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741.
Gereben B Zeöld A Dentice M Salvatore D Bianco AC 《Cellular and molecular life sciences : CMLS》2008,65(4):570-590
The thyroid hormone plays a fundamental role in the development, growth, and metabolic homeostasis in all vertebrates by affecting
the expression of different sets of genes. A group of thioredoxin fold-containing selenoproteins known as deiodinases control
thyroid hormone action by activating or inactivating the precursor molecule thyroxine that is secreted by the thyroid gland.
These pathways ensure regulation of the availability of the biologically active molecule T3, which occurs in a time-and tissue-specific
fashion. In addition, because cells and plasma are in equilibrium and deiodination affects central thyroid hormone regulation,
these local deiodinase-mediated events can also affect systemic thyroid hormone economy, such as in the case of non-thyroidal
illness. Heightened interest in the field has been generated following the discovery that the deiodinases can be a component
in both the Sonic hedgehog signaling pathway and the TGR-5 signaling cascade, a G-protein-coupled receptor for bile acids.
These new mechanisms involved in deiodinase regulation indicate that local thyroid hormone activation and inactivation play
a much broader role than previously thought.
Received 29 August 2007; received after revision 11 October 2007; accepted 16 October 2007 相似文献
742.
Cohausz O Blenn C Malanga M Althaus FR 《Cellular and molecular life sciences : CMLS》2008,65(4):644-655
Poly(ADP-ribose) (PAR) has been identified as a DNA damage-inducible cell death signal upstream of apoptosis-inducing factor
(AIF). PAR causes the translocation of AIF from mitochondria to the nucleus and triggers cell death. In living cells, PAR
molecules are subject to dynamic changes pending on internal and external stress factors. Using RNA interference (RNAi), we
determined the roles of poly(ADP-ribose) polymerases-1 and -2 (PARP-1, PARP-2) and poly(ADP-ribose) glycohydrolase (PARG),
the key enzymes configuring PAR molecules, in cell death induced by an alkylating agent. We found that PARP-1, but not PARP-2
and PARG, contributed to alkylation-induced cell death. Likewise, AIF translocation was only affected by PARP-1. PARP-1 seems
to play a major role configuring PAR as a death signal involving AIF translocation regardless of the death pathway involved.
Received 7 November 2007; received after revision 19 December 2007; accepted 21 December 2007
O. Cohausz, C. Blenn: These two authors contributed equally to this work. 相似文献
743.
744.
Oddi S Fezza F Pasquariello N De Simone C Rapino C Dainese E Finazzi-Agrò A Maccarrone M 《Cellular and molecular life sciences : CMLS》2008,65(5):840-850
Anandamide is a lipid messenger that carries out a wide variety of biological functions. It has been suggested that anandamide
accumulation involves binding to a saturable cellular component. To identify the structure(s) involved in this process, we
analyzed the intracellular distribution of both biotinylated and radiolabeled anandamide, providing direct evidence that lipid
droplets, also known as adiposomes, constitute a dynamic reservoir for the sequestration of anandamide. In addition, confocal
microscopy and biochemical studies revealed that the anandamide-hydrolase is also spatially associated with lipid droplets,
and that cells with a larger adiposome compartment have an enhanced catabolism of anandamide. Overall, these findings suggest
that adiposomes may have a critical role in accumulating anandamide, possibly by connecting plasma membrane to internal organelles
along the metabolic route of this endocannabinoid.
S. Oddi, F. Fezza: These authors contributed equally to the study. 相似文献
745.
Navarro S Aleu J Jiménez M Boix E Cuchillo CM Nogués MV 《Cellular and molecular life sciences : CMLS》2008,65(2):324-337
Human eosinophil cationic protein (ECP)/ ribonuclease 3 (RNase 3) is a protein secreted from the secondary granules of activated
eosinophils. Specific properties of ECP contribute to its cytotoxic activities associated with defense mechanisms. In this
work the ECP cytotoxic activity on eukaryotic cell lines is analyzed. The ECP effects begin with its binding and aggregation
to the cell surface, altering the cell membrane permeability and modifying the cell ionic equilibrium. No internalization
of the protein is observed. These signals induce cell-specific morphological and biochemical changes such as chromatin condensation,
reversion of membrane asymmetry, reactive oxygen species production and activation of caspase-3-like activity and, eventually,
cell death. However, the ribonuclease activity component of ECP is not involved in this process as no RNA degradation is observed.
In summary, the cytotoxic effect of ECP is attained through a mechanism different from that of other cytotoxic RNases and
may be related with the ECP accumulation associated with the inflammatory processes, in which eosinophils are present.
Received 26 October 2007; accepted 23 November 2007 相似文献
746.
Beside its role as a neurotransmitter in the central nervous system, serotonin appears to be a central physiologic mediator
of many gastrointestinal (GI) functions and a mediator of the brain-gut connection. By acting directly and via modulation
of the enteric nervous system, serotonin has numerous effects on the GI tract. The main gut disturbances in which serotonin
is involved are acute chemotherapy-induced nausea and vomiting, carcinoid syndrome and irritable bowel syndrome. Serotonin
also has mitogenic properties. Platelet-derived serotonin is involved in liver regeneration after partial hepatectomy. In
diseased liver, serotonin may play a crucial role in the progression of hepatic fibrosis and the pathogenesis of steatohepatitis.
Better understanding of the role of the serotonin receptor subtypes and serotonin mechanisms of action in the liver and gut
may open new therapeutic strategies in hepato-gastrointestinal diseases.
Received 15 August 2007; received after revision 1 November 2007; accepted 5 November 2007 相似文献
747.
Galanin – 25 years with a multitalented neuropeptide 总被引:1,自引:0,他引:1
Galanin, a neuropeptide widely expressed in the central and peripheral nervous systems and in the endocrine system, has been shown to regulate numerous physiological and pathological processes through interactions with three G-protein-coupled receptors, GalR1 through GalR3. Over the past decade, some of the receptor subtype-specific effects have been elucidated through pharmacological studies using subtype selective ligands, as well as through molecular approaches involving knockout animals. In the present review, we summarize the current data which constitute the basis of targeting GalR1, GalR2 and GalR3 for the treatment of various human diseases and pathological conditions, including seizure, Alzheimer's disease, mood disorders, anxiety, alcohol intake in addiction, metabolic diseases, pain and solid tumors. 相似文献
748.
The urokinase receptor and integrins in cancer progression 总被引:2,自引:0,他引:2
Enhanced levels of expression of urokinase receptor (uPAR) and certain integrins have been linked to cancer cell progression. This has classically been attributed to matrix degradation via the activation of the urokinase (uPA)/plasmin system and modulation of cell motility and survival through integrin engagement. More recently, uPAR has been shown to play multiple roles independent of protease activity. Specifically, uPAR has been shown to be intimately involved in the regulation of cell adhesion, migration and proliferation in part through interactions with other membrane partners, including integrins. The goal of this review is to summarize recent insights in the function of uPAR/integrin interactions, to provide a framework for understanding the importance of these interactions in the context of cancer, and to highlight its potential as a target for therapeutic intervention. 相似文献
749.
The utility F-box for protein destruction 总被引:3,自引:1,他引:2
A signature feature of all living organisms is their utilization of proteins to construct molecular machineries that undertake the complex network of cellular activities. The abundance of a protein element is temporally and spatially regulated in two opposing aspects: de novo synthesis to manufacture the required amount of the protein, and destruction of the protein when it is in excess or no longer needed. One major route of protein destruction is coordinated by a set of conserved molecules, the F-box proteins, which promote ubiquitination in the ubiquitin-proteasome pathway. Here we discuss the functions of F-box proteins in several cellular scenarios including cell cycle progression, synapse formation, plant hormone responses, and the circadian clock. We particularly emphasize the mechanisms whereby F-box proteins recruit specific substrates and regulate their abundance in the context of SCF E3 ligases. For some exceptions, we also review how F-box proteins function through non-SCF mechanisms. 相似文献
750.