Polyphenols, which include phenolic acids, flavonoids, stilbenes, and phenylethanoids, are generally known as useful antioxidants. Tyrosol, hydroxytyrosol, and salidroside are typical phenylethanoids. Phenylethanoids are found in plants such as olive, green tea, and Rhodiola and have various biological activities, including the prevention of cardiovascular diseases, cancer, and brain damage. We used Escherichia coli to synthesize three phenylethanoids, tyrosol, hydroxytyrosol, and salidroside. To synthesize tyrosol, the aromatic aldehyde synthase (AAS) was expressed in E. coli. Hydroxytyrosol was synthesized using E. coli harboring AAS and HpaBC, which encodes hydroxylase. In order to synthesize salidroside, 12 uridine diphosphate-dependent glycosyltransferases (UGTs) were screened and UGT85A1 was found to convert tyrosol to salidroside. Using E. coli harboring AAS and UGT85A1, salidroside was synthesized. Through the optimization of these three E. coli strains, we were able to synthesize 531 mg/L tyrosol, 208 mg/L hydroxytyrosol, and 288 mg/L salidroside, respectively.
We have recently validated a macromolecular prodrug strategy for improved cancer chemotherapy based on two features: (a) rapid and selective binding of thiol-reactive prodrugs to the cysteine-34 position of endogenous albumin and (b) acid-sensitive promoted or enzymatic release of the drug at the tumor site [Kratz, F., Warnecke, A., Scheuemann, K., Stockmar, C., Schwab, J., Lazar, P., Druckes, P., Esser, N., Drevs, J., Rognan, D., Bissantz, C., Hinderling, C., Folkers, G., Fichtner, I., and Unger, C. (2002) J. Med. Chem. 45, 5523-33]. In the present work, we developed water-soluble camptothecin (CPT) and doxorubicin (DOXO) prodrugs that incorporate the peptide linker Ala-Leu-Ala-Leu that serves as a substrate for the tumor-associated protease, cathepsin B, which is overexpressed in several solid tumors. Consequently, two albumin-binding prodrugs were synthesized [EMC-Arg-Arg-Ala-Leu-Ala-Leu-Ala-CPT (1) and EMC-Arg-Arg-Ala-Leu-Ala-Leu-DOXO (2) (EMC = 6-maleimidocaproic acid)]. Both prodrugs exhibited excellent water-solubility and bound rapidly and selectively to the cysteine-34 position of endogenous albumin. Further in vitro studies showed that the albumin-bound form of the prodrugs was cleaved specifically by cathepsin B as well as in human tumor homogenates. Major cleavage products were CPT-peptide derivatives and CPT for the CPT prodrug and H-Leu-Ala-Leu-DOXO, H-Leu-DOXO, and DOXO for the doxorubicin prodrug. In vivo, 1 was superior to free camptothecin in an HT-29 human colon xenograft model; the antitumor efficacy of prodrug 2 was comparable to that of free doxorubicin in the M-3366 mamma carcinoma xenograft model at equimolar doses.
Designing and developing truly tumor-specific prodrugs remains a challenge in the field of cancer chemotherapy. Active targeting strategies, on the one hand, aim at exploiting membrane-associated receptors or antigens for drug delivery; on the other hand, the enhanced vascular permeability and retention of macromolecules in tumor tissue substantiates the concept of passive targeting. Consequently, research efforts have concentrated on conjugating anticancer agents with a wide spectrum of carriers including antibodies, peptides, serum proteins, and synthetic polymers. Conversely, low-molecular weight prodrugs of anticancer agents have been developed that do not bear an active or passive targeting moiety, but are activated by tumor-associated enzymes at the tumor site. Anthracyclines probably represent the class of anticancer agents that has been most widely used for the development of prodrugs. This overview gives an update of the various low- and high-molecular weight prodrugs of anthracyclines, e.g. with antibodies, peptides, carbohydrates, serum proteins or synthetic polymers, that have been developed over the past 20 years and that exemplify the salient features of a respective drug delivery system. A detailed description will be dedicated to anthracycline prodrugs that have reached an advanced stage of preclinical testing or that have entered clinical trials.
The prostate-specific antigen (PSA) is a serine protease that is over-expressed in prostate carcinoma and represents a molecular target for selectively releasing an anticancer agent from a prodrug formulation. We have recently investigated a macromolecular prodrug strategy for improved cancer chemotherapy based on 2 features: (i) rapid and selective binding of thiol-reactive prodrugs to the cysteine-34 position of endogenous albumin after intravenous administration, and (ii) enzymatic release of the albuminbound drug at the tumor site (Mansour et al., Cancer Res 2003, 63, 4062-4066). In this work, we describe an albumin-binding prodrug, EMC-Arg-Ser-Ser-Tyr-Tyr-Ser-Arg-DOXO [EMC: e-Maleimidocaproic acid; DOXO 5 doxorubicin; X 5 amino acid] that is cleaved by PSA. Because of the incorporation of 2 arginine residues, the prodrug exhibited excellent water-solubility and was rapidly and selectively bound to endogenous albumin. Incubation studies with PSA and tumor homogenates from PSA-positive tumors (LNCaP) demonstrated that the albumin-bound form of the prodrug was efficiently cleaved by PSA at the P 1 -P 0 1 scissile bond releasing the doxorubicin dipeptide H-Ser-Arg-DOXO, which was further degraded to doxorubicin as the final cleavage product. In cell culture experiments, the prodrug was 100-fold less active against LNCaP cells than the free drug. In contrast, in a mouse model of human prostate cancer using luciferase transduced LNCaP cells orthotopically implanted in SCID mice, the prodrug showed enhanced antitumor efficacy when compared to doxorubicin. Doxorubicin treatment at a dose of 2 3 4 mg/kg caused significant weight loss and mortality (225%), and did not result in a significant antitumor response at the end of the experiment. The prodrug at 3 3 12 mg/kg doxorubicin equivalents, however, was well tolerated and induced a significant reduction in tumor size of 62% (625%, **p 5 0.003) as well as a decrease of the metastatic burden in the lungs as detected in luciferase assays (250%, SD 6 115%, *p 5 0.038). ' 2007 Wiley-Liss, Inc.Key words: doxorubicin; macromolecular prodrug; human serum albumin; PSA; orthotopic animal model; LNCaP; luciferase; in vivo bioluminescence Hormone refractory prostate cancer responds unfavorably to chemotherapy. The best results to date are achieved with Taxotere. 1 To improve prostate cancer therapy, tumor-specific delivery of anticancer agents to the primary tumor and metastases is a goal worth pursuing.For selectively releasing anticancer agents, the prostate-specific antigen (PSA) is especially attractive as a target protease because it is solely expressed in prostate tissue and prostate carcinoma in prostate cancer patients with high levels up to mg/g present in human prostate carcinoma. 2,3 PSA is a serine protease that belongs to the kallikrein gene family with chymotrypsin-like activity that is involved in the hydrolytic processing of semenogelins (cleavage of the semenal fluid proteins semenogelin I and II), which is required for liquefaction of seminal fluids. 2,3 Over...
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