Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.3.44 (P-glycoprotein)
 13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human alpha-galactosidase A (alpha-Gal A; EC.3.2.1.22) is a lysosomal exoglycosidase encoded by a gene on Xq22. Deficiencies of this enzyme result in Fabry disease, an X-chromosome-linked recessive disorder that leads to premature death in affected males. For treatment of genetic diseases, we have developed a retroviral vector system, pSXLC/pHa, that enables coexpression of drug-selectable markers with a second nonselectable gene as part of a bicistronic message using the promoter from the Harvey murine sarcoma virus and an internal ribosomal entry site (IRES) from encephalomyocarditis virus. Retroviral vectors based on this system that carry the human alpha-Gal A cDNA either upstream (pHa-alpha Gal-IRES-MDR) or downstream (pHa-MDR-IRES-alpha Gal) from the IRES relative to the drug-selectable MDR1 (P-glycoprotein) cDNA were constructed. Each of eight independent vincristine-resistant, pHa-alpha Gal-IRES-MDR-transfected clones and all four vincristine-resistant, pHa-alpha Gal-IRES-MDR retrovirus-transduced clones showed significantly higher activity of alpha-Gal A than the parental cells. More than 50% of the vincristine-resistant, pHa-MDR-IRES-alpha Gal-transfected clones and all four vincristine-resistant, pHa-MDR-IRES-alpha Gal retrovirus-transduced clones showed significantly higher activity of alpha-Gal A than the parental cells. In these bicistronic vectors, the cDNA whose translation was cap-dependent (upstream) was expressed at higher levels than when the same cDNA was translated in an IRES-dependent manner (downstream). These vectors may prove useful in the gene therapy of Fabry disease.
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PMID:Retroviral coexpression of a multidrug resistance gene (MDR1) and human alpha-galactosidase A for gene therapy of Fabry disease. 757 9

Silurus asotus (catfish) egg lectin (SAL) has potent affinity to Gal alpha-linked carbohydrate chains of not only glycoproteins but also glycosphingolipids such as globotriaosylceramide (Gb3). SAL selectively bound to Gb3 localized in glycosphingolipid-enriched microdomain (GEM) of Gb3-expressing (Gb3(+)) Burkitt's lymphoma cells. Since treatment of Gb3(+) cells with SAL caused an increase in externalization of phosphatidylserine via activation of P-glycoprotein, and apoptotic volume decrease via activation of G-protein activated K(+) channel-1, SAL may function as an inducer of early apoptotic signal; however, neither caspase-8 and -3 activation nor DNA fragmentation was observed. We therefore investigated whether cell proliferation and viability were altered in SAL-treated Raji cells. SAL caused reduction of Raji cell proliferation without cytotoxicity. Although SAL did not induce apoptotic cell death to Gb3-expressing cells, it functionally behaved as a regulator of cell proliferation. SAL activated the suppression system of cell proliferation, such as down-regulation of c-myc and cdk4, and up-regulation of p21 and p27, inducing G1 arrest of the cell cycle, and consequently inhibited cell proliferation of Raji cells. Therefore, we conclude that SAL leads the cells to early apoptotic status but not late apoptotic (necrotic) status via binding to Gb3 existing in GEM, and that this binding is a prerequisite condition to induce cell cycle stop signal.
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PMID:[Regulation of globotriaosylceramide (Gb3)-mediated signal transduction by rhamnose-binding lectin]. 1740 83

The human multidrug resistance transporter P-glycoprotein (P-gp) prevents the entry of compounds into the brain by an active efflux mechanism at the blood-brain barrier (BBB). Treatment of neurodegenerative diseases, therefore, has become a challenge and the development of new reversible inhibitors of P-gp is pertinent to overcome this problem. We report the design and synthesis of a crosslinked agent based on the Alzheimer's disease treatment galantamine (Gal-2) that inhibits P-gp-mediated efflux from cultured cells. Gal-2 was found to inhibit the efflux of the fluorescent P-gp substrate rhodamine 123 in cancer cells that over-express P-gp with an IC(50) value of approximately 0.6 microM. In addition, Gal-2 was found to inhibit the efflux of therapeutic substrates of P-gp, such as doxorubicin, daunomycin and verapamil with IC(50) values ranging from 0.3 to 1.6 microM. Through competition experiments, it was determined that Gal-2 modulates P-gp mediated efflux by competing for the substrate binding sites. These findings support a potential role of agents, such as Gal-2, as inhibitors of P-gp at the BBB to augment treatment of neurodegenerative diseases.
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PMID:Inhibition of human P-glycoprotein transport and substrate binding using a galantamine dimer. 1968 13

Galectin-3 (Gal-3, LGALS3) is a pleotropic versatile, 29-35 kDa chimeric gene product, and involved in diverse physiological and pathological processes, including cell growth, homeostasis, apoptosis, pre-mRNA splicing, cell-cell and cell-matrix adhesion, cellular polarity, motility, adhesion, activation, differentiation, transformation, signaling, regulation of innate/adaptive immunity, and angiogenesis. In multiple diseases, it was found that the level of circulating Gal-3 is markedly elevated, suggesting that Gal-3-dependent function is mediated by specific interaction with yet an unknown ubiquitous cell-surface protein. Recently, we showed that Gal-3 attenuated drug-induced apoptosis, which is one of the mechanisms underlying multidrug resistance (MDR). Here, we document that MDR could be mediated by Gal-3 interaction with the house-keeping gene product e.g., Na+/K+-ATPase, and P-glycoprotein (P-gp). Gal-3 interacts with Na+/K+-ATPase and induces the phosphorylation of P-gp. We also find that Gal-3 binds P-gp and enhances its ATPase activity. Furthermore Gal-3 antagonist suppresses this interaction and results in a decrease of the phosphorylation and the ATPase activity of P-gp, leading to an increased sensitivity to doxorubicin-mediated cell death. Taken together, these findings may explain the reported roles of Gal-3 in diverse diseases and suggest that a combined therapy of inhibitors of Na+/K+-ATPase and Gal-3, and a disease specific drug(s) might be superior to a single therapeutic modality.
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PMID:Extracellular galectin-3 programs multidrug resistance through Na+/K+-ATPase and P-glycoprotein signaling. 2615 64

Galectin-1 (Gal-1), a member of the galectin family of carbohydrate binding proteins, plays a pivotal role in various cellular processes of tumorigenesis. The regulatory effect of Gal-1 on multidrug resistance (MDR) breast cancer cells is still unclear. qRT-PCR and western blot showed that Gal-1 and MDR gene 1 (MDR1) were both highly expressed in breast tumor tissues and cell lines. MTT assay and flow cytometry revealed that Gal-1 knockdown improved sensitivity to paclitaxel (PTX) and adriamycin (ADR) in MCF-7/PTX and MCF-7/ADR cells via inhibition of cell viability and promotion of cell apoptosis, while MDR1 overexpression weakened the sensitivity to PTX and ADR induced by Gal-1 knockdown. Furthermore, the negative effects of Gal-1 knockdown on sensitivity to PTX and ADR in MCF-7/PTX and MCF-7/ADR cells were revealed to be mediated via the suppression of Raf-1/AP-1 pathway. In conclusion, Gal-1 knockdown dramatically improved drug sensitivity of breast cancer by reducing P-glycoprotein (P-gp) expression via inhibiting the Raf-1/AP-1 pathway, providing a novel therapeutic target to overcome MDR in breast cancer.
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PMID:Galectin-1 knockdown improves drug sensitivity of breast cancer by reducing P-glycoprotein expression through inhibiting the Raf-1/AP-1 signaling pathway. 2821 76

A polymer of Galactosamine-hyaluronic acid-Vitamin E succinate (Gal-HA-VES) was designed to prepare multifunctional self-assembled micelles for delivery of Norcantharidin (NCTD) to Hepatic carcinoma. NCTD/Gal-HA-VES showed higher cytotoxicity toward CD44-overexpressing MCF-7 cells, MCF-7/Adr cells and ASGP-R overexpressing HepG2 cells, consistent with the enhanced cellular uptake in the selected cell models, indicating Gal-HA-VES micelles were taken up in MCF-7 and HepG2 cells by CD44 and ASGPR receptor mediated endocytosis, respectively. Moreover, the accumulation of Rhodamine 123 demonstrated that Gal-HA-VES has the same action of TPGS as a P-glycoprotein inhibitor blocked drug efflux-related MDR mechanism in resistant MCF-7/Adr cells. The Cell apoptosis assays indicated that NCTD/Gal-HA-VES were more effective in triggering apoptosis, compared with free NCTD or NCTD/HA-VES groups. In vivo study demonstrated that NCTD/Gal-HA-VES group exhibited enhanced tumor targeting and antitumor activity with lower systemic toxicity. Hence NCTD/Gal-HA-VES micelles system can achieve significant tumor targeting and effective treatment of hepatic carcinoma.
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PMID:Multifunctional self-assembled micelles of galactosamine-hyaluronic acid-vitamin E succinate for targeting delivery of norcantharidin to hepatic carcinoma. 3000 5