Browsing by Subject "Anticancer agents"
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Item Expanded porphyrins as experimental anticancer agents and MRI contrast agents(2012-12) Preihs, Christian; Sessler, Jonathan L.Texaphyrins represent the vanguard of experimental anticancer drugs and also symbolize a well-known example of expanded porphyrins, a class of oligopyrrolic macrocycles with tumor localization properties and powerful metal chelating properties. Chapter 1 of this thesis describes the unique structural characteristics of this complex synthetic molecule along with the biological relevance and scientific justifications for studying its anticancer properties and powerful MRI contrast ability. This Chapter also serves to underscore the need to improve further and refine the efficacy of texaphyrins as compounds that may be applied in the struggle against cancer. Chapter 2 details the synthesis of bismuth(III) and lead(II)-texaphyrin complexes that could potentially find use as [alpha]-core emitters for radiotherapy. In principle, porphyrins would ostensibly appear to be ideal ligands for use in radiotherapy due to their tumor-localizing ability. However, Bi(III)- and Pb(II)-porphyrin complexes are extremely rare, most reflecting the vastly challenging synthesis of these compounds as well as their general lack of stability. These limitations provided an incentive for us to use texaphyrins as more versatile ligands to prepare and fully characterize stable bismuth(III) and lead(II) complexes. To be of interest in future medical applications, we needed to prepare these complexes quickly as compared to the relevant time scales set by the half-lives of the isotopes targeted for use in radiotherapy. This goal was successfully realized. As mentioned above, texaphyrin is able to form stable complexes with a large variety of metals particularly in the lanthanide series. Gadolinium(III) complexes of texaphyrin have been studied in considerable detail. Chapter 3 details the synthesis and conjugation methods used to develop a texaphyrin conjugated dual mode nanoparticle contrast agent. This project has been done in collaboration with the group of Prof. Jinwoo Cheon (Yonsei University, Seoul, Korea), who demonstrated fascinating results with the texaphyrin functionalized nanoparticles. Not only do these conjugates act as improved magnetic resonance contrast agents displaying enhanced signals in both the T1 and T2 MRI modes, but also serve to sensitize apoptotic hyperthermia. It is this latter, double effector feature, that has been most extensively studied to date. Chapter 4 of this dissertation describes work done in close collaboration with Dr. Natalie Barkey and Dr. David Morse (Moffitt Cancer Center, Tampa, FL) where a gadolinium texaphyrin complex was developed that is able to target the melanocortin 1 receptor (MC1R) when encapsulated in a micellar system. As detailed in this Chapter, these collaborateurs demonstrated that these gadolinium-texaphyrin micelles are able to target MC1R-expressing xenograft tumors in vivo. This work relied on the supply of a new set of texaphyrin derivatives that were prepared and characterized as part of this dissertation work Chapter 5 of this disseration introduces sapphyrins, another class of expanded porphyrins with tumor selectivity. This project is based on the hypothesis that a direct linkage of sapphyrin with an anticancer agent based on ruthenium(II) could improve the efficacy of both compounds. Since sapphyrins exhibit limited ability to form stable complexes with transition metals, an appended 1,10-phenanthroline unit was chosen as an efficient N-donor aromatic ligand for ruthenium(II). Therefore, extensive synthetic efforts were made to form this sapphyrin-1,10-phenanthroline construct in an effort to stabilize a mixed sapphyrin-metallo-phenanthroline complex. Finally, Chapter 6 of this dissertation demonstrates the author's efforts to synthesize a planar rosarin species. Non-aromatic and non-planar rosarins have been known for over two decades. Through structural modification of the compound, namely through linking of both [Beta] positions on the bipyrrole unit, a new planar rosarin species has been synthesized exhibiting Hückel antiaromaticity.Item Studies of natural vitamin E forms and their synthetic derivatives for potential anticancer application in human breast cancer cell lines and mouse tumor models(2010-08) Park, Sook Kyung; Sanders, Bob G.; Kline, Kimberly; Hursting, Stephen D.; Tucker, Philip; Van Den Berg, Carla L.Vitamin E is a group of naturally occurring fat soluble compounds which consists of eight distinct forms of tocopherols and tocotrienols. Although a well-defined physiological function of vitamin E is as an antioxidant, beneficial effects of individual vitamin E compounds on chronic human diseases such as cancer need to be better understood. Studies in this dissertation investigated potential application of gamma-tocopherol (gamma-T), gamma-tocotrienol (gamma-T3) or synthetic derivatives of tocotrienols as anticancer agents in comparison to alpha-tocopherol (alpha-T), its redox-silent acetic acid derivative (alpha-TEA) or alpha-tocotrienol (alpha-T3). Redox-silent derivatives of alpha- and gamma-T3; namely alpha-T3EA and gamma-T3EA exhibited potent anti-proliferative and proapoptotic activities in a murine mammary cancer cell line as well as in human breast cancer cell lines. Moreover, studies using human vascular endothelial cells in cell culture showed that the tocotrienol derivatives exhibited strong antiangiogenic activities which were markedly improved over those of the parent compounds. An antitumor efficacy study using the 66cl-4-GFP syngeneic mouse mammary tumor model showed that each tocotrienol derivative, when delivered in the diet, significantly suppressed mammary tumor growth; however serum and tissue concentrations of these novel compounds were lower than those of alpha-TEA, suggesting that the next generation of vitamin E derivatives will need to be modified to improve bioavailability. On the other hand, some natural-source vitamin E forms, especially gamma-forms, display anticancer activities without any chemical modification in both in vitro cell culture studies and in vivo animal models. Dietary delivery of gamma-T3 suppressed tumor growth in a syngeneic implantation mouse mammary cancer model by inhibiting cell proliferation and inducing apoptosis. Cell culture studies using human breast cancer cells showed that gamma-T3 triggered apoptosis by inducing endoplasmic reticulum (ER)-stress mediated by acid sphingomyelinase (ASMase) action. Activation of stress-activated mitogen-activated protein kinases (MAPKs), JNK and p38, was associated with gamma-T3-induced ER stress followed by upregulation of extrinsic death receptor-5 (DR5) expression in a CHOP transcription factor dependent manner. Gamma-T also triggered extrinsic apoptosis signaling by increasing DR5 mRNA, protein and cell surface expression levels followed by mitochondria-dependent apoptotic signaling. In agreement with in vitro studies, gamma-T delivered in the diet suppressed the tumor growth of MDA-MB-231-GFP human breast cancer cells in a xenograft model but the antitumor activity of gamma-T was hampered by co-administration of alpha-T. The preferential tissue retention of alpha-T over gamma-T could be overcome by use of sesamin, a dietary source of human cytochrome P450 inhibitor. Based on data presented, gamma-T and gamma-T3 show preclinical potential for cancer treatment either as single agents or in combination with other agents.Item TRAIL resistance through transcriptional control of MCL-1(2009-12) Son, Jae Kyoung; Bratton, Shawn B.Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is a potentially useful anticancer agent with exquisite selectivity for cancer cells. Unfortunately, many cancers exhibit or acquire resistance to TRAIL. We report herein that TRAIL activates a TGF-ß-activated kinase 1→mitogen-activated protein kinase (MAPK) kinase 3 (MKK3)/MKK6→p38 pathway in prostate cancer cells that transcriptionally upregulates expression of the antiapoptotic BCL-2 family member MCL-1. TRAIL alone triggered robust formation of the "death-inducing signaling complex", activation of the initiator caspase-8, and truncation of the BH3-only protein BID (tBID). Nevertheless, simultaneous disruption of the p38 MAPK pathway was required to suppress MCL-1 expression, thereby allowing tBID to activate the proapoptotic BCL-2 family member BAK and stimulate mitochondrial outer membrane permeabilization (MOMP). Release of the inhibitor-of-apoptosis antagonist, Smac/DIABLO, from the intermembrane space was sufficient to promote TRAIL-induced apoptosis, whereas release of cytochrome c and apoptosome function were dispensable. Even following MOMP, however, mitochondrial-generated reactive oxygen species activated a secondary signaling pathway, involving c-Jun N-terminal kinases, that likewise upregulated MCL-1 expression and partially rescued cells from death. Thus, stress kinases activated at distinct steps in the extrinsic pathway mediate TRAIL resistance through maintenance of MCL-1 expression.