Ton Wang1, Chitra Subramanian1, Minzhi Yu2, Peter T White1, Rui Kuai3, Jaquelyn Sanchez4, James J Moon5, Barbara N Timmermann6, Anna Schwendeman2, Mark S Cohen7. 1. University of Michigan, Department of Surgery, Ann Arbor, MI. 2. University of Michigan, College of Pharmacy, Ann Arbor, MI. 3. Brigham and Women's Hospital, Department of Medicine, Boston, MA. 4. University of Michigan, Department of Pharmacology, Ann Arbor, MI. 5. University of Michigan, College of Pharmacy, Ann Arbor, MI; University of Michigan, Department of Biomedical Engineering, Ann Arbor, MI. 6. University of Kansas, Department of Medicinal Chemistry, Lawrence, KS. 7. University of Michigan, Department of Surgery, Ann Arbor, MI; University of Michigan, Department of Pharmacology, Ann Arbor, MI. Electronic address: cohenmar@med.umich.edu.
Abstract
BACKGROUND: Withanolides are naturally derived heat shock protein 90 inhibitors that are potent in preclinical models of triple negative breast cancers. Conjugation to synthetic high-density lipoprotein nanoparticles improves solubility and targets delivery to the scavenger receptor B1. Triple negative breast cancers highly overexpress the scavenger receptor B1, and we hypothesize that encapsulation of the novel withalongolide A 4,19,27-triacetate by synthetic high-density lipoprotein will have enhanced efficacy against triple negative breast cancers in vivo. METHODS: Validated human triple negative breast cancer cell lines were evaluated for the scavenger receptor B1 expression by quantitative polymerase chain reaction and Western blot. Withalongolide A 4,19,27-triacetate inhibitory concentration50 values were obtained using CellTiter-Glo assays (Promega, Madison, WI, USA). The scavenger receptor B1-mediated drug uptake was evaluated in vitro under fluorescence microscopy and in vivo with IVIS imaging of mouse xenografts (MD-MBA-468LN). To evaluate drug efficacy, mice were treated with synthetic high-density lipoprotein alone, withalongolide A 4,19,27-triacetate alone, withalongolide A 4,19,27-triacetate synthetic high-density lipoprotein, and chemotherapy or Prussian blue stain (control). RESULTS: Triple negative breast cancer cell lines had greater scavenger receptor B1 expression by quantitative polymerase chain reaction and Western blot versus controls. Fluorescent-labeled synthetic high-density lipoprotein uptake was scavenger receptor B1-mediated in vitro, and in vivo tumor uptake using IVIS imaging demonstrated significantly increased tumor radiant efficiency versus control. Inhibitory concentration50 for withalongolide A 4,19,27-triacetate-treated cells with or without synthetic high-density lipoprotein encapsulation were 70-fold to 200-fold more potent than synthetic high-density lipoprotein alone. In triple negative breast cancer mouse xenografts, treatment with synthetic high-density lipoprotein withalongolide A 4,19,27-triacetate resulted in a 54% decrease in tumor volume compared with the control or with synthetic high-density lipoprotein alone. CONCLUSION: The synthetic high-density lipoprotein withalongolide A 4,19,27-triacetate nanoconjugates are potent against triple negative breast cancers and show improved scavenger receptor B1-mediated targeting. Treatment with synthetic high-density lipoprotein-encapsulated withalongolide A 4,19,27-triacetate is able to significantly decrease the growth of tumor in mice compared with the control and has better efficacy than the current standard of care, warranting further evaluation as a novel therapeutic agent.
BACKGROUND:Withanolides are naturally derived heat shock protein 90 inhibitors that are potent in preclinical models of triple negative breast cancers. Conjugation to synthetic high-density lipoprotein nanoparticles improves solubility and targets delivery to the scavenger receptor B1. Triple negative breast cancers highly overexpress the scavenger receptor B1, and we hypothesize that encapsulation of the novel withalongolide A 4,19,27-triacetate by synthetic high-density lipoprotein will have enhanced efficacy against triple negative breast cancers in vivo. METHODS: Validated human triple negative breast cancer cell lines were evaluated for the scavenger receptor B1 expression by quantitative polymerase chain reaction and Western blot. Withalongolide A 4,19,27-triacetate inhibitory concentration50 values were obtained using CellTiter-Glo assays (Promega, Madison, WI, USA). The scavenger receptor B1-mediated drug uptake was evaluated in vitro under fluorescence microscopy and in vivo with IVIS imaging of mouse xenografts (MD-MBA-468LN). To evaluate drug efficacy, mice were treated with synthetic high-density lipoprotein alone, withalongolide A 4,19,27-triacetate alone, withalongolide A 4,19,27-triacetate synthetic high-density lipoprotein, and chemotherapy or Prussian blue stain (control). RESULTS: Triple negative breast cancer cell lines had greater scavenger receptor B1 expression by quantitative polymerase chain reaction and Western blot versus controls. Fluorescent-labeled synthetic high-density lipoprotein uptake was scavenger receptor B1-mediated in vitro, and in vivo tumor uptake using IVIS imaging demonstrated significantly increased tumor radiant efficiency versus control. Inhibitory concentration50 for withalongolide A 4,19,27-triacetate-treated cells with or without synthetic high-density lipoprotein encapsulation were 70-fold to 200-fold more potent than synthetic high-density lipoprotein alone. In triple negative breast cancermouse xenografts, treatment with synthetic high-density lipoprotein withalongolide A 4,19,27-triacetate resulted in a 54% decrease in tumor volume compared with the control or with synthetic high-density lipoprotein alone. CONCLUSION: The synthetic high-density lipoprotein withalongolide A 4,19,27-triacetate nanoconjugates are potent against triple negative breast cancers and show improved scavenger receptor B1-mediated targeting. Treatment with synthetic high-density lipoprotein-encapsulated withalongolide A 4,19,27-triacetate is able to significantly decrease the growth of tumor in mice compared with the control and has better efficacy than the current standard of care, warranting further evaluation as a novel therapeutic agent.
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