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M. Babette Fontenot 《American journal of primatology》2007,69(3):358-362
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A rapid fluorometric DNA assay for the measurement of cell density and proliferation in vitro 总被引:4,自引:0,他引:4
Timothy A. McCaffrey Lily A. Agarwal Babette B. Weksler 《In vitro cellular & developmental biology. Plant》1988,24(3):247-252
Summary Many research efforts require the accurate determination of cell density in vitro. However, physical cell counting is inaccurate,
time-intensive and requires removal of the cells from their growth environment, thereby introducing a host of potential artifacts.
The current studies document a very simple method of determining cell density in microtiter wells via DNA-enhanced fluorescence.
Fixed cells are stained with the A-T intercalating DNA stains DAPI or Hoechst 33342 and then fluorescence is quantified in
a plate fluorometer. Fluorescence is shown to be linearly related to cell density as determined by two physical counting methods.
The validity of the method is established in determining serum-stimulated growth of smooth muscle cells and in mitogen-induced
growth of endothelial cells. The fixed cells can be stored for prolonged periods, thus allowing time-course proliferation
assays without interassay variations. The fixed cells are also suitable for determinations of antigens of interest by ELISA.
This method is potentially valuable in many in vitro systems where the quantification of cell density and proliferation is
necessary.
This work supported in part by NIH Cardiovascular Training Grant HL07423 and a grant from the American Federation for Aging
Research to T. M. and HL35724 to B. W.
EDITOR’S STATEMENT The technique described in this paper represents an approach to quantifying cell density in adherent monolayers
of cultured cells in microtiter wells that is rapid and simple and does not require radioisotopes or removal of cells. 相似文献
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The physicochemical properties of DPPC (1,2-dipalmitoyl-sn-glycero-3-phosphocholine) liposomes used for topical application are pharmaceutically important. Therefore the aim of our study was to establish rapid and efficient methods for the exact characterisation of the physicochemical properties of extruded DPPC liposomes containing low concentration (0.5%, w/w) of different, therapeutically interesting steroid hormones, named 17-beta-estradiol, cpa (cyproterone acetate) and finasteride. In a first step it could be shown that all drugs influenced the liposome size and changed the zeta potential compared to the placebo formulations. Our further analytical strategy was to use micro-calorimetry and ATR-FTIR (Fourier transformed infrared spectroscopy), two powerful and non-destructive methods to confirm the drug incorporation into the liposomes by proving interactions between the phospholipids and the steroids. Thereby it was even possible to localize the location of interaction. The characteristic phase transition temperatures of the phospholipid were decreased by the hormones which was detected by micro-DSC (differential scanning calorimetry). The results of the ATR-FTIR measurements indicated shifts of the specific lipid peaks, the C=O stretching bands and PO(2)(-) antisymmetric double stretching band, in the gel and liquid crystalline phase. A polar as well as a non-polar interaction could be proven. It could be shown that the investigated steroid hormones changed the physical properties of the phospholipid bilayers. 相似文献
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Afonso PV Ozden S Prevost MC Schmitt C Seilhean D Weksler B Couraud PO Gessain A Romero IA Ceccaldi PE 《Journal of immunology (Baltimore, Md. : 1950)》2007,179(4):2576-2583
The blood-brain barrier (BBB), which constitutes the interface between blood and cerebral parenchyma, has been shown to be disrupted during retroviral associated neuromyelopathies. Human T cell leukemia virus (HTLV-1)-associated myelopathy/tropical spastic paraparesis is a slowly progressive neurodegenerative disease, in which evidence of BBB breakdown has been demonstrated by the presence of lymphocytic infiltrates in the CNS and plasma protein leakage through cerebral endothelium. Using an in vitro human BBB model, we investigated the cellular and molecular mechanisms involved in endothelial changes induced by HTLV-1-infected lymphocytes. We demonstrate that coculture with infected lymphocytes induces an increase in paracellular endothelial permeability and transcellular migration, via IL-1alpha and TNF-alpha secretion. This disruption is associated with tight junction disorganization between endothelial cells, and alterations in the expression pattern of tight junction proteins such as zonula occludens 1. These changes could be prevented by inhibition of the NF-kappaB pathway or of myosin light chain kinase activity. Such disorganization was confirmed in histological sections of spinal cord from an HTLV-1-associated myelopathy/tropical spastic paraparesis patient. Based on this BBB model, the present data indicate that HTLV-1-infected lymphocytes can induce BBB breakdown and may be responsible for the CNS infiltration that occurs in the early steps of retroviral-associated neuromyelopathies. 相似文献
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Jansen G Määttänen P Denisov AY Scarffe L Schade B Balghi H Dejgaard K Chen LY Muller WJ Gehring K Thomas DY 《Molecular & cellular proteomics : MCP》2012,11(9):710-723
Chaperones and foldases in the endoplasmic reticulum (ER) ensure correct protein folding. Extensive protein-protein interaction maps have defined the organization and function of many cellular complexes, but ER complexes are under-represented. Consequently, chaperone and foldase networks in the ER are largely uncharacterized. Using complementary ER-specific methods, we have mapped interactions between ER-lumenal chaperones and foldases and describe their organization in multiprotein complexes. We identify new functional chaperone modules, including interactions between protein-disulfide isomerases and peptidyl-prolyl cis-trans-isomerases. We have examined in detail a novel ERp72-cyclophilin B complex that enhances the rate of folding of immunoglobulin G. Deletion analysis and NMR reveal a conserved surface of cyclophilin B that interacts with polyacidic stretches of ERp72 and GRp94. Mutagenesis within this highly charged surface region abrogates interactions with its chaperone partners and reveals a new mechanism of ER protein-protein interaction. This ability of cyclophilin B to interact with different partners using the same molecular surface suggests that ER-chaperone/foldase partnerships may switch depending on the needs of different substrates, illustrating the flexibility of multichaperone complexes of the ER folding machinery. 相似文献
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In the central nervous system, the formation of the myelin sheath and the differentiation of the myelinating cells, namely oligodendrocytes, are regulated by complex signaling networks that involve purinergic receptors and the extracellular matrix. However, the exact nature of the molecular interactions underlying these networks still needs to be defined. In this respect, the data presented here reveal a signaling mechanism that is characterized by an interaction between the purinergic P2Y(12) receptor and the matricellular extracellular matrix protein autotaxin (ATX), also known as ENPP2, phosphodiesterase-Iα/ATX, or lysoPLD. ATX has been previously described by us to mediate intermediate states of oligodendrocyte adhesion and to enable changes in oligodendrocyte morphology that are thought to be crucial for the formation of a fully functional myelin sheath. This functional property of ATX is mediated by ATX's modulator of oligodendrocyte remodeling and focal adhesion organization (MORFO) domain. Here, we show that the expression of the P2Y(12) receptor is necessary for ATX's MORFO domain to exert its effects on differentiating oligodendrocytes. In addition, our data demonstrate that exogenous expression of the P2Y(12) receptor can render cells responsive to the known effects of ATX's MORFO domain, and they identify Rac1 as an intracellular factor mediating the effect of ATX-MORFO-P2Y(12) signaling on the assembly of focal adhesions. Our data further support the idea that a physical interaction between ATX and the P2Y(12) receptor provides the basis for an ATX-MORFO-P2Y(12) signaling axis that is crucial for mediating cellular states of intermediate adhesion and morphological/structural plasticity. 相似文献