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排序方式: 共有141条查询结果,搜索用时 15 毫秒
31.
Prions and Amyloid beta (Aβ) peptides induce synaptic damage via complex mechanisms that include the pathological alteration of intracellular signaling cascades. The host-encoded cellular prion protein (PrPC) acts as a high-affinity cell surface receptor for both toxic species and it can modulate the endocytic trafficking of the N-methyl D-aspartate (NMDA) receptor and E-cadherin adhesive complexes via Src family kinases (SFKs). Interestingly, SFK-mediated control of endocytosis is a widespread mechanism used to regulate the activity of important transmembrane proteins, including neuroreceptors for major excitatory and inhibitory neurotransmitters. Here we discuss our recent work in zebrafish and accumulating evidence suggesting that subversion of this pleiotropic regulatory mechanism by Aβ oligomers and prions explains diverse neurotransmission deficits observed in human patients and mouse models of prion and Alzheimer's neurodegeneration. While Aβ, PrPC and SFKs constitute potential therapeutic targets on their own, drug discovery efforts might benefit significantly from aiming at protein-protein interactions that modulate the endocytosis of specific SFK targets. 相似文献
32.
Danielle Beckman 《朊病毒》2016,10(2):131-142
The physiological properties of the native, endogenous prion protein (PrPC) is a matter of concern, due to its pleiotropic functions and links to neurodegenerative disorders and cancer. In line with our hypothesis that the basic function of PrPC is to serve as a cell surface scaffold for the assembly of signaling modules, multiple interactions have been identified of PrPC with signaling molecules, including neurotransmitter receptors. We recently reported evidence that PrPC may modulate monoaminergic neurotransmission, as well as depressive-like behavior in mice. Here, we discuss how those results, together with a number of other studies, including our previous demonstration that both inflammatory and behavioral stress modulate PrPC content in neutrophils, suggest a distributed role of PrPC in clinical depression and inflammation associated with neurodegenerative diseases. An overarching understanding of the multiple interventions of PrPC upon physiological events may both shed light on the pathogenesis of, as well as help the identification of novel therapeutic targets for clinical depression, Prion and Alzheimer's Diseases. 相似文献
33.
Virtually all antidepressant and antipsychotic drugs, including clozapine, rimcazole and lithium ion, are proconvulsants, and convulsive therapy, using metrazol, a known GABA-A antagonist, as well as electro-convulsive therapy, can be effective in treating both schizophrenia and affective psychoses. Many antidepressant and antipsychotic drugs, including clozapine, as well as some of their metabolites, reverse the inhibitory effect of GABA on35S-TBPS binding, a reliable predictor of GABA-A receptor blockade. A review of relevant literature suggests that 1) functional psychoses constitute a continuum of disorders ranging from schizophrenia to affective psychoses with overlap of symptoms, heredity and treatments, 2) a weakening of GABergic inhibitory activity, or potentiation of counterbalancing glutamatergic neurotransmission, in the brain, may be involved in the therapeutic activities of both antidepressant and antipsychotic drugs, and 3) schizophrenia and the affective psychoses may be different expressions of the same underlying defect: GABergic preponderance/glutamatergic deficit. Schizophrenia and affective psychoses share the following: 1) several treatments are effective in both, 2) similar modes of inheritance, 3) congruent seasonal birth excesses, 4) enlarged cerebral ventricles and cerebellar vermian atrophy, 5) dexamethasone non-suppression. Both genetic and environmental factors are involved in both schizophrenia and affective psychoses, and several lines of evidence suggest that important environmental factors are neurotropic pathogens that selectively destroy glutamatergic neurons. One group of genes associated with psychoses may increase vulnerability to attack and destruction, by neurotropic pathogens, of excitatory glutamatergic neurons that counterbalance inhibitory GABergic neurons. A second group of genes may encode subunits of overactive GABA-A receptors, while a third group of genes may encode subunits of hypo-active glutamate receptors. Improved antipsychotic drugs may be found among selective blockers of GABA-A receptor subtypes and/or enhancers of glutamatergic neurotransmission. A mechanism similar to kindling, leading to long-lasting reduction of GABergic inhibition in the brain, may be involved in several treatments of psychoses. 相似文献
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Vázquez-Cuevas FG Juárez B Garay E Arellano RO 《Molecular reproduction and development》2006,73(6):745-755
Folliculogenesis modulation via distinct neurotransmitters is a well-documented phenomenon. Intraovarian purinergic signaling mechanisms have been identified previously in different species. However, the molecular elements involved and the physiological role of this purinergic signaling remain to be elucidated. Here, studies using RT-PCR amplification, immunoblotting, and immunofluorescence microscopy showed that murine and porcine ovaries express the P2X7 subtype receptor, a cationic receptor-channel operated by ATP. Using immunofluorescence it was demonstrated that P2X7 protein expression, in both mouse and pig, occurs specifically in the theca cells from antral follicles. Isolated porcine theca cells maintained in primary cultures and tested with 1 mM ATP or 250 microM Bz-ATP, a specific agonist of P2X7, responded with an increase in intracellular calcium concentration, as demonstrated in cells loaded with fluo-4 as calcium indicator. This strongly suggested that P2X7 receptors in theca cells are functional. Moreover, application for 24 hr of 1 mM ATP or 250 microM Bz-ATP induced apoptotic cell death as indicated by the DNA fragmentation pattern, positive TUNEL test, and annexin V binding. This ATP effect was antagonized by 300 microM PPADS and 200 microM oxidized ATP. Also, addition of 5 mM EGTA in the external medium to chelate free Ca++ decreased death cell to 24% of that produced by 200 microM Bz-ATP, suggesting that Ca++ influx participates in the phenomenon. The highly specific and functional expression of P2X7 receptors in theca cells suggest a role for ATP in modulating follicular physiology. 相似文献
37.
Until 1950–1960, most physiologists were reluctant to accept chemical neurotransmission. They believed that chemical reactions were much too slow to account for the speed of synaptic processes. The first breakthrough was to discover the impressive velocity of acetylcholinesterase. Then, nicotinic receptors provided an example of complex ultrarapid reactions: fast activation at a low ligand affinity, then desensitization if the ligand is not rapidly removed. Here, we describe synaptic transmission as a chain of low-affinity rapid reactions, assisted by many slower regulatory processes. For starting quantal acetylcholine release, mediatophores are activated by high Ca2+ concentrations, but they desensitize at a higher affinity if Ca2+ remains present. Several mechanisms concur to the rapid removal of Ca2+ from the submembrane microdomains. Among them, the Ca2+/H+ antiport is a typical low-affinity, high-speed process that certainly contributes to the rapidity of neurotransmission. 相似文献
38.
Increased protein phosphorylation enhances exocytosis in most secretory cell types, including neurones. However, the molecular mechanisms by which this occurs and the specific protein targets remain unclear. Munc18-1/nSec1 is essential for exocytosis in neurones, and is known to be phosphorylated by protein kinase C (PKC) in vitro at Ser-313. This phosphorylation has been shown to decrease its affinity for syntaxin, and to alter the kinetics of exocytosis in chromaffin cells. However, there are no data on the physiological regulation of Ser-313 phosphorylation. Using phospho-Ser-313-specific antisera, we demonstrate here that Ser-313 is phosphorylated in intact and permeabilized chromaffin cells in response to histamine and Ca2+ respectively. Furthermore, Ser-313 is rapidly and transiently phosphorylated in intact synaptosomes in response to depolarization by KCl treatment or by 4-aminopyridine, and by the metabotropic glutamate receptor agonist dihydroxyphenylglycine. PKC was identified as the kinase, and PP1 and PP2B as the phosphatases responsible for regulating Ser-313 phosphorylation. As phosphorylation of nSec1 on Ser-313 affects the rate of transmitter release in chromaffin cells, the demonstration here that this phosphorylation event occurs in neurones suggests that synaptic neurotransmitter release may be similarly regulated by nSec1 phosphorylation. Furthermore, such changes in release kinetics are associated with long-term potentiation and depression, thus implicating nSec1 phosphorylation as a potential regulatory mechanism underlying presynaptic plasticity. 相似文献
39.
Rodríguez Fermepín M Alvarez Maubecín V Zarrabeitía V Bianciotti LG Vatta MS Fernández BE 《Cellular and molecular neurobiology》2002,22(5-6):771-781
1. We have previously reported that atrial natriuretic factor (ANF) decreases neuronal norepinephrine (NE) release. The mechanism that mediates NE release from presynaptic membrane to synaptic cleft is a strongly calcium-dependent process. The modulator effect of ANF may be related to modifications in calcium influx at the presynaptic nerve ending by interaction with voltage-operated calcium channels (VOCCs).2. On this basis we investigated the effects of ANF on K+-induced 45Ca2+ uptake and evoked neuronal NE release in the presence of specific L-, N-, and P/Q-type calcium channel blockers in the rat hypothalamus.3. Results showed that ANF inhibited K+-induced 45Ca2+ uptake in a concentration-dependent fashion. Concentration–response curves to VOCC blockers nifedipine (NFD, L-type channel blocker), -conotoxin GVIA (CTX, N-type channel blocker), and -agatoxin IVA (AGA, P/Q-type channel blocker) showed that all the blockers decreased NE release. Incubation of ANF plus NFD showed an additive effect as compared to NFD or ANF alone. However, when the hypothalamic tissue was incubated in the presence of ANF plus CTX or AGA there were no differences in neuronal NE release as compared to calcium channel blockers or ANF alone.4. These results suggest that ANF decreases NE release by an L-type calcium channel independent mechanism by inhibiting N- and/or P/Q-type calcium channels at the neuronal presynaptic level. Thus, ANF modulates neuronal NE release through different mechanisms involving presynaptic calcium channel inhibition. 相似文献
40.
The sec6/8, or exocyst, complex is implicated in trafficking of secretory vesicles to fusion sites in the plasma membrane. Genetic analyses have been done primarily in yeast, where mutation of the eight protein subunits similarly disrupts polarized vesicle fusion. The goal of this study was to assay the sec6/8 complex in Drosophila , and specifically to test its widely hypothesized functions in synaptogenesis and neurotransmission. We used a transgenic RNAi approach to remove the most highly conserved complex component, Drosophila sec10 (dSec10). Ubiquitous dSec10 RNAi resulted in early postembryonic lethality, demonstrating that dSec10 is essential. Surprisingly, tissue-specific dSec10 RNAi revealed no essential requirement in nervous system, musculature, gut or epidermis. Assays of polarized secretion in all these tissues failed to reveal any role for dSec10. In particular, the neuromuscular synapse showed no defects in morphogenesis or vesicle trafficking/fusion underlying neurotransmission. The essential requirement for dSec10 was restricted to the ring gland, the Drosophila organ specialized for endocrine function. The developmental arrest of dSec10 RNAi animals was partially rescued by feeding ecdysone, suggesting dSec10 mediates steroid hormone secretion. We conclude that dSec10 has no detectable role in most forms of polarized trafficking/exocytosis, including neurotransmission, but rather is essential for endocrine secretion . 相似文献