Delphinidin Inhibits HER2 and Erk1/2 Signaling and Suppresses Growth of HER2-Overexpressing and Triple Negative Breast Cancer Cell Lines

Delphinidin is a polyphenolic compound found in many brightly colored fruits and vegetables. Delphinidin is also the major bioactive component found in many dietary supplements that are currently consumed as complementary cancer medicine including pomegranate extract. The purpose of the current study was to determine the in vitro biological effects of delphinidin on established breast cancer cell lines of varying molecular subtypes in comparison to non-transformed breast epithelial cells. We examined cell proliferation, apoptosis, and growth inhibition in response to delphinidin using a tetrazolium salt-based assay, DNA fragmentation assay, and anchorage-independent growth assay. In comparison to vehicle control, delphinidin inhibited proliferation (P < 0.05), blocked anchorage-independent growth (P < 0.05), and induced apoptosis (P < 0.05) of ER-positive, triple negative, and HER2-overexpressing breast cancer cell lines with limited toxicity to non-transformed breast epithelial cells. MAPK signaling was partially reduced in triple negative cells and ER-negative chemically transformed MCF10A cells after treatment with delphinidin. In addition, delphinidin induced a significant level of apoptosis in HER2-overexpressing cells in association with reduced HER2 and MAPK signaling. Since delphinidin is often consumed as a complementary cancer medicine, the effect of delphinidin on response to specific HER2-targeted breast cancer therapies was examined by proliferation assay. Results of these drug combination studies suggested potential antagonism between delphinidin and HER2-directed treatments. In summary, the data presented here suggest that single agent delphinidin exhibits growth inhibitory activity in breast cancer cells of various molecular subtypes, but raise concerns regarding potential drug antagonism when used in combination with existing targeted therapies in HER2-overexpressing breast cancer

Modulation of the BRCA1 Protein and Induction of Apoptosis in Triple Negative Breast Cancer Cell Lines by the Polyphenolic Compound Curcumin

In the current study, we sought to examine the effects of curcumin in a specific type of breast cancer called triple negative breast cancer. These cancers lack expression of the estrogen and progesterone receptors and do not over-express HER2. Current treatment for triple negative breast cancers is limited to cytotoxic chemotherapy, and upon relapse, there are not any therapies currently available. We demonstrate here that the bioactive food compound curcumin induces DNA damage in triple negative breast cancer cells in association with phosphorylation, increased expression, and cytoplasmic retention of the BRCA1 protein. In addition, curcumin promotes apoptosis and prevents anchorage-independent growth and migration of triple negative breast cancer cells. Apoptosis and BRCA1 modulation were not observed in non-transformed mammary epithelial cells, suggesting curcumin may have limited non-specific toxicity. This study suggests that curcumin and potentially curcumin analogues should be tested further in the context of triple negative breast cancer. These results are novel, having never been previously reported, and suggest that curcumin could provide a novel, non-toxic therapy, which could lead to improved survival for patients with triple negative breast cancer. Curcumin should be studied further in this subset of breast cancer patients, for whom treatment options are severely limited

The Role of Sphingolipids in Cortisol Synthesis in the Adrenal Cortex

In the human adrenal cortex, adrenocorticotropin (ACTH) activates steroid hormone biosynthesis by acutely increasing cholesterol delivery to the mitochondria and chronically up-regulating the transcription of steroidogenic genes (including CYP17). Sphingolipids are a diverse family of phospholipids and glycolipids that mediate a wide variety of cellular processes, including apoptosis, proliferation, and survival. Sterol regulatory element binding proteins (SREBPs) are a family of transcription factors that regulate genes that are involved in cholesterol biosynthesis and fatty acid metabolism. In this study, we investigated the role of sphingolipids in ACTH-dependent steroidogenesis. H295R human adrenocortical cells were treated with ACTH or dibutyryl cAMP (Bt2cAMP) for various time periods and the content of several sphingolipid species was quantified by mass spectrometry. Both ACTH and Bt2cAMP decreased cellular amounts of sphingomyelin, ceramides, sphingosine (So) and sphingosine-1-phosphate (S1P). However, both ACTH and Bt2cAMP increased the activity of sphingosine kinase and the amounts of S1P released into the media. Both So and S1P increased CYP17 mRNA expression and increased cortisol biosynthesis. This increase in CYP17 transcription occurs by promoting SREBP binding to an SRE at -450/-436 basepairs upstream of the transcription initiation site. Furthermore, chromatin immunoprecipitation (ChIP) assays revealed that Bt2cAMP and S1P treatment results in an increase in acetylation of histone H3 and SREBP1 binding to CYP17 promoter. Additionally, transient transfection studies using wild type or mutated hCYP17 promoters and RNA interference (RNAi) assays confirmed the role of SREBP1 in mediating the stimulatory effect of S1P on CYP17 transcription. In summary, our studies demonstrate a link between sphingolipid metabolism and ACTH-dependent steroidogenesis which requires the activation of SREBP1 in human adrenal cortex.M.S.Committee Chair: Sewer, Marion B.; Committee Member: Boyan, Barbara D.; Committee Member: Merrill, Alfred H.; Committee Member: Radhakrishna, Haris

Mechanical properties and freeze-thaw resistances of bronze-concrete composites

Studies in the literature show that the physical and mechanical properties of concrete could be improved by the incorporation of different kinds of industrial waste, including waste tire rubber and tire steel. Recycling of waste is important for economic gain and to curb environmental problems. In this study, finely ground CuAl10Ni bronze is used to improve the physical and mechanical properties, and freeze-thaw resistances of C30 concrete. The density, cold crushing strength, 3-point bending strength, elastic modulus, toughness, and freeze-thaw resistances of concrete are determined. In addition, the Schmidt Rebound Hammer (SRH) and the ultrasonic pulse velocity (UPV) tests, which are non-destructive test methods, are applied. SEM/EDX analyses are also carried out. It is noted that a more compacted structure of concrete is achieved with the addition of bronze sawdust. Then higher density and strength values are obtained for concretes that are produced by bronze addition. In addition, concretes including bronze sawdust generally show higher toughness due to high plastic energy capacities than pure concrete