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111.
Accumulation of Ca2+ ions by rat liver mitochondria increases the fluorescence of the reduced pyridine nucleotides in the presence of rotenone. The fluorescence increase is sensitive to the uncouplers of the oxidative phosphorylation and to the inhibitors of the electron transfer, providing the release of the accumulated Ca2+ from mitochondria. The substantial change of the fluorescence occurs in the presence of acetate, when the accumulated Ca2+ is present in the intramitochondrial space as soluble salt. Addition of Ca2+ to water solution of NADH and NADPH is followed by the slight increase of the fluorescence, while the same nucleotides dissolved in the more hydrophobic medium (methanol) considerably increase the fluorescence level by addition of Ca2+. The increase of the fluorescence of NAD(P)H in the mitochondria due to the accumulation of Ca2+ is considered not to be caused by the alkalinization of the intramitochondrial space but by the formation of the nucleotide-metal complex, localized at least partly at a hydrophobic phase.Abbreviations used FCCP
p-trifluoromethoxycarbonylcyanidephenylhydrazone
- TMPD
tetramethyl-p-phenylenediamine 相似文献
112.
The muscarinic receptors of muscularis mucosa have some recognition properties that suggest they resemble receptors of the M1 subtype. The nerves of these tissues also contain muscarinic receptors which inhibit tonic contractions caused by release of a substance-P-like material by field stimulation. These receptors also appear to be M1 in type as they are maximally activated by McNeil A343 as well as by carbachol (pD2, 5.5 and 7.5, respectively). They are also inhibited by pirenzepine, as well as by atropine (negative logarithms of the required dose for 50% inhibition or potentiation, 6.6-6.7 compared with 8.2-8.3). Hexahydrosiladifenidol, an antagonist selective or M2 receptors of guinea pig ileum, had a low (approximately 7.1) pA2 value for antagonism of both agonists in smooth muscle in this tissue. However, it was closer to atropine in potency with respect to potentiating tonic responses to field stimulation or to inhibiting phasic responses to field stimulation than it was to antagonizing smooth muscle contractions. Thus, atropine was about 40 times more potent than pirenzepine and 2-5 times more potent than hexahydrosilafenidol. There were some quantitative differences in the effectiveness of these three antagonists in blocking the phasic (acetylcholine-mediated) response to field stimulation. Atropine was 70-100 times more potent than pirenzepine and 8-25 times more potent than hexahydrosiladifenidol. This greater potency difference for inhibition of phasic contractions compared with potentiation of tonic contractions was discussed. This tissue appears to be one of the first smooth muscles in which both nerves and muscles contain muscarinic receptors with some recognition properties resembling those of the M1 subtype. 相似文献
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114.
E-cadherin–mediated cell–cell adhesion, which is essential for the maintenance of the architecture and integrity of epithelial tissues, is often lost during carcinoma progression. To better understand the nature of alterations of cell–cell interactions at the early stages of neoplastic evolution of epithelial cells, we examined the line of nontransformed IAR-2 epithelial cells and their descendants, lines of IAR-6-1 epithelial cells transformed with dimethylnitrosamine and IAR1170 cells transformed with N-RasG12D. IAR-6-1 and IAR1170 cells retained E-cadherin, displayed discoid or polygonal morphology, and formed monolayers similar to IAR-2 monolayer. Fluorescence staining, however, showed that in IAR1170 and IAR-6-1 cells the marginal actin bundle, which is typical of nontransformed IAR-2 cells, disappeared, and the continuous adhesion belt (tangential adherens junctions (AJs)) was replaced by radially oriented E-cadherin–based AJs. Time-lapse imaging of IAR-6-1 cells stably transfected with GFP-E-cadherin revealed that AJs in transformed cells are very dynamic and unstable. The regulation of AJ assembly by Rho family small GTPases was different in nontransformed and in transformed IAR epithelial cells. As our experiments with the ROCK inhibitor Y-27632 and the myosin II inhibitor blebbistatin have shown, the formation and maintenance of radial AJs critically depend on myosin II-mediated contractility. Using the RNAi technique for the depletion of mDia1 and loading cells with N17Rac, we established that mDia1 and Rac are involved in the assembly of tangential AJs in nontransformed epithelial cells but not in radial AJs in transformed cells. Neoplastic transformation changed cell–cell interactions, preventing contact paralysis after the establishment of cell–cell contact and promoting dynamic cell–cell adhesion and motile behavior of cells. It is suggested that the disappearance of the marginal actin bundle and rearrangements of AJs may change the adhesive function of E-cadherin and play an active role in migratory activity of carcinoma cells. 相似文献