7-Ethyl-10-hydroxy-camptothecin (SN-38), a biological active metabolite of irinotecan hydrochloride (CPT-11), has potent antitumor activity but has not been used clinically because it is a water-insoluble drug. For delivery by i.v. injection, we have successfully developed NK012, a SN-38-releasing nanodevice. The purpose of this study is to investigate the pharmacologic character of NK012 as an anticancer agent, especially in a vascular endothelial growth factor (VEGF)-secreting tumor model. The particle size of NK012 was f20 nm with a narrow size distribution. NK012 exhibited a much higher cytotoxic effect against lung and colon cancer cell lines as compared with CPT-11. NK012 showed significantly potent antitumor activity against a human colorectal cancer HT-29 xenograft as compared with CPT-11. Enhanced and prolonged distribution of free SN-38 in the tumor was observed after the injection of NK012. NK012 also had significant antitumor activity against bulky SBC-3/Neo (1,533
Overexpression of an anti-apoptotic protein cIAP1 caused by its genetic amplification was reported in certain cancers, such as hepatocellular carcinoma, esophageal squamous cell carcinoma, cervical cancer, and lung cancer, which confers resistance to chemotherapy and radiotherapy. Here we report cIAP1 to be selectively down-regulated by a class of small molecules ((؊)-N-[(2S,3R)-3-amino-2-hydroxy-4-phenyl-butyryl]-L-leucine methyl ester (ME-BS)), resulting in a sensitization of cancer cells to apoptosis. ME-BS directly interacts with the BIR3 domain of cIAP1, promotes auto-ubiquitylation dependent on its RING domain, and facilitates proteasomal degradation of cIAP1. Other IAPs such as XIAP and cIAP2 were not affected by ME-BS. These results suggest targeted destabilization of cIAP1 by small molecules as a novel method to treat cancers expressing cIAP1, which interferes with treatment. Manipulation of the intrinsic ubiquitinligase activity could be a novel strategy to develop small molecules for therapeutic purposes.IAPs (inhibitor of apoptosis proteins) are a family of antiapoptotic proteins containing one to three baculoviral IAP repeat (BIR) 2 domains (1-3), some of which are frequently overexpressed in malignant cells. Certain IAPs such as XIAP/ hILP/BIRC4, cIAP1/MIHB/hiap-2/BIRC2, cIAP2/MIHC/hiap-1/BIRC3, ML-IAP/Livin/BIRC7 and Apollon/BRUCE/BIRC6 directly interact with and regulate caspases (4 -9). The BIR domain plays an important role in the interaction with caspases (8, 10, 11). These IAPs also contain a domain involved in ubiquitin conjugation (RING finger domain or UBC domain), and facilitate proteasomal degradation of caspases and IAPs (8, 12, 13). cIAP1 (cellular inhibitor of apoptosis protein 1) is overexpressed in human cancers such as esophageal squamous cell carcinoma, hepatocellular carcinoma, cervical cancer, and lung cancer, because of its genetic amplification and is regarded as an oncogene (14 -17). cIAP1 overexpression in cervical cancers correlates with resistance to radiotherapy. In addition, a comparative study of the expression of IAP family proteins and the sensitivity to chemotherapeutic drugs in 60 cell lines revealed the level of cIAP1 significantly correlates with resistance against anti-cancer drugs such as carboplatin, cisplatin, etoposide, and cytosine arabinoside (18). This evidence suggests cIAP1 to be a promising target for cancer therapy.Bestatin, an inhibitor of aminopeptidase N, has an immunomodulatory activity and is approved in Japan to treat patients with adult acute nonlymphatic leukemia (19 -21). In a clinical trial with stage I squamous cell lung carcinoma patients, bestatin significantly prolonged survival of these patients (22). Bestatin induces apoptosis in human leukemia cells (23) and augments death ligand-induced apoptosis in human solid tumor cell lines (24). In this paper, we describe selective down-regulation of cIAP1 by esterified analogs of bestatin represented by bestatin-methyl ester (ME-BS) (see Fig. 1A), resulting in a sensitization of cancer cells to ...
Abstract. Vitamin A is one of the micronutrients which have been implicated in cattle reproduction.In cattle, ingested vitamin A, mainly as β-carotene (BC) from forages and retinol ester from formula feed, is metabolized and transported to the oocytes and cumulus-granulosa cells in ovarian follicles through binding to various interacting molecules. The active form of vitamin A, retinoic acid (RA), functions as a regulator of gene expression in these targets. Early research showed the positive effects of vitamin A supplementation on bovine fertility in artificial insemination, and several studies on effects of vitamin A metabolites used in other artificial reproductive techniques (ART), including superovulation, ovum pick up, and in vitro maturation culture have provided evidence for the specific roles of vitamin A in oocyte cytoplasmic maturation (acquisition of developmental competence of oocytes during their meiotic maturation period for the embryonic development after fertilization). BC may enhance cytoplasmic maturation by its antioxidant properties which cannot be replaced by RA. Furthermore, RA may promote cytoplasmic maturation of bovine oocytes via its modulatory effects on the gene expression of gonadotrophin receptors, midkine, cyclooxygenase-2, and nitric oxide synthase in cumulus-granulosa cells. Key words: Vitamin A, Cattle, Oocyte, Cytoplasmic maturation (J. Reprod. Dev. 51: [23][24][25][26][27][28][29][30][31][32][33][34][35] 2005) itamin A is one of the fat-soluble vitamins and is well known to regulate development, cellular growth and differentiation, and tissue function [1,2]. Since the earliest research into vitamin A function in cattle reproduction [3,4], vitamin A and its metabolites (Fig. 1) have been tested in various artificial reproduction techniques (ART) in cattle. It has been found so far that vitamin A and its metabolites affect ovarian follicular growth [5] and steroidogenesis [6], oviductal and uterine environments [7,8], immune functions [9-11], oocyte maturation, and embryo and conceptus development [12].Oocytes are formed during fetal life and are arrested at the prophase stage of the first meiotic division. After puberty, the fully grown oocyte arrested at the first meiotic prophase, the germinal vesicle stage, in the last folliclular wave [13] within the estrous cycle resumes meiosis in response to a preovulatory luteinizing hormone (LH) surge and reaches the metaphase stage of the second meiotic division. This process is called oocyte maturation [14] and is considered to involve not only the resumption of meiosis (nuclear maturation) but also the acquisition of developmental competence ( c y t o p l a s m i c m a t u r a t i o n ) f o r e m b r y o n i c d e v e l o p m e n t a f t e r f e r t i l i z a t i o n [ 1 5 , 1 6 ] .
Treatment with tamoxifen increased the risk of endometrial cancers in breast cancer patients and women participating in the chemoprevention study. In our laboratory, tamoxifen-DNA adducts, including alpha-(N(2)-deoxyguanosinyl)tamoxifen (dG-N(2)-TAM), were detected in the endometrium of women taking tamoxifen [Shibutani, S., et al. (1999) Chem. Res. Toxicol. 12, 646-653]. On the basis of recent animal studies, deoxyguanosinyl-N-desmethyltamoxifen (dG-N-desmethylTAM) adducts are also suspected to be formed in the liver. In the study presented here, we synthesized alpha-acetoxy-N-desmethyltamoxifen as a model activated metabolite of N-desmethyltamoxifen. The overall yield of alpha-acetoxy-N-desmethyltamoxifen from alpha-hydroxytamoxifen was approximately 42%. alpha-Acetoxy-N-desmethyltamoxifen was highly reactive to 2'-deoxyguanosine, as was similarly observed for tamoxifen alpha-sulfate. The two reaction products were identified as a mixture of epimers of the trans form or cis form of alpha-(N(2)-deoxyguanosinyl)-N-desmethyltamoxifen (dG-N(2)-N-desmethylTAM) by mass and proton magnetic resonance spectroscopy. In addition, the trans and cis forms of dG 3'-monophosphate-N(2)-N-desmethylTAM were prepared as standard markers for (32)P-postlabeling/HPLC analysis. Using this technique, dG-N(2)-N-desmethylTAM adducts were detected in calf thymus DNA reacted with alpha-acetoxy-N-desmethyltamoxifen.
Osteoarthritis (OA) is a degenerative disease characterized by joint destruction and loss of cartilage. There are many unmet needs in the treatment of OA and there are few promising candidates for disease-modifying OA drugs, particularly, anabolic agents. Here, we describe the identification of novel quinazolin-4(3H)-one derivatives, which stimulate chondrocyte cartilage matrix production via TRPV4 and mitigate damaged articular cartilage. We successfully identified the water-soluble, highly potent quinazolin-4(3H)-one derivative 36 and studied its intra-articular physicochemical profile to use in in vivo surgical OA model studies. Compound 36·HCl provided relief from OA damage in a rat medial meniscal tear (MT) model. Specifically, 36·HCl dose-dependently suppressed cartilage degradation and enhanced the messenger RNA expression of aggrecan and SOX9 in cartilage isolated from MT-operated rat knees compared with knees treated with vehicle. These results suggest that 36 induces anabolic changes in articular cartilage and consequently reduces OA progression.
A new HPLC gradient system was developed for (32)P-postlabeling analysis to identify and quantify hepatic tamoxifen-DNA adducts of rats and mice treated with tamoxifen. Four stereoisomers of alpha-(N(2)-deoxyguanosinyl)tamoxifen (dG(3')(P)-N(2)-TAM), alpha-(N(2)-deoxyguanosinyl)-N-desmethyltamoxifen (dG(3')(P)-N(2)-N-desmethyl-TAM), and alpha-(N(2)-deoxyguanosinyl)tamoxifen N-oxide (dG(3')(P)-N(2)-TAM N-oxide) were prepared by reacting either alpha-acetoxytamoxifen, alpha-acetoxy-N-desmethyltamoxifen or alpha-acetoxytamoxifen N-oxide with 2'-deoxyguanosine 3'-monophosphate, and used as standard markers for (32)P-postlabeling/HPLC analysis. Our HPLC gradient system can separate the above 12 nucleotide isomers as nine peaks; six peaks representing two each trans epimers (fr-1 and fr-2) of dG(3')(P)-N(2)-TAM, dG(3')(P)-N(2)-N-desmethyl-TAM and dG(3')(P)-N(2)-TAM N-oxide, and three peaks representing a mixture of two cis epimers (fr-3 and fr-4) of nucleotides. Tamoxifen was given to female F344 rats and DBA/2 mice by gavage at doses of 45 mg/kg/day and 120 mg/kg/day, respectively, for 7 days. Totally 15 and 17 tamoxifen-DNA adducts were detected in rats and mice, respectively; among them 13 adducts were observed in both rats and mice. trans-dG-N(2)-TAM (fr-2) and trans-dG(3')(P)-N(2)-N-desmethyl-TAM (fr-2) were two major adducts in both animals. Except for these two adducts, trans-dG-N(2)-TAM N-oxide (fr-2) was the third abundant adduct that accounted for 6.4% of the total adducts in mice, while this accounted for only 0.3% in rats. A trans-isomer (fr-1) and cis-isomers (fr-3 and -4) of dG(3')(P)-N(2)-TAM, dG(3')(P)-N(2)-N-desmethyl-TAM and dG(3')(P)-N(2)-TAM N-oxide were also detected as minor adducts in both animals except for cis-form of dG-N(2)-TAM N-oxide in rats. Although the administered dose for rats was 2.7-fold less than that for mice, the total adduct level of rats (216 adducts/10(8) nucleotides) were 3.8-fold higher than mice (56.2 adducts/10(8) nucleotides). Thus, these three types of tamoxifen adducts accounted for 95.0 and 92.5% of the total DNA adducts of the rats and mice, respectively. The formation of tamoxifen adducts primarily resulted from alpha-hydroxylation of tamoxifen.
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