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521.
Rai A Nöthe H Tzvetkov N Korenbaum E Manstein DJ 《Cellular and molecular life sciences : CMLS》2011,68(16):2751-2767
Dictyostelium discoideum cells produce five dynamin family proteins. Here, we show that dynamin B is the only member of this group of proteins that
is initially produced as a preprotein and requires processing by mitochondrial proteases for formation of the mature protein.
Our results show that dynamin B-depletion affects many aspects of cell motility, cell-cell and cell-surface adhesion, resistance
to osmotic shock, and fatty acid metabolism. The mature form of dynamin B mediates a wide range and unique combination of
functions. Dynamin B affects events at the plasma membrane, peroxisomes, the contractile vacuole system, components of the
actin-based cytoskeleton, and cell adhesion sites. The modulating effect of dynamin B on the activity of the contractile vacuole
system is unique for the Dictyostelium system. Other functions displayed by dynamin B are commonly associated with either classical dynamins or dynamin-related
proteins. 相似文献
522.
Repair of wounds usually results in restoration of organ function, even if suboptimal. However, in a minority of situations,
the healing process leads to significant scarring that hampers homeostasis and leaves the tissue compromised. This scar is
characterized by an excess of matrix deposition that remains poorly organized and weakened. While we know much of the early
stages of the repair process, the transition to wound resolution that limits scar formation is poorly understood. This is
particularly true of the inducers of scar formation. Here, we present a hypothesis that it is the matrix itself that is a
primary driver of scar, rather than being simply the result of other cellular dysregulations. 相似文献
523.
Gutiérrez-López MD Gilsanz A Yáñez-Mó M Ovalle S Lafuente EM Domínguez C Monk PN González-Alvaro I Sánchez-Madrid F Cabañas C 《Cellular and molecular life sciences : CMLS》2011,68(19):3275-3292
ADAM17/TACE is a metalloproteinase responsible for the shedding of the proinflammatory cytokine TNF-α and many other cell
surface proteins involved in development, cell adhesion, migration, differentiation, and proliferation. Despite the important
biological function of ADAM17, the mechanisms of regulation of its metalloproteinase activity remain largely unknown. We report
here that the tetraspanin CD9 and ADAM17 partially co-localize on the surface of endothelial and monocytic cells. In situ
proximity ligation, co-immunoprecipitation, crosslinking, and pull-down experiments collectively demonstrate a direct association
between these molecules. Functional studies reveal that treatment with CD9-specific antibodies or neoexpression of CD9 exert
negative regulatory effects on ADAM17 sheddase activity. Conversely, CD9 silencing increased the activity of ADAM17 against
its substrates TNF-α and ICAM-1. Taken together, our results show that CD9 associates with ADAM17 and, through this interaction,
negatively regulates the sheddase activity of ADAM17. 相似文献
524.
Steinbusch LK Schwenk RW Ouwens DM Diamant M Glatz JF Luiken JJ 《Cellular and molecular life sciences : CMLS》2011,68(15):2525-2538
Cardiomyocytes use glucose as well as fatty acids for ATP production. These substrates are transported into the cell by glucose
transporter 4 (GLUT4) and the fatty acid transporter CD36. Besides being located at the sarcolemma, GLUT4 and CD36 are stored
in intracellular compartments. Raised plasma insulin concentrations and increased cardiac work will stimulate GLUT4 as well
as CD36 to translocate to the sarcolemma. As so far studied, signaling pathways that regulate GLUT4 translocation similarly
affect CD36 translocation. During the development of insulin resistance and type 2 diabetes, CD36 becomes permanently localized
at the sarcolemma, whereas GLUT4 internalizes. This juxtaposed positioning of GLUT4 and CD36 is important for aberrant substrate
uptake in the diabetic heart: chronically increased fatty acid uptake at the expense of glucose. To explain the differences
in subcellular localization of GLUT4 and CD36 in type 2 diabetes, recent research has focused on the role of proteins involved
in trafficking of cargo between subcellular compartments. Several of these proteins appear to be similarly involved in both
GLUT4 and CD36 translocation. Others, however, have different roles in either GLUT4 or CD36 translocation. These trafficking
components, which are differently involved in GLUT4 or CD36 translocation, may be considered novel targets for the development
of therapies to restore the imbalanced substrate utilization that occurs in obesity, insulin resistance and diabetic cardiomyopathy. 相似文献
525.
Pan Q Qiao F Gao C Norman B Optican L Zelenka PS 《Cellular and molecular life sciences : CMLS》2011,68(20):3425-3436
The non-receptor tyrosine kinase Src is a critical regulator of cytoskeletal contraction, cell adhesion, and migration. In
normal cells, Src activity is stringently controlled by Csk-dependent phosphorylation of Src(Y530), and by Cullin-5-dependent
ubiquitinylation, which affects active Src(pY419) exclusively, leading to its degradation by the proteosome. Previous work
has shown that Src activity is also limited by Cdk5, a proline-directed kinase, which has been shown to phosphorylate Src(S75).
Here we show that this phosphorylation promotes the ubiquitin-dependent degradation of Src, thus restricting the availability
of active Src. We demonstrate that Src(S75) phosphorylation occurs in vivo in epithelial cells, and like ubiquitinylation,
is associated only with active Src. Preventing Cdk5-dependent phosphorylation of Src(S75), by site-specific mutation of S75
or by Cdk5 inhibition or suppression, increases Src(Y419) phosphorylation and kinase activity, resulting in Src-dependent
cytoskeletal changes. In transfected cells, ubiquitinylation of Src(S75A) is about 35% that of wild-type Src-V5, and its half-life
is approximately 2.5-fold greater. Cdk5 suppression leads to a comparable decrease in the ubiquitinylation of endogenous Src
and a similar increase in Src stability. Together, these findings demonstrate that Cdk5-dependent phosphorylation of Src(S75)
is a physiologically significant mechanism of regulating intracellular Src activity. 相似文献
526.
Windus LC Chehrehasa F Lineburg KE Claxton C Mackay-Sim A Key B St John JA 《Cellular and molecular life sciences : CMLS》2011,68(19):3233-3247
Axons of primary olfactory neurons are intimately associated with olfactory ensheathing cells (OECs) from the olfactory epithelium until the final targeting of axons within the olfactory bulb. However, little is understood about the nature and role of interactions between OECs and axons during development of the olfactory nerve pathway. We have used high resolution time-lapse microscopy to examine the growth and interactions of olfactory axons and OECs in vitro. Transgenic mice expressing fluorescent reporters in primary olfactory axons (OMP-ZsGreen) and ensheathing cells (S100ß-DsRed) enabled us to selectively analyse these cell types in explants of olfactory epithelium. We reveal here that rather than providing only a permissive substrate for axon growth, OECs play an active role in modulating the growth of pioneer olfactory axons. We show that the interactions between OECs and axons were dependent on lamellipodial waves on the shaft of OEC processes. The motility of OECs was mediated by GDNF, which stimulated cell migration and increased the apparent motility of the axons, whereas loss of OECs via laser ablation of the cells inhibited olfactory axon outgrowth. These results demonstrate that the migration of OECs strongly regulates the motility of axons and that stimulation of OEC motility enhances axon extension and growth cone activity. 相似文献
527.
528.
529.
Naturally occurring antimicrobial peptides (AMPs) present several drawbacks that strongly limit their development into therapeutically
valuable antibiotics. These include susceptibility to protease degradation and high costs of manufacture. To overcome these
problems, researchers have tried to develop mimics or peptidomimetics endowed with better properties, while retaining the
basic features of membrane-active natural AMPs such as cationic charge and amphipathic design. Protein epitope mimetics, multimeric
(dendrimeric) peptides, oligoacyllysines, ceragenins, synthetic lipidated peptides, peptoids and other foldamers are some
of the routes explored so far. The synthetic approach has led to compounds that have already entered clinical evaluation for
the treatment of specific conditions, such as Staphylococcus (MRSA) infections. Should these trials be successful, an important proof-of-concept would be established, showing that synthetic
oligomers rather than naturally occurring molecules could bring peptide-based antibiotics to clinical practice and the drug
market for local and systemic treatment of medical conditions associated with multi-drug resistant pathogens. 相似文献
530.