排序方式: 共有118条查询结果,搜索用时 46 毫秒
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Xing Y Chaudry Q Shen C Kong KY Zhau HE Chung LW Petros JA O'Regan RM Yezhelyev MV Simons JW Wang MD Nie S 《Nature protocols》2007,2(5):1152-1165
Bioconjugated quantum dots (QDs) provide a new class of biological labels for evaluating biomolecular signatures (biomarkers) on intact cells and tissue specimens. In particular, the use of multicolor QD probes in immunohistochemistry is considered one of the most important and clinically relevant applications. At present, however, clinical applications of QD-based immunohistochemistry have achieved only limited success. A major bottleneck is the lack of robust protocols to define the key parameters and steps. Here, we describe our recent experience, preliminary results and detailed protocols for QD-antibody conjugation, tissue specimen preparation, multicolor QD staining, image processing and biomarker quantification. The results demonstrate that bioconjugated QDs can be used for multiplexed profiling of molecular biomarkers, and ultimately for correlation with disease progression and response to therapy. In general, QD bioconjugation is completed within 1 day, and multiplexed molecular profiling takes 1-3 days depending on the number of biomarkers and QD probes used. 相似文献
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Loren A Matheson Geoffrey N Maksym J Paul Santerre Rosalind S Labow 《Biochimie et biologie cellulaire》2006,84(5):763-773
Extracellular matrix proteins (ECMs) play a significant role in the transfer of mechanical strain to monocyte-derived macrophages (MDMs) affecting morphological changes in a foreign body reaction. This study investigated how the functional responses of U937 macrophage-like cells differed when subjected to 2 dynamic strain types (nonuniform biaxial or uniform uniaxial strain) while cultured on siloxane membranes coated with either collagen type I or RGD peptide repeats (ProNectin). Biaxial strain caused an increase in intracellular esterase and acid phosphatase (AP) activities, as well as monocyte-specific esterase (MSE) protein levels in cells that were seeded on either uncoated surfaces (shown previously) or collagen, but not ProNectin. Released AP activity, but not released esterase activity, was increased on all surfaces. Biaxial strain increased IL-6, but not IL-8 on all surfaces. When cells were subjected to uniaxial strain, intracellular esterase increased on coated surfaces only, whereas intracellular AP activity was unaffected. Both esterase and AP released activities increased on all surfaces. Uniaxial strain increased the release of IL-6 on all surfaces, but IL-8 on coated surfaces only. This study demonstrated for the first time that ECM proteins could specifically modulate cellular responses to different types of strain. Using this approach with an in vitro cell system may help to unravel the complex function of MDMs in the foreign-body reaction. 相似文献
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Connolly SC Smith PG Fairbank NJ Lall CA Cole DJ Mackinnon JD Maksym GN 《Journal of applied physiology (Bethesda, Md. : 1985)》2011,111(4):955-963
A deep inspiration (DI) temporarily relaxes agonist-constricted airways in normal subjects, but in asthma airways are refractory and may rapidly renarrow, possibly due to changes in the structure and function of airway smooth muscle (ASM). Chronic largely uniaxial cyclic strain of ASM cells in culture causes several structural and functional changes in ASM similar to that in asthma, including increases in contractility, MLCK content, shortening velocity, and shortening capacity. However, changes in recovery from acute stretch similar to a DI have not been measured. We have therefore measured the response and recovery to large stretches of cells modified by chronic stretching and investigated the role of MLCK. Chronic, 10% uniaxial cyclic stretch, with or without a strain gradient, was administered for up to 11 days to cultured cells grown on Silastic membranes. Single cells were then removed from the membrane and subjected to 1 Hz oscillatory stretches up to 10% of the in situ cell length. These oscillations reduced stiffness by 66% in all groups (P < 0.05). Chronically strained cells recovered stiffness three times more rapidly than unstrained cells, while the strain gradient had no effect. The stiffness recovery in unstrained cells was completely inhibited by the MLCK inhibitor ML-7, but recovery in strained cells exhibiting increased MLCK was slightly inhibited. These data suggest that chronic strain leads to enhanced recovery from acute stretch, which may be attributable to the strain-induced increases in MLCK. This may also explain in part the more rapid renarrowing of activated airways following DI in asthma. 相似文献
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Smith PG Deng L Fredberg JJ Maksym GN 《American journal of physiology. Lung cellular and molecular physiology》2003,285(2):L456-L463
We tested the hypothesis that cytoskeletal reorganization induced by cyclic strain increases cytoskeletal stiffness (G'). G' was measured by optical magnetic twisting cytometry in control cells and cells that had received mechanical strain for 10-12 days. G' was measured before and after both contractile and relaxant agonists, and in the strained cells both parallel (Para) and perpendicular (Perp) to the aligned cytoskeleton. Before activation, G' Para was 24 +/- 5% (+/- SE) greater compared with Perp (P < 0.05), and 35% +/- 6 greater compared with control (Cont, P < 0.01). The difference between strained and control cells was enhanced by KCl, increasing G' 171 +/- 7% Para compared with 125 +/- 6% Perp and 129 +/- 8% Cont (P < 10-5 both cases). The decrease in G' from baseline due to relaxant agonists isoproterenol and dibutyryl cAMP was similar in all groups. Long-term oscillatory loading of airway smooth muscle (ASM) cells caused stiffness to increase and become anisotropic. These findings are consistent with the hypothesis that cytoskeletal reorganization can enhance ASM stiffness and contractility. They imply, furthermore, that oscillatory loading of ASM may contribute to airway narrowing and failure of airway dilation in asthma. 相似文献
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Maksym GN Deng L Fairbank NJ Lall CA Connolly SC 《Canadian journal of physiology and pharmacology》2005,83(10):913-922
Airway smooth muscle (ASM) cells are constantly under mechanical strain as the lung cyclically expands and deflates, and this stretch is now known to modulate the contractile function of ASM. However, depending on the experimental conditions, stretch is either beneficial or harmful limiting or enhancing contractile force generation, respectively. Stretch caused by a deep inspiration is known to be beneficial in limiting or reversing airway constriction in healthy individuals, and oscillatory stretch lowers contractile force and stiffness or lengthens muscle in excised airway tissue strips. Stretch in ASM culture has generally been reported to cause increased contractile function through increases in proliferation, contractile protein content, and organization of the cell cytoskeleton. Recent evidence indicates the type of stretch is critically important. Growing cells on flexible membranes where stretch is non-uniform and anisotropic leads to pro-contractile changes, whereas uniform biaxial stretch causes the opposite effects. Furthermore, the role of contractile tone might be important in modulating the response to mechanical stretch in cultured cells. This report will review the contrasting evidence for modulation of contractile function of ASM, both in vivo and in vitro, and summarize the recent evidence that mechanical stress applied either acutely within 2 h or chronically over 11 d is a potent stimulus for cytoskeletal remodelling and stiffening. We will also point to new data suggesting that perhaps some of the difference in response to stretch might lie with one of the fundamental differences in the ASM environment in asthma and in culture--the presence of elevated contractile tone. 相似文献
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From apolysis until pupal ecdysis, the pharate pupa of the Brazilian Skipper (Calpodes ethlius) lies wrapped in a prepupal shell composed of the larval cuticle and an ecdysial space (ES) filled with enzyme-rich moulting fluid (MF). In the 4h before ecdysis the pharate pupa drinks the moulting fluid through its mouth and anus, and transfers the cuticular degradation products to its midgut (MG). At the same time, extra fluid passes across the body wall of the pharate pupa and flushes out the ES. The MF is recovered at an overall rate of 70μl/h and reabsorbed across the pharate pupal midgut at about 26μl/h. L-Glutamate was found to be the dominant amino acid in the moulting fluid. Total MF glutamate peaked at 850nmol about 8h before pupal ecdysis (P-8), but by ecdysis it had dropped to nearly zero as the MF became diluted with new fluid and was consumed. The drop in glutamate in the ES coincided with a rise in the glutamine content of the fluid in the midgut lumen. The highest rate of glutamine synthesis occurred in midguts isolated from pharate pupae actively drinking MF (P=-4). The enzyme glutamine synthetase (GS) was found to be active in glutamate metabolism in the pharate pupal midgut. Glutamine synthesis in the midgut was L-glutamate-dependent and inhibited by two selective competitive inhibitors of GS activity, L-methionine sulfoximine (MSO) and glufosinate ammonium (GLA). Injection of GS inhibitors into the prepupal ES greatly reduced the glutamine content of the midgut epithelium by P+24. Although a corresponding increase in midgut glutamate levels was not seen, midgut serine levels in treated animals rose, suggesting that GS inhibitors shunted the MF-derived glutamate along an alternative metabolic pathway. GLA was much more toxic to pupae than MSO. Midgut GS appears to play a central role in the recycling of L-glutamate across the pupal MG epithelium at pupation. 相似文献
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A distributed nonlinear model of lung tissue elasticity 总被引:2,自引:0,他引:2
Maksym, Geoffrey N., and Jason H. T. Bates. Adistributed nonlinear model of lung tissue elasticity.J. Appl. Physiol. 82(1): 32-41, 1997.- We present a theory relating the static stress-strainproperties of lung tissue strips to the stress-bearing constituents,collagen and elastin. The fiber pair is modeled as a Hookean spring(elastin) in parallel with a nonlinear string element (collagen), whichextends to a maximum stop length. Based on a series of fiber pairs, wedevelop both analytical and numerical models with distributedconstituent properties that account for nonlinear tissue elasticity.The models were fit to measured stretched stress-strain curves of fiveuniaxially stretched tissue strips, each from a different dog lung. Wefound that the distributions of stop length and spring stiffness followinverse power laws, and we hypothesize that this results from thecomplex fractal-like structure of the constituent fiber matrices inlung tissue. We applied the models to representative pressure-volume(PV) curves from patients with normal, emphysematous,and fibrotic lungs. The PV curves were fit to theequation V = A Bexp(KP),where V is volume, P is transpulmonary pressure, andA, B, andK are constants. Our models lead to apossible mechanistic explanation of the shape factorK in terms of the structuralorganization of collagen and elastin fibers. 相似文献