Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0699790 (colon cancer)
 28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to screen out an optimum complex for reducing the nephrotoxicity of cisplatin (CDDP), we investigated and compared CDDP-chondroitin sulfate complexes to CDDP in terms of in vivo pharmacokinetics and in vitro cytotoxicity. The polymeric carriers used in the study were chondroitin sulfate A (CSA, 4-sulfate) with mean molecular weights of 10 kDa (CSA-1) and 23 kDa (CSA-2), and chondroitin sulfate C (CSC, 6-sulfate) with mean molecular weights of 8 kDa (CSC-1) and 25 kDa (CSC-2). The resultant complexes (CDDP-CSA-1, CDDP-CSA-2, CDDP-CSC-1 and CDDP-CSC-2) were administered intravenously to rats. The obtained plasma concentration-time curves during the 3 h period studied for all complexes are biphasic. The plasma dispositions of complexes were dependent on the molecular sizes with urinary excretion as main elimination pathway. CDDP-CSA-1 and CDDP-CSC-1 were unable to effectively increase the plasma retention of platinum due to rapid renal excretion. Furthermore, CDDP-CSA-1 disappeared from plasma more quickly than CDDP-CSC-1. CDDP-CSA-2 and CDDP-CSC-2, with similar urinary excretion as CDDP, gave rise to approximately five and four-fold increase in AUC(0-3 h) values, respectively, than that was achieved with native CDDP treatment. Biodistribution was compared between CDDP-CSA-2 and CDDP-CSC-2. Both complexes effectively suppressed the extensive distribution of CDDP into most tissues, especially kidney. However, CDDP-CSC-2 showed less reduction effect than CDDP-CSA-2. In addition, a significantly higher accumulation in tumor tissue was found with the administration of CDDP-CSA-2 than CDDP. Moreover, CSA complexes displayed an IC(50) of 6 microM Pt-equivalents against SW4800 human colon cancer cells, similar to that of CDDP, whereas CSC complexes were less active than CDDP. These studies indicate that the complex prepared with CSA, which is greater than 20 kDa of molecular size, is superior to that of CSC, exhibiting improved pharmacokinetics and similar pharmacological activity to the native drug.
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PMID:Molecular-weight-dependent pharmacokinetics and cytotoxic properties of cisplatin complexes prepared with chondroitin sulfate A and C. 1206 98

Antimicrobial peptides of the cathelicidin family play a central role in the host defense system. Our group has reported previously that cathelicidin-related or cathelicidin-modified antimicrobial peptides, such as FF/CAP-18, have antiproliferative effects on the squamous cell carcinoma cell line SAS-H1 and colon cancer-derived cell line HCT116. Ceragenin CSA-13, which mimics the hydrophobic and cationic morphology of cathelicidin-related peptides, was developed to reduce synthetic costs and resolve stability issues in the presence of proteases. In this study, we evaluated the antiproliferative effect of CSA-13 on HCT116 cells. We evaluated the effects of CSA-13 in HCT116 cells by measuring cell growth, detecting apoptosis, analyzing the cell cycle, and examining mitochondrial membrane depolarization. Treatment with CSA-13 suppressed HCT116 cell proliferation in a dose-dependent manner, increasing the incidence of apoptosis detected by the binding of Annexin V. Furthermore, cell cycle analysis showed that the cell cycle of CSA-13-treated wild-type and p53 null mutant HCT116 cells was arrested at the G1/S phase, indicating that CSA-13 affects the cell cycle by a p53-independent pathway. Our study showed that CSA-13 exerts an antiproliferative effect in cancer cells similar to that of FF/CAP-18, suggesting that membrane-permeabilizing capability is the common underlying mechanism for anticancer and antimicrobial effects of CSA-13 and anitimicrobial peptides.
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PMID:Ceragenin CSA-13 induces cell cycle arrest and antiproliferative effects in wild-type and p53 null mutant HCT116 colon cancer cells. 2381 90

The pleiotropic activity of human cathelicidin LL-37 peptide includes an ability to suppress development of colon cancer cells. We hypothesized that the anticancer activity of LL-37 would improve when attached to the surface of magnetic nanoparticles (MNPs). Using colon cancer culture (DLD-1 cells and HT-29 cells), we evaluated the effects of MNPs, LL-37 peptide, its synthetic analog ceragenin CSA-13, and two novel nanosystems, ie, MNP@LL-37 and MNP@CSA-13, on cancer cell viability and apoptosis. Treatment of cancer cells with the LL-37 peptide linked to MNPs (MNP@LL-37) caused a greater decrease in cell viability and a higher rate of apoptosis compared with treatment using free LL-37 peptide. Additionally, we observed a strong ability of ceragenin CSA-13 and MNP@CSA-13 to induce apoptosis of DLD-1 cells. We found that both nanosystems were successfully internalized by HT-29 cells, and cathelicidin LL-37 and ceragenin CSA-13 might play a key role as novel homing molecules. These results indicate that the previously described anticancer activity of LL-37 peptide against colon cancer cells might be significantly improved using a theranostic approach.
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PMID:Magnetic nanoparticles enhance the anticancer activity of cathelicidin LL-37 peptide against colon cancer cells. 2608 34

Natural antimicrobial peptides and ceragenins, as non-peptide amphipathic mimics, have been proposed as anti-cancer agents. To date, it has been confirmed that cathelicidin LL-37 and ceragenin CSA-13, both in free form and immobilized on the surface of magnetic nanoparticles (MNP@LL-37, MNP@CSA-13) induce apoptosis in colon cancer cells. Nevertheless, the question remains whether ceragenins, as synthetic analogs of LL-37 peptide and mimicking a number of its properties, act as antineoplastic agents in breast cancer cells, where LL-37 peptide stimulates oncogenesis. Considering potential anticancer activity, we determined whether CSA-13 and MNP@CSA-13 might be effective against breast cancer cells. Our study provides evidence that both CSA-13 and MNP@CSA-13 decreased viability and inhibit proliferation of MCF-7 and MDA-MB-231 cells despite the protumorigenic properties of LL-37 peptide. Flow cytometry-based analyses revealed that ceragenin treatment results in increases in dead and PI-negative/low-viability cells, which was associated with glutathione (GSH) depletion and increased reactive oxygen species (ROS) generation followed by mitochondrial membrane depolarization, caspase activation, and DNA fragmentation. These findings demonstrate that both CSA-13 and MNP@CSA-13 cause disruption of the oxidative balance of cancer cells. This novel mechanism of ceragenin-mediated eradication of cancer cells suggest that these agents may be developed as a possible treatment of breast cancer.
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PMID:Ceragenin CSA-13 as free molecules and attached to magnetic nanoparticle surfaces induce caspase-dependent apoptosis in human breast cancer cells via disruption of cell oxidative balance. 2977 11