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21.
化疗是目前肿瘤治疗最常见的方法。然而,肿瘤细胞的多药耐药(multidrug resistance,MDR)常导致临床化疗失败及患者的死亡。因此,干预和逆转肿瘤多药耐药,提高化疗效果,对于肿瘤的治疗具有重要的意义。核酸适配体是一种短的单链寡核苷酸,通过折叠形成特定空间结构从而与靶标特异性结合。靶向肿瘤的核酸适配体可以选择性地将治疗性物质(抗癌药物,siRNA,miRNA)和药物载体递送至肿瘤中,对肿瘤进行靶向杀伤。利用核酸适配体靶向多药耐药性肿瘤,能够特异性干预甚至逆转肿瘤的多药耐药性。本文概述了核酸适配体介导的干预与逆转肿瘤多药耐药性的研究进展。 相似文献
22.
P-Glycoprotein is not present in mitochondrial membranes 总被引:1,自引:0,他引:1
Recent reports have indicated the presence of P-glycoprotein in crude mitochondrial membrane fractions, leading to the assumption that P-glycoprotein is present in mitochondrial membranes, and may be involved in transport across these membranes. To determine the validity of this claim, two cell lines overexpressing endogenous P-glycoprotein were investigated. Using various centrifugation steps, mitochondria were purified from these cells and analyzed by Western blot reaction with the anti-P-glycoprotein antibody C219 and organelle-specific antibodies. While P-glycoprotein is present in crude mitochondrial fractions, these fractions are contaminated with plasma membranes. Further purification of the mitochondria to remove plasma membranes revealed that P-glycoprotein is not expressed in mitochondria of the KB-V1 (vinblastine-resistant KB-3-1 cells) or MCF-7(ADR) (adriamycin-resistant MCF-7 cells) cell lines. To further substantiate these findings, we used confocal microscopy and the anti-P-glycoprotein antibody 17F9. This demonstrated that in intact cells, P-glycoprotein is not present in mitochondria and is primarily localized to the plasma membrane. These findings are consistent with the role of P-glycoprotein in conferring multidrug resistance by decreasing cellular drug accumulation. Therefore, contrary to previous speculation, P-glycoprotein does not confer cellular protection by residing in mitochondrial membranes. 相似文献
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Xiaojia Ren Diana Boriero Luksana Chaiswing Subbarao Bondada Daret K. St. Clair D. Allan Butterfield 《生物化学与生物物理学报:疾病的分子基础》2019,1865(6):1088-1097
Increasing numbers of cancer patients survive and live longer than five years after therapy, but very often side effects of cancer treatment arise at same time. One of the side effects, chemotherapy-induced cognitive impairment (CICI), also called “chemobrain” or “chemofog” by patients, brings enormous challenges to cancer survivors following successful chemotherapeutic treatment. Decreased abilities of learning, memory, attention, executive function and processing speed in cancer survivors with CICI, are some of the challenges that greatly impair survivors' quality of life. The molecular mechanisms of CICI involve very complicated processes, which have been the subject of investigation over the past decades. Many mechanistic candidates have been studied including disruption of the blood-brain barrier (BBB), DNA damage, telomere shortening, oxidative stress and associated inflammatory response, gene polymorphism of neural repair, altered neurotransmission, and hormone changes. Oxidative stress is considered as a vital mechanism, since over 50% of FDA-approved anti-cancer drugs can generate reactive oxygen species (ROS) or reactive nitrogen species (RNS), which lead to neuronal death. In this review paper, we discuss these important candidate mechanisms, in particular oxidative stress and the cytokine, TNF-alpha and their potential roles in CICI. 相似文献
25.
As part of a project to characterise plant-derived natural products that modulate bacterial multidrug resistance (MDR), bioassay-guided fractionation of a chloroform extract of the aerial parts of Rosmarinus officinalis led to the characterisation of the known abietane diterpenes carnosic acid (1), carnosol (2) and 12-methoxy-trans-carnosic acid. Additionally, a new diterpene, the cis A/B ring junction isomer of 12-methoxy-trans-carnosic acid, 12-methoxy-cis-carnosic acid (5), was isolated. The major components were assessed for their antibacterial activities against strains of Staphylococcus aureus possessing efflux mechanisms of resistance. Minimum inhibitory concentrations ranged from 16 to 64 microg/ml. Incorporation of 1 and 2 into the growth medium at 10 microg/ml caused a 32- and 16-fold potentiation of the activity of erythromycin against an erythromycin effluxing strain, respectively. Compound 1 was evaluated against a strain of S. aureus possessing the NorA multidrug efflux pump and was shown to inhibit ethidium bromide efflux with an IC50 of 50 microM, but this activity is likely to be related to the inhibition of a pump(s) other than NorA. The antibacterial and efflux inhibitory activities of these natural products make them interesting potential targets for synthesis. 相似文献
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Analysis of multidrug resistant cell lines has led to the identification of the P-glycoprotein multigene family. Two of the
three classes of mammalian P-glycoproteins have the ability to confer cellular resistance to a broad range of structurally
and functionally diverse cytotoxic agents. P-glycoproteins are integral membrane glycoproteins comprised of two similar halves,
each consisting of six membrane spanning domains followed by a cytoplasmic domain which includes a nucleotide binding fold.
The P-glycoprotein is a member of a large superfamily of transport proteins which utilize ATP to translocate a wide range
of substrates across biological membranes. This superfamily includes transport complexes comprised of multicomponent systems,
half P-glycoproteins and P-glycoprotein-like homologs which appear to require approximately 12 α-helical transmembrane domains
and two nucleotide binding folds for substrate transport. P-glycoprotein homologs have been isolated and characterized from
a wide range of species. Amino acid sequences, the similarities between the halves and intron/exon boundaries have been compared
to understand the evolutionary origins of the P-glycoprotein.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
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Helicoverpa armigera is a major pest of agricultural crops and has developed resistance to various insecticides. A P-glycoprotein (Pgp) with ATPase activity likely to be involved in insecticide resistance was purified and characterized from insecticide-resistant H. armigera. The purification was 18-fold with 3% yield. The optimum pH and temperature were found to be 7.4 and 30-40 °C, respectively. Kinetic studies indicated that this enzyme had a Km value of 1.2 mM for ATP. Pgp from H. armigera was partially sequenced and found to be homologous to conserved sequences of mammalian Pgps. Pesticides stimulated H. armigera Pgp ATPase activity with a maximum stimulation of up to 40%. Quenching of the intrinsic tryptophan fluorescence of purified Pgp was used to quantitate insecticide binding. Using the high-affinity fluorescent substrate, tetramethylrosamine, transport was monitored in real time in proteoliposomes containing H. armigera Pgp. The presence of Pgp could be one of the reasons for insecticide resistance in this pest. 相似文献
30.
The d-aldohexose dehydrogenase from the thermoacidophilic archaea Thermoplasma acidophilum (AldT) belongs to the short-chain dehydrogenase/reductase (SDR) superfamily and catalyzes the oxidation of several monosaccharides with a preference for NAD+ rather than NADP+ as a cofactor. It has been found that AldT is a unique enzyme that exhibits the highest dehydrogenase activity against d-mannose. Here, we describe the crystal structures of AldT in ligand-free form, in complex with NADH, and in complex with the substrate d-mannose, at 2.1 Å, 1.65 Å, and 1.6 Å resolution, respectively. The AldT subunit forms a typical SDR fold with an unexpectedly long C-terminal tail and assembles into an intertwined tetramer. The d-mannose complex structure reveals that Glu84 interacts with the axial C2 hydroxyl group of the bound d-mannose. Structural comparison with Bacillus megaterium glucose dehydrogenase (BmGlcDH) suggests that the conformation of the glutamate side-chain is crucial for discrimination between d-mannose and its C2 epimer d-glucose, and the conformation of the glutamate side-chain depends on the spatial arrangement of nearby hydrophobic residues that do not directly interact with the substrate. Elucidation of the d-mannose recognition mechanism of AldT further provides structural insights into the unique substrate selectivity of AldT. Finally, we show that the extended C-terminal tail completely shuts the substrate-binding pocket of the neighboring subunit both in the presence and absence of substrate. The elaborate inter-subunit interactions between the C-terminal tail and the entrance of the substrate-binding pocket imply that the tail may play a pivotal role in the enzyme activity. 相似文献