Modulation of the Mdm2 signaling axis sensitizes triple-negative breast cancer cells to carboplatin

Tonsing-Carter, Eva Y.

12 1900

Triple-negative breast cancers (TNBCs) are highly refractive to current treatment strategies, and new multi-targeted treatments need to be elucidated. Combination therapy that includes targeting the murine double minute 2 (Mdm2) signaling axis offers a promising approach. Protein-protein interaction inhibitors such as Nutlin-3a block the binding of key signaling molecules such as p53, p73α, and E2F1 to the hydrophobic pocket of Mdm2 and can lead to activation of cell-death signaling pathways. Since clinical trials for TNBC are evaluating the DNA damaging agent carboplatin, the objective of this thesis was to evaluate the therapeutic potential and mechanism of action of combination carboplatin and Nutlin-3a to treat TNBC. In TNBC cell lines with a mutant p53 background, we determined if modulation of Mdm2 function in the context of carboplatin-mediated DNA damage resulted in a synergistic inhibition of cell growth. Several ratios of carboplatin:Nutlin-3a were strongly synergistic in increasing cell death, with combination indices of 0.5 and lower. Mechanistic studies indicated that drug sensitivity and Mdm2 expression were dependent on p73. Mdm2 localized to a larger degree in the chromatin fraction isolated from cells treated with the combination treatment consistent with observations by others that Mdm2 binds to the Mre11/Rad50/Nbs1 complex, inhibits the DNA damage response, and increases drug sensitivity. In vivo efficacy experiments were conducted in the TMD231 orthotopic mammary fat pad model in NOD.Cg-PrkdcscidIl2rgtm1Wjl/SzJ (NSG) mice. For assessment of baseline tumor burden and randomization, fluorescent imaging of E2-Crimson expressing TMD231 cells was performed. Following Nutlin-3a and carboplatin combination treatment, there was a statistically significant reduction in primary tumor volume as well as lung metastases with significantly increased probability of survival compared to Vehicle and single drug treatments (p<0.001). While there was a decrease in bone-marrow cellularity, this did not lead to bone-marrow aplasia, and body weights recovered to normal levels within 7 days post-treatment. The present studies demonstrate the promise of Mdm2 as a therapeutic target in combination with conventional therapy, increase our understanding of how to potentiate DNA damage in cancers, and may lead to new clinical therapies for triple-negative primary and metastatic breast cancer.

Mdm2

Breast cancer

Nutlin-3a

Pharmacology

Breast -- Cancer -- Treatment

Breast -- Cancer -- Research

Breast -- Cancer -- Pathophysiology

Protein kinases -- Inhibitors

Resveratrol augments paclitaxel treatment in MDA-MB-231 and paclitaxel-resistant MDA-MB-231 breast cancer cells

Sprouse, Alyssa A.

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Resveratrol has been shown to inhibit cell growth and induce apoptosis, as well as augment chemotherapeutics and irradiation in multiple cancer types. However, it is unknown if resveratrol is beneficial for treating drug-resistant cancer cells. To study the effects of resveratrol in triple negative breast cancer cells that are resistant to the common cancer drug, paclitaxel, a novel paclitaxel-resistant cell line was generated from the MDA-MB-231 breast cancer cell line. The resulting cell line, MDA-MB-231/PacR, exhibited a 12-fold increased resistance to paclitaxel but remained sensitive to resveratrol treatment. Resveratrol treatment reduced cell proliferation and colony formation and increased senescence and apoptosis in both the parental MDA-MB-231 and MDA-MB-231/PacR cell lines. Importantly, resveratrol treatment augments the effects of paclitaxel in both cell lines. The expression of the drug efflux transporter gene, MDR1, and the main metabolizing enzyme of paclitaxel gene, CYP2C8, was increased in the resistant cells. Moreover, pharmacological inhibition of the protein products of these genes, P-glycoprotein and CYP2C8, decreased paclitaxel resistance in the resistant but not in the parental cells, which suggests that the increase of these proteins are important contributors to the resistance of these cells. In conclusion, these studies imply that resveratrol, both alone and in combination with paclitaxel, may be useful in the treatment of paclitaxel-sensitive and paclitaxel-resistant triple negative breast cancers.

Breast -- Cancer -- Research

Breast -- Cancer -- Treatment

Paclitaxel -- Physiological effect

Cancer cells -- Effect of drugs on

Drug resistance -- Research

Cell proliferation

Apoptosis

Targeting telomerase in HER2 positive breast cancer: role of cancer stem cells

Koziel, Jillian Elizabeth

02 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Cancer stem cells (CSCs) are proposed to play a major role in tumor progression, metastasis, and recurrence. The Human Epidermal growth factor Receptor 2 (HER2) gene is amplified and/or its protein product overexpressed in approximately 20% of breast cancers. HER2 overexpression is associated with increased CSCs, which may explain the aggressive phenotype and increased likelihood of recurrence for HER2+ breast cancers. Telomerase is reactivated in tumor cells, including CSCs, but has limited activity in normal tissues, providing support for the use of telomerase inhibition in anti-cancer therapy. Telomerase inhibition via an antagonistic oligonucleotide, imetelstat (GRN163L), has been shown to be effective in limiting cell growth in vitro and limiting tumor growth. Moreover, we have previously shown imetelstat can decrease metastases to the lungs, leading us to question if this is due to imetelstat targeting the CSC population. In this thesis, we investigated the effects of imetelstat on CSC and non-CSC populations of HER2+ breast cancer cell lines, as well as a triple negative breast cancer cell line, which lacks HER2 overexpression. Imetelstat inhibited telomerase activity in both CSC and non-CSC subpopulations. Moreover, imetelstat treatment alone and in combination with trastuzumab significantly reduced the CSC fraction and inhibited CSC functional ability, as shown by a significant decrease in mammosphere counts and invasive potential. Tumor growth rate was slower in combination treated mice compared to either drug alone. Additionally, there was a trend toward decreased CSC marker expression in imetelstat treated xenograft cells compared to vehicle control. The decrease in CSC marker expression we observed occurred prior to and after telomere shortening, suggesting imetelstat acts on the CSC subpopulation in telomere length dependent and independent mechanisms. Our study suggests addition of imetelstat to trastuzumab may enhance the effects of HER2 inhibition therapy.

Telomerase

Imetelstat

HER2 breast cancer

Cancer stem cells

HER-2 gene

HER-2 protein

Telomerase

Cancer cells

Stem cells

Cancer invasiveness

Metastasis

Breast - Cancer

Breast - Cancer - Genetic aspects

Breast - Cancer - Research

Breast - Cancer - Gene therapy

Breast - Tumors

BRCA genes