trefoil factor 1 (TFF1) promoter in the absence of estrogen and increased transcription of TFF1 and progesterone receptor. In contrast to the observations derived from hypersensitive and supersensitive models, these cells were truly estrogen independent; nevertheless, removal of ERα by siRNA, or fulvestrant, a specific ER downregulator, inhibited growth indicating dependence on ERα. In the absence of estrogen, neither ERα Ser118 nor Ser167 were phosphorylated as frequently found in other ligand-independent cell line models. Addition of estrogen activated ERα Ser118 in MCF-7 and LCC1 cells but not in LCC9 cells. We suggest that the estrogen-independent growth within these cell lines is accounted for by high levels of ERα expression driving transcription and full estrogen independence explained by lack of ERα activation through Ser118.

scholarly journals Phase 1/1b Study of the Stapled Peptide ALRN-6924, a Dual Inhibitor of MDMX and MDM2, As Monotherapy or in Combination with Cytarabine for the Treatment of Relapsed/Refractory AML and Advanced MDS with TP53 Wild-Type

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 4066-4066 ◽  
Author(s):  
David A Sallman ◽  
Uma Borate ◽  
Elizabeth H. Cull ◽  
William B. Donnellan ◽  
Rami S. Komrokji ◽  
...  
Keyword(s):  
Research Funding ◽  
Clinical Activity ◽  
Wild Type ◽  
Employment Equity ◽  
Dual Inhibitor ◽  
Stapled Peptide ◽  
Double Minute ◽  
Equity Ownership ◽  
Murine Double Minute ◽  
Grade 3

Abstract Background: ALRN-6924, the first-ever clinical stage stapled peptide, has been structurally stabilized ("stapled") in an α-helical configuration, to mimic the inhibitor-binding region of the intracellular tumor suppressor protein, p53. By mimicking this region, ALRN-6924 binds the two most important endogenous inhibitors of p53, murine double minute-X (MDMX) and murine double minute-2 (MDM2), thereby restoring p53's ability to induce cell cycle arrest and apoptosis in TP53 wild-type (WT) cancer cells. ALRN-6924 is the first known synthetic agent to simultaneously target both of these important p53 inhibitors. In preclinical studies, ALRN-6924 inhibited the proliferation of AML cell lines and primary human AML cells alone and in combination with cytarabine. Preclinical data (Carvajal et al, 2018) demonstrated antiproliferative effects against leukemic stem cells, and complete responses that translated into cures in approximately 40% of mice in xenotransplantation studies. These data also suggested that more frequent dosing may enhance efficacy, and this hypothesis is now being evaluated in the ongoing clinical trial. Methods: ALRN-6924 is being evaluated alone and in combination with cytarabine, using a 3+3 dose escalation design. Using the previously determined RP2D for solid tumors (Meric-Bernstam et al., 2017), the initial cohorts receive 3.1 mg/kg of ALRN-6924 IV over 1 hour on Days 1, 8, and 15 of a 28-day cycle (QW mono-therapy). In separate cohorts, ALRN-6924 is combined with cytarabine IV over 1 hour (initially 100 mg/m2, later 200 mg/m2 ; QW combo-therapy). Later monotherapy cohorts receive more frequent ALRN-6924 administration on Days 1, 3, 5, 8, 10, and 12 of a 21-day cycle (TIW mono-therapy), with an initial dose level of 2.7 mg/kg. Adverse events (AEs) are assessed per CTCAE V4.03; responses are evaluated by the investigators according to IWG (Cheson 2006) and AML Response Criteria (Dohner 2010), for MDS and AML, respectively. Results: Preliminary results are being presented for 13 pts on QW mono- and 19 pts on QW combo-therapy. As of 13 July 2018, 32 QW pts have enrolled, with a median age of 75 years (38-90), 18 pts with de novo or secondary AML and 14 pts with MDS who failed hypomethylating agents. Thus far, pts have received 1-14 cycles. No DLTs have been observed and no MTD has been reached for QW mono-therapy (3.1-5.8 mg/kg) or QW combo-therapy (3.1-4.4 mg/kg ALRN-6924 and 100-200 mg/m2 cytarabine). For QW-treated pts (mono and combo), AEs related to treatment with ALRN-6924 have been reported in 62.5% of pts; most frequent are nausea (25.0%), thrombocytopenia (25.0%), vomiting (25.0%), fatigue (15.6%), and diarrhea (15.6%). Hyperbilirubinemia was reported in 18.8% of pts, representing a known transient effect of ALRN-6924 clearance that has not been associated with liver injury. Thrombocytopenia is the only ≥ grade 3 hematologic AE related to treatment with ALRN-6924 that was reported in ≥5% of pts, with all cases being grade 4 thrombocytopenia (7 pts, 21.9%). SAEs related to treatment with ALRN-6924 have been reported in 2 pts (grade 3 extremity pain and grade 4 angioedema while on concomitant lisinopril). The AE profiles for pts receiving ALRN-6924 QW mono- or QW combo-therapy were not significantly different. Including all QW cohorts (mono and combo), twenty-seven pts are efficacy-evaluable as of July 13, 2018. In preliminary efficacy results across all cohorts, marrow CR was reported in two out of four MDS pts treated with 4.4 mg/kg ALRN-6924 + 200 mg/m2 cytarabine, one of whom went on to transplant. An additional three MDS pts achieved SD. Among AML pts, 1 had a >50% reduction in bone marrow blasts while receiving 3.1 and then 4.4 mg/kg ALRN-6924 plus 100 mg/m2 cytarabine QW. This was durable until the pt succumbed to pneumonia that was unrelated to study drug in cycle 7. For QW-treated pts (mono and combo), main reasons for treatment discontinuation include treatment failure (31.2%), consent withdrawn (25.0%), death (9.4%), MDS transformed to AML (6.2%), and adverse event (6.2%). Accrual to QW combo-therapy with cytarabine in MDS and TIW mono-therapy in AML and MDS continues; updated data for QW mono-, QW-combo as well as TIW mono-therapy will be presented at the meeting. Conclusion: ALRN-6924 has shown clinical activity and an acceptable safety profile in AML and MDS. Continued development of ALRN-6924 for AML and MDS treatment is warranted. Disclosures Sallman: Celgene: Research Funding, Speakers Bureau. Borate:Agios: Consultancy; Novartis: Consultancy. Cull:Celgene: Speakers Bureau. Komrokji:Novartis: Honoraria, Speakers Bureau; Celgene: Honoraria, Research Funding; Celgene: Honoraria, Research Funding; Novartis: Honoraria, Speakers Bureau; Novartis: Honoraria, Speakers Bureau; Novartis: Honoraria, Speakers Bureau. Steidl:Aileron: Consultancy, Research Funding. Corvez:Aileron Therapeutics Inc.: Employment, Equity Ownership. Payton:Aileron Therapeutics: Employment, Equity Ownership. Annis:Aileron Therapeutics Inc.: Employment, Equity Ownership, Patents & Royalties. Pinchasik:Aileron Therapeutics Inc.: Employment, Equity Ownership. Aivado:Aileron Therapeutics Inc.: Employment, Equity Ownership, Patents & Royalties.

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