28 research outputs found
Prostate Cancer Stem Cell-Targeted Efficacy of a New-Generation Taxoid, SBT-1214 and Novel Polyenolic Zinc-Binding Curcuminoid, CMC2.24
Background
Prostate cancer is the second leading cause of cancer death among men. Multiple evidence suggests that a population of tumor-initiating, or cancer stem cells (CSCs) is responsible for cancer development and exceptional drug resistance, representing a highly important therapeutic target. The present study evaluated CSC-specific alterations induced by new-generation taxoid SBT-1214 and a novel polyenolic zinc-binding curcuminoid, CMC2.24, in prostate CSCs. Principal Findings
The CD133high/CD44high phenotype was isolated from spontaneously immortalized patient-derived PPT2 cells and highly metastatic PC3MM2 cells. Weekly treatment of the NOD/SCID mice bearing PPT2- and PC3MM3-induced tumors with the SBT-1214 led to dramatic suppression of tumor growth. Four of six PPT2 and 3 of 6 PC3MM2 tumors have shown the absence of viable cells in residual tumors. In vitro, SBT-1214 (100nM-1”M; for 72 hr) induced about 60% cell death in CD133high/CD44+/high cells cultured on collagen I in stem cell medium (in contrast, the same doses of paclitaxel increased proliferation of these cells). The cytotoxic effects were increased when SBT-1214 was combined with the CMC2.24. A stem cell-specific PCR array assay revealed that this drug combination mediated massive inhibition of multiple constitutively up-regulated stem cell-related genes, including key pluripotency transcription factors. Importantly, this drug combination induced expression of p21 and p53, which were absent in CD133high/CD44high cells. Viable cells that survived this treatment regimen were no longer able to induce secondary spheroids, exhibited significant morphological abnormalities and died in 2-5 days. Conclusions
We report here that the SBT-1214 alone, or in combination with CMC2.24, possesses significant activity against prostate CD133high/CD44+/high tumor-initiating cells. This drug combination efficiently inhibits expression of the majority of stem cell-related genes and pluripotency transcription factors. In addition, it induces a previously absent expression of p21 and p53 (âgene wake-upâ), which can potentially reverse drug resistance by increasing sensitivity to anti-cancer drugs
Identification of Enolase as the Target of 2-Aminothiazoles in Mycobacterium tuberculosis
Tuberculosis is a massive global burden and Mycobacterium tuberculosis is increasingly resistant to first- and second-line drugs. There is an acute need for new anti-mycobacterial drugs with novel targets. We previously evaluated a series of 2-aminothiazoles with activity against Mycobacterium tuberculosis. In this study, we identify the glycolytic enzyme enolase as the target of these molecules using pull down studies. We demonstrate that modulation of the level of enolase expression affects sensitivity to 2-aminothiazoles; increased expression leads to resistance while decreased protein levels increase sensitivity. Exposure to 2-aminothiazoles results in increased levels of metabolites preceding the action of enolase in the glycolytic pathway and decreased ATP levels. We demonstrate that 2-aminothiazoles inhibit the activity of the human α-enolase, which could also account for the cytotoxicity of some of those molecules. If selectivity for the bacterial enzyme over the human enzyme could be achieved, enolase would represent an attractive target for M. tuberculosis drug discovery and development efforts
Design, Synthesis, and Biological Evaluation of Theranostic VitaminâLinkerâTaxoid Conjugates
Novel tumor-targeting theranostic
conjugates <b>1</b> and <b>2</b>, bearing either a fluorine-labeled
prosthetic as a potential <sup>18</sup>F-PET radiotracer (<b>1</b>) or a fluorescence probe
(<b>2</b>) for internalization studies in vitro, were designed
and synthesized. We confirmed efficient internalization of <b>2</b> in biotin-receptor positive (BR+) cancer cells via receptor-mediated
endocytosis (RME) based on flow cytometry and confocal fluorescence
microscopy (CFM) analyses, which exhibited very high specificity to
BR+ cancer cells. The potency and cancer-cell selectivity of <b>1</b> were evaluated against MX-1, L1210FR and ID8 cancer cells
(BR+) as well as L1210 cells and WI38 normal human lung fibroblast
cells (biotin-receptor negative: BRâ). In particular, we designed
and performed an assay in the presence of glutathione ethyl ester
(GSH-OEt) wherein only <b>1</b> molecules internalized into
cells via RME in the first 24 h period exert cytotoxic effect. The
observed selectivity of <b>1</b> was remarkable, with 2 orders
of magnitude difference in IC<sub>50</sub> values between BR+ cancer
cells and WI38 cells, demonstrating a salient feature of this tumor-targeted
drug delivery system
Design, Synthesis, and Biological Evaluations of Tumor-Targeting Dual-Warhead Conjugates for a TaxoidâCamptothecin Combination Chemotherapy
Novel tumor-targeting dual-warhead
conjugates, <b>2</b> (DW-1)
and <b>3</b> (DW-2), which consist of a next-generation taxoid, <b>1</b> (SB-T-1214), and camptothecin as two warheads, self-immolative
disulfide linkers for drug release, biotin as the tumor-targeting
moiety, and 1,3,5-triazine as the tripod splitter module, were designed
and synthesized. The potency of <b>2</b> was evaluated against
MX-1, MCF-7, ID8, L1210FR (BR+, biotin receptor overexpressed) and
WI38 (BRâ, normal) cell lines in the absence and presence of
glutathione (GSH), which is an endogenous thiol that triggers drug
release inside the cancer cells. With the GSH and resuspension protocol, <b>2</b> exhibited IC<sub>50</sub> values of 3.22â9.80 nM
against all BR+ cancer cell lines, and 705 nM against WI38. Thus,
there was a two orders of magnitude higher selectivity to cancer cells.
Also, a clear cooperative effect was observed for the taxoidâcamptothecin
combination when two drugs were delivered to the cancer cells specifically
in the form of a dual-warhead conjugate
New-generation taxoid SB-T-1214 inhibits stem cell-related gene expression in 3D cancer spheroids induced by purified colon tumor-initiating cells
<p>Abstract</p> <p>Background</p> <p>Growing evidence suggests that the majority of tumors are organized hierarchically, comprising a population of tumor-initiating, or cancer stem cells (CSCs) responsible for tumor development, maintenance and resistance to drugs. Previously we have shown that the CD133<sup>high</sup>/CD44<sup>high </sup>fraction of colon cancer cells is different from their bulk counterparts at the functional, morphological and genomic levels. In contrast to the majority of colon cancer cells expressing moderate levels of CD133, CD44 and CD166, cells with a high combined expression of CD133 and CD44 possessed several characteristic stem cell features, including profound self-renewal capacity <it>in vivo </it>and <it>in vitro</it>, and the ability to give rise to different cell phenotypes. The present study was undertaken for two aims: a) to determine stem cell-related genomic characteristics of floating 3D multicellular spheroids induced by CD133<sup>high</sup>/CD44<sup>high </sup>colon cancer cells; and b) to evaluate CSC-specific alterations induced by new-generation taxoid SB-T-1214.</p> <p>Results</p> <p>Selected CSC phenotype was isolated from three independent invasive colon cancer cell lines, HCT116, HT29 and DLD-1. A stem cell-specific PCR array assay (<it>SA</it>Biosciences) revealed that colonospheres induced by purified CD133<sup>high</sup>/CD44<sup>high </sup>expressing cells display profound up-regulation of stem cell-related genes in comparison with their bulk counterparts. The FACS analysis has shown that the 3D colonospheres contained some minority cell populations with high levels of expression of Oct4, Sox2, Nanog and c-Myc, which are essential for stem cell pluripotency and self-renewal. Single administration of the SB-T-1214 at concentration 100 nM-1 ÎŒM for 48 hr not only induced growth inhibition and apoptotic cell death in these three types of colon cancer spheroids in 3D culture, but also mediated massive inhibition of the stem cell-related genes and significant down-regulation of the pluripotency gene expression. PCR array and FACS data were confirmed with western blotting. Importantly, viable cells that survived this treatment regimen were no longer able to induce secondary floating spheroids and exhibited significant morphological abnormalities.</p> <p>Conclusions</p> <p>We report here that a new-generation taxoid SB-T-1214 possesses significant activity against colon cancer spheroids induced by and enriched with drug resistant tumorigenic CD133<sup>high</sup>/CD44<sup>high </sup>cells and efficiently inhibited expression of the majority of stem cell-related genes. Our data indicates that the previously observed long-term efficacy of SB-T-1214 against drug resistant colon tumors <it>in vivo </it>may be explained by the down-regulation of multiple stem cell-related genes in the tumorigenic cell population, in addition to its known efficacy as a mitotic poison against proliferating cancer cells.</p
Synthesis and Evaluation of the 2-Aminothiazoles as Anti-Tubercular Agents.
The 2-aminothiazole series has anti-bacterial activity against the important global pathogen Mycobacterium tuberculosis. We explored the nature of the activity by designing and synthesizing a large number of analogs and testing these for activity against M. tuberculosis, as well as eukaryotic cells. We determined that the C-2 position of the thiazole can accommodate a range of lipophilic substitutions, while both the C-4 position and the thiazole core are sensitive to change. The series has good activity against M. tuberculosis growth with sub-micromolar minimum inhibitory concentrations being achieved. A representative analog was selective for mycobacterial species over other bacteria and was rapidly bactericidal against replicating M. tuberculosis. The mode of action does not appear to involve iron chelation. We conclude that this series has potential for further development as novel anti-tubercular agents
Molecular characterization of the primary prostate PPT2 cell line.
<p>(<b>A</b>) Representative FACS analyses of the different cell surface markers expression in unsorted PPT2 cells grown for 4 weeks on type I collagen in MSGB medium. Each dotted square represents the population of cells expressing moderate/high levels of a particular marker conjugated with different fluorescent tags. Note a long-term retention of the CD133-APC, standard (CD44-PE) and variant (CD44v6-FITC) CD44 and CD49f-APC. In contrast, only small fractions of the PPT2 cells expressed a marker of basal cells, p63, a marker of differentiated cells, pan-keratin, CK18, AR and CXCR4. (<b>B</b>) Immunohistochemical analysis shows that, in contrast to parental tumor tissue, purified CD133<sup>+</sup> PPT2 cells do not express PSA <i>in </i><i>vitro</i>; however, PPT2-induced NOD/SCID tumor xenografts are weakly PSA-positive. (<b>C</b>) Immunocytochemical analysis shows uniform expression of vimentin and nestin, with especially high levels of these markers of neural stem cells in large MNCs. (<b>D</b>) Western blot analysis shows expression of the pluripotency markers in nuclear and cytoplasmic fractions of the CD133<sup>+</sup> PPT2 cells. Both the nuclear and cytoplasmic fractions expressed c-Myc and were negative for p53 and p21; only the nuclear fraction expressed Oct-4 and Sox-2.</p