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81.
N-phthaloyl GABA (P. GABA) inhibited gastric ulceration induced by 3 hr restraint stress at 4 degrees C (CRS) in albino rats. Antiulcer activity of P. GABA was compared with sodium valproate and cimetidine. P. GABA, sodium valproate and cimetidine showed a dose dependent reduction of gastric ulceration. Pretreatment with GABA antagonists-bicuculline methiodide (0.5 mg/kg, im) or 3 mercaptopropionic acid (2 mg/kg, im) reversed the antiulcerogenic activity of both the drugs (P. GABA and sodium valproate). GABA antagonists as such did not induce gastric ulceration in normal rats. 相似文献
82.
Sen Utpal; Tyagi Neetu; Kumar Munish; Moshal Karni S.; Rodriguez Walter E.; Tyagi Suresh C. 《American journal of physiology. Cell physiology》2007,293(6):C1779
Although elevated levels of homocysteine (Hcy) known as hyperhomocysteinemia (HHcy) are associated with increased inflammation and vascular remodeling, the mechanism of Hcy-mediated inflammation and vascular remodeling is unclear. The matrix metalloproteinases (MMPs) and adhesion molecules play an important role in vascular remodeling. We hypothesized that HHcy induces inflammation by increasing adhesion molecules and matrix protein expression. Endothelial cells were supplemented with high methionine, and Hcy accumulation was measured by HPLC. Nitric oxide (NO) bioavailability was detected by a NO probe. The protein expression was measured by Western blot analysis. MMP-9 activity was detected by gelatin-gel zymography. We demonstrated that methionine supplement promoted upregulation of intercellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule-1 (VCAM-1) through increased Hcy accumulation. In addition, increased synthesis of collagen type-1 was also observed. MMP-9 gene expression and protein activity were increased in methionine supplement groups. 3-Deazaadenosine (DZA), an adenosine analogue, prevented high methionine-induced ICAM-1 and VCAM-1 expression and collagen type-1 synthesis. Transfection of endothelial cells with cystathionine-β-synthase (CBS) gene construct, which converts Hcy to cystathionine, reduced Hcy accumulation in high methionine-fed cells. CBS gene transfection reduced the inflammatory response, as evident by attenuated ICAM-1 and VCAM-1 expression. Furthermore, collagen type-1 expression and MMP-9 activity were dramatically attenuated with CBS gene transfection. These results suggested that methionine supplement increased Hcy accumulation, which was associated with inflammatory response and matrix remodeling such as collagen type-1 synthesis and MMP-9 activity. However, in vitro DZA and CBS gene therapy successfully treated the HHcy-induced inflammatory reaction in the methionine metabolism pathway. extracellular matrix; matrix metalloproteinase-9; intercellular cell adhesion molecule-1; vascular cell adhesion molecule-1; collagen type-1; hyperhomocysteinemia 相似文献
83.
Swapnil A. Malekar Ashish L. Sarode Alvin C. Bach II Arijit Bose Geoffrey Bothun David R. Worthen 《AAPS PharmSciTech》2015,16(6):1335-1343
This work was conducted in order to design, characterize, and evaluate stable liposomes containing the hydrophobic drug raloxifene HCl (RAL) and hydrophilic doxycycline HCl (DOX), two potentially synergistic agents for treating osteoporosis and other bone lesions, in conjunction with a radio frequency-induced, hydrophobic magnetic nanoparticle-dependent triggering mechanism for drug release. Both drugs were successfully incorporated into liposomes by lipid film hydration, although combination drug loading compromised liposome stability. Liposome stability was improved by reducing the drug load and by including Pluronics® (PL) in the formulations. DOX did not appear to interact with the phospholipid membranes comprising the liposomes, and its release was maximized in the presence of radio frequency (RF) heating. In contrast, differential scanning calorimetry (DSC) and phosphorus-31 nuclear magnetic resonance (31P-NMR) analysis revealed that RAL developed strong interactions with the phospholipid membranes, most notably with lipid phosphate head groups, resulting in significant changes in membrane thermodynamics. Likewise, RAL release from liposomes was minimal, even in the presence of RF heating. These studies may offer useful insights into the design and optimization of multidrug containing liposomes. The effects of RAL on liposome characteristics and drug release performance underscore the importance of appropriate physical-chemical analysis in order to identify and characterize drug-lipid interactions that may profoundly affect liposome properties and performance early in the formulation development process.KEY WORDS: controlled release, drug combination, liposomes, nanoparticles 相似文献
84.
Ion channels are abundantly expressed in both excitable and non-excitable cells, thereby regulating the Ca2+ influx and downstream signaling pathways of physiological processes. The immune system is specialized in the process of cancer cell recognition and elimination, and is regulated by different ion channels. In comparison with the immune cells, ion channels behave differently in cancer cells by making the tumor cells more hyperpolarized and influence cancer cell proliferation and metastasis. Therefore, ion channels comprise an important therapeutic target in anti-cancer treatment. In this review, we discuss the implication of ion channels in regulation of Ca2+ homeostasis during the crosstalk between immune and cancer cell as well as their role in cancer progression. 相似文献
85.
86.
Clarke MB Wright R Irwin D Bose S Van Rheen Z Birari R Stenmark KR McCord JM Nozik-Grayck E 《Free radical biology & medicine》2010,49(12):2032-2039
Delivery of recombinant superoxide dismutase to the lung is limited by its short half-life and poor tissue penetration. We hypothesized that a chimeric protein, SOD2/3, containing the enzymatic domain of manganese superoxide dismutase (SOD2) and the heparan-binding domain of extracellular superoxide dismutase (SOD3), would allow for the delivery of more sustained lung and pulmonary vascular antioxidant activity compared to SOD2. We administered SOD2/3 to rats by intratracheal (i.t.), intraperitoneal (i.p.), or intravenous (i.v.) routes and evaluated the presence, localization, and activity of lung SOD2/3 1 day later using Western blot, immunohistochemistry, and SOD activity gels. The effect of i.t. SOD2/3 on the pulmonary and systemic circulation was studied in vivo in chronically catheterized rats exposed to acute hypoxia. Active SOD2/3 was detected in lung 1 day after i.t. administration but not detected after i.p. or i.v. SOD2/3 administration or i.t. SOD2. The physiologic response to acute hypoxia, vasoconstriction in the pulmonary circulation and vasodilation in the systemic circulation, was enhanced in rats treated 1 day earlier with i.t. SOD2/3. These findings indicate that i.t. administration of SOD2/3 effectively delivers sustained enzyme activity to the lung as well as pulmonary circulation and has a longer tissue half-life compared to native SOD2. Further testing in models of chronic lung or pulmonary vascular diseases mediated by excess superoxide should consider the longer tissue half-life of SOD2/3 as well as its potential systemic vascular effects. 相似文献
87.
Low‐pH and Al3+ stresses are the major causes of poor plant growth in acidic soils. However, there is still a poor understanding of plant responses to low‐pH and Al3+ toxicity. Low‐pH or combined low‐pH and Al3+ stress was imposed in order to measure rhizosphere pH, ion fluxes, plasma membrane potential and intracellular H+ concentration in distal elongation and mature zones (MZs) along the longitudinal axis of Arabidopsis thaliana roots. Low‐pH stress facilitated H+ influx into root tissues and caused cytoplasmic acidification; by contrast, combined low‐pH/Al3+ treatment either decreased H+ influx in the distal elongation zone (DEZ) or induced H+ efflux in the MZ, leading to cytoplasmic alkalinization in both zones. Low‐pH stress induced an increase in rhizosphere pH in the DEZ, whereas combined low‐pH/Al3+ stress resulted in lower rhizosphere pH in both root zones compared with the low‐pH treatment alone. Low‐pH stress facilitated K+ efflux; the presence of Al3+ diminished K+ efflux or favored K+ influx into root tissues. In both zones, low‐pH treatment induced plasma membrane (PM) depolarization, which was significantly diminished (P≤ 0.05) when combined stresses (low‐pH/100 µM Al3+) were imposed. After 60 min of exposure, low pH caused PM depolarization, whereas low pH/100 µM Al3+ caused PM hyperpolarization. Thus, low pH and Al3+ toxicity differentially affect root tissues and, consequently, the rhizosphere, which might underpin the differential mechanisms of plant adaptation to these abiotic stresses. 相似文献
88.
Escherichia coli 0157:H7 and Listeria monocytogenes are the two most important food-borne human pathogens. To develop a single, rapid and sensitive PCR based test for simultaneous detection of both the organisms, fliCh7 and iap gene specific primers were used respectively for E. coli 0157:H7 and L. monocytogenes. Initially, with equal quantities of purified genomic DNAs of these organisms a multiplex PCR reaction was standardized to yield uniform amplification of both targets. Although, this assay detected E. coli 0157:H7 with high sensitivity, it failed to pick up L. monocytogenes after several hours of enrichment in broth medium initially spiked with equal numbers of live cells. This was found to be due to unequal growth of these organisms leading to disparity in the amount of template DNAs represented in the DNA preparation applied for conventional multiplex PCR amplification. To circumvent this, we have developed a modified method of enrichment and harvesting leading to highly sensitive and rapid single reaction PCR detection of both pathogens. We have also successfully developed two novel multiplex PCR formats for the generation of uniform PCR signals. Some of these methods might find broader application for the simultaneous detection of different combinations of multiple pathogens. 相似文献
89.
We have recently implicated heat shock protein 90 from Plasmodium falciparum (PfHsp90) as a potential drug target against malaria. Using inhibitors specific to the nucleotide binding domain of Hsp90, we have shown potent growth inhibitory effects on development of malarial parasite in human erythrocytes. To gain better understanding of the vital role played by PfHsp90 in parasite growth,we have modeled its three dimensional structure using recently described full length structure of yeast Hsp90.S equence similarity found between PfHsp90 and yeast Hsp90 allowed us to model the core structure with high confidence. The superimposition of the predicted structure with that of the template yeast Hsp90 structure reveals an RMSD of 3.31 Angstrom. The N-terminal and middle domains showed the least RMSD (1.76 Angstrom) while the more divergent C-terminus showed a greater RMSD (2.84 Angstrom) with respect to the template. The structure shows overall conservation of domains involved in nucleotide binding, ATPase activity, co-chaperone binding as well as inter-subunit interactions. Important co-chaperones known to modulate Hsp90 function in other eukaryotes are conserved in malarial parasite as well. An acidic stretch of amino acids found in the linker region, which is uniquely extended in PfHsp90 could not be modeled in this structure suggesting a flexible conformation. Our results provide a basis to compare the overall structure and functional pathways dependent on PfHsp90 in malarial parasite. Further analysis of differences found between human and parasite Hsp90 may make it possible to design inhibitors targeted specifically against malaria. 相似文献
90.