Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0043167 (pertussis)
 19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Apolipoprotein E is a genetic risk factor for Alzheimer's disease, and the apoE protein is associated with beta-amyloid deposits in Alzheimer's disease brain. We examined signaling pathways stimulated by apoE in primary neurons in culture. ApoE and an apoE-derived peptide activated several intracellular kinases, including prominently extracellular signal-regulated kinase 1/2 (ERK1/2). ERK1/2 activation by apoE was blocked by an inhibitor of the low-density lipoprotein receptor family, the specific NMDA glutamate receptor antagonist MK 801 and other calcium channel blockers. Activation of apoE receptors also induced tyrosine phosphorylation of Dab1, an adaptor protein of apoE receptors, but experiments in Dab1 knockout neurons demonstrated that Dab1 was not necessary for ERK activation. In contrast, apoE treatment of primary neurons decreased activation of c-Jun N-terminal kinase, a kinase that interacts with another apoE receptor adaptor protein, c-Jun N-terminal kinase-interacting protein. This change also depended on interactions with the low-density lipoprotein receptor family but was independent of calcium channels. c-Jun N-terminal kinase deactivation by apoE was blocked by gamma-secretase inhibitors and pertussis toxin. These results demonstrate that apoE affects several signaling cascades in neurons: increased disabled phosphorylation, activation of the ERK1/2 pathway (dependent on calcium influx via the NMDA receptor) and inhibition of the c-Jun N-terminal kinase 1/2 pathway (dependent on gamma-secretase and G proteins).
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PMID:Multiple pathways of apolipoprotein E signaling in primary neurons. 1577 14

Humanin (HN) inhibits neuronal cell death induced by various Alzheimer's disease (AD)-related insults. It has been proposed that HN binds to a putative receptor on the cell membrane and triggers a signal transduction cascade linked to neuroprotection. Recently, it was shown that HN binds to pertussis toxin (PTX)-sensitive G protein-coupled formylpeptide receptor-like-1 molecule (FPRL-1), reduces A beta(1--42) aggregation and fibril formation, and suppresses the A beta(1--42) toxicity on mononuclear phagocytic cells [Ying, G., Iribarren, P., Zhou, Y., Gong, W., Zhang, N., Yu, Z.X., Le, Y., Cui, Y., Wang, J.M., 2004. Humanin, a newly identified neuroprotective factor, uses the G protein-coupled formylpeptide receptor-like-1 as a functional receptor. Journal of Immunology 172 (11), 7078--7085.]. We here show that siRNA-mediated disruption of expression of the mouse counterpart of FPRL-1, FPR2, did not result in attenuation of HN-mediated rescue of neuronal cell death induced by AD-related insults. We simultaneously provide evidence that neuroprotection by HN in F11 cells is mediated by the STAT3 transcription factor as well as by certain tyrosine kinases. Altogether, we speculate that a receptor other than FPR2 exists that mediates HN neuroprotection in F11 neurohybrid cells.
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PMID:Involvement of tyrosine kinases and STAT3 in Humanin-mediated neuroprotection. 1600 25

Human G protein-coupled formyl peptide receptor like 1 (FPRL1) and its mouse homologue murine formyl peptide receptor 2 (mFPR2) mediate the chemotactic activity of amyloid beta 1-42 (Abeta42), a key pathogenic peptide in Alzheimer's disease (AD). Since mFPR2 is up-regulated in mouse microglia by lipopolysaccharide (LPS), a Toll-like receptor 4 ligand, we investigated the capacity of CpG-containing oligodeoxynucleotide (ODN), a Toll-like receptor (TLR) 9 ligand, to regulate the expression of mFPR2 in mouse microglia. CpG ODN markedly enhanced the expression and function of mFPR2 in microglial cells, which exhibited increased chemotactic responses to mFPR2 agonists, including Abeta42. The effect of CpG ODN is dependent on activation of p38 MAPK. Further studies showed that CpG ODN-treated microglia increased their capacity to endocytose Abeta42 through mFPR2, as this process was abrogated by pertussis toxin, a Gi protein inhibitor, and W peptide, another potent mFPR2 agonist. Our results suggest that TLR9 may play an important role in promoting microglial recognition of Abeta42, thus affecting the pathogenic process of AD.
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PMID:CpG-containing oligodeoxynucleotide promotes microglial cell uptake of amyloid beta 1-42 peptide by up-regulating the expression of the G-protein- coupled receptor mFPR2. 1621 4

Chemokines and their receptors play a central role in the trafficking of leukocytes within the body, a process which is amenable to antagonism by small molecules and which holds promise as a treatment for clinically important diseases. In the issue of the British Journal of Pharmacology accompanying this commentary, Ignatov and colleagues describe an unexpected role for the chemokine RANTES/CCL5, namely an ability to signal via the orphan G protein-coupled receptor named GPR75. This receptor bears little homology to other chemokine receptors, most strikingly within the putative intracellular domains, with the third loop and C-terminal tail dwarfing those of other known chemokine receptors. This most likely accounts for the atypical pertussis toxin-insensitive signalling induced by RANTES. Intriguingly, this signalling is neuro-protective, inducing the survival of a hippocampal cell line following insult with the neurotoxic amyloid-beta peptide. Since this peptide is implicated in the pathogenesis of Alzheimer's disease, it may be that exploitation of this signalling pathway presents itself as a future therapeutic treatment.
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PMID:Tails of the unexpected - an atypical receptor for the chemokine RANTES/CCL5 expressed in brain. 1700 3

We have demonstrated earlier that V717G-APP(714-723), the membrane fragment of the V717G ("London") familial Alzheimer's disease (FAD) mutant of amyloid precursor protein (APP), is a potent stimulator of G-proteins in human brain membranes. In this study, we tested the hypothesis that Met-722 in the V717G-APP(714-723) peptide (P2) plays a critical role in the P2-induced oxidative stimulation of G-proteins in the human temporal cortex membranes and in the neurotoxicity of the peptide in differentiated PC12 and cerebellar granular cells. We found that 10 microM P3, the Met-722 sulfoxide analog of P2, produced a twofold lower stimulation of G-proteins ([(35)S]-GTPgammaS binding) in control temporal cortex membranes compared with 10 microM P2. The stimulatory effect of 10 microM P4, the Met-722 sulfone analog of P2, was 2.5-fold lower than the effect of P2. In Alzheimer's disease (AD) temporal cortex, the P3 and P4 stimulation of G-proteins was slightly weaker than the P2 stimulation. Substitution of the Met-722 S-atom in P2 by -CH(2)- group (P5) led to the disappearance of P2 stimulatory effect on G-proteins. Glutathione (GSH), melatonin (Mel), desferrioxamine (DFO) and 17-beta-estradiol (17betaE) significantly reduced P2 stimulatory effect on G-proteins in human brain. Only DFO and Mel were able to reduce the moderate stimulation of G-proteins by P3, whereas none of the tested antioxidants influenced the weak stimulation by P4. P2 at 100 microM induced a 40% decrease in PC12 cell viability as revealed by MTT assay, the effect being significantly higher than that of P3 or P4, whereas P1 (wild-type APP(714-723)) did not affect cell viability. Trypan Blue exclusion assay demonstrated that 10 microM P2 and P3 induced 3.8- and 3.5-fold death in the cerebellar granular cells as compared with the respective control values. P1 and P4 at 10 microM induced 1.7- and 2.3-fold increase in cell death, respectively. Treatment of the cerebellar granular cells with pertussis toxin decreased the high neurotoxicity of P2 and P3, whereas the low toxicity of P1 and P4 was not influenced. These results support the hypothesis that the G-protein stimulatory effect and neurotoxicity of "London"-mutated V717G-APP(714-723) (P2) and its Met-722 oxidized analogs involve oxidative-dependent and oxidative-independent mechanisms and the oxidation state of Met-722 plays a critical role in determining the mechanism.
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PMID:Critical role of methionine-722 in the stimulation of human brain G-proteins and neurotoxicity induced by London familial Alzheimer's disease (FAD) mutated V717G-APP(714-723). 1710 Dec 28

Mounting evidence supports the idea that neurotransmitter transporters are subject to many forms of post-translational regulation typically associated with receptors and ion channels, including receptor and kinase-mediated changes in transporter phosphorylation, cell surface trafficking, and/or catalytic activation. Although hints of this regulation can be achieved with traditional radiolabeled substrate flux techniques, higher resolution methods are needed that can localize transporter function in situ as well as permit real-time monitoring of transport function without confounds associated with coincident receptor activation. The elegant study by Bolan et al. (p. 1222) capitalizes on the fluorescent properties of a recently introduced substrate for the dopamine (DA) transporter (DAT), termed 4-(4-(dimethylamino)styryl)-N-methylpyridinium (ASP+), to illuminate a pertussis toxin-sensitive, extracellular signal-regulated kinase (ERK1/2)-dependent pathway by which presynaptic DA D(2) receptors regulate DATs.
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PMID:All aglow about presynaptic receptor regulation of neurotransmitter transporters. 1726 64

The human formyl peptide receptor like 1 (FPRL-1) is a variant of the Gi-coupled formyl-peptide receptor. Functional FPRL-1 is endogenously expressed in the U87 astrocytoma cell line and there is accumulating evidence to suggest that FPRL-1 may be involved in neuroinflammation associated with the pathogenesis of Alzheimer's disease. In this study, we examined the ability of FPRL-1 to mobilize intracellular Ca2+ in U87 astrocytoma cells, as well as in Chinese hamster ovary (CHO) cells stably expressing FPRL-1. We showed that Trp-Lys-Tyr-Met-Val-Met-NH2 (WKYMVM), a specific agonist for FPRL-1, stimulated Ca2+ influx in both U87 and FPRL-1/CHO cells. These effects can be inhibited by the FPRL-1 selective antagonist, WRW4. Involvement of Gi proteins was demonstrated with the use of pertussis toxin, while inhibitors of store-operated channels (SOC) including 1-[2-(4-methoxyphenyl)]-2-[3-(4-methpxyphenyl)propoxy]ethyl-1H-imidazole hydrochloride (SKF96365) and 2-aminoethoxydiphenyl borate (2-APB) were found to abolish the WKYMVM-induced Ca2+ increase. However, intracellular Ca2+ mobilization in both cell lines were unaffected by the phospholipase Cbeta inhibitor U73122 or selective ryanodine receptor inhibitors. Our data demonstrated that activation of Gi-coupled FPRL-1 can lead to Ca2+ influx possibly via SOCs in U87 and FPRL-1/CHO cells.
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PMID:Activation of the human FPRL-1 receptor promotes Ca2+ mobilization in U87 astrocytoma cells. 1770 60

Formyl peptide-receptor like-1 (FPRL-1) may possess critical roles in Alzheimer's diseases, chemotaxis and release of neurotoxins, possibly through its regulation of nuclear factor-kappaB (NFkappaB). Here we illustrate that activation of FPRL-1 in human U87 astrocytoma or Chinese hamster ovary cells stably expressing the receptor resulted in the phosphorylations of inhibitor-kappaB kinase (IKK), an onset kinase for NFkappaB signaling cascade. FPRL-1 selective hexapeptide Trp-Lys-Tyr-Met-Val-Met (WKYMVM) promoted IKK phosphorylations in time- and dose-dependent manners while pre-treatment of pertussis toxin abrogated the Galpha(i/o)-dependent stimulations. The FPRL-1-mediated IKK phosphorylation required extracellular signal-regulated protein kinase (ERK), phosphatidylinositol 3-kinase and cellular Src (c-Src), but not c-Jun N-terminal kinase and p38 mitogen-activated protein kinase. Despite its ability to mobilize Ca(2+), WKYMVM did not require Ca(2+) for the modulation of IKK phosphorylation. Activation of FPRL-1 also induced NFkappaB-driven luciferase expression. Interestingly, cholesterol depletion from plasma membrane by methyl-beta-cyclodextrin abolished the FPRL-1-stimulated IKK phosphorylation, denoting the important role of lipid raft integrity in the FPRL-1 to IKK signaling. Furthermore, we demonstrated that in U87 cells, several signaling intermediates in the FPRL-1-IKK pathway including Galpha(i2), c-Src and ERK were constitutively localized at the raft microdomains. WKYMVM administration not only resulted in higher amount of ERK recruitment to the raft region, but also specifically stimulated raft-associated c-Src and ERK phosphorylations. Taken together, these results demonstrate that FPRL-1 is capable of activating NFkappaB signaling through IKK phosphorylation and this may serve as a useful therapeutical target for FPRL-1-related diseases.
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PMID:Formyl peptide-receptor like-1 requires lipid raft and extracellular signal-regulated protein kinase to activate inhibitor-kappa B kinase in human U87 astrocytoma cells. 1772 28

Amyloid beta (Abeta) is a metabolic product of amyloid-beta precursor protein (APP). Deposition of Abeta in the brain and neuronal degeneration are characteristic hallmarks of Alzheimer's disease (AD). Abeta induces neuronal degeneration, but the mechanism of neurotoxicity remains elusive. Here we show that overexpression of APP renders hippocampal neurons vulnerable to Abeta toxicity. Deletion of the extracellular Abeta sequence of APP prevents binding of APP to Abeta, and abolishes toxicity. Abeta toxicity is also abrogated by deletion of the cytoplasmic domain of APP, or by deletions comprising the Go protein-binding sequence of APP. Treatment with Pertussis toxin (PTX) abrogates APP-dependent toxicity of Abeta. Overexpression of PTX-insensitive Galpha-o subunit, but not Galpha-i subunit, of G protein restores Abeta toxicity in the presence of PTX, and this requires the integrity of APP-binding site for Go protein. Altogether, these experiments indicate that interaction of APP with toxic Abeta-species promotes toxicity in hippocampal neurons by a mechanism that involves APP-mediated Go protein activation, revealing an Abeta-receptor-like function of APP directly implicated in neuronal degeneration in AD.
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PMID:Amyloid-beta precursor protein mediates neuronal toxicity of amyloid beta through Go protein activation. 1818 34

Several members of the neuropeptide family exert chemotactic actions on blood monocytes consistent with neurogenic inflammation. Furthermore, chromogranin A (CgA) containing Alzheimer plaques are characterized by extensive microglia activation and such activation induces neuronal damage. We therefore hypothesized that the catecholamine release inhibitory peptide catestatin (hCgA(352-372)) would induce directed monocyte migration. We demonstrate that catestatin dose-dependently stimulates chemotaxis of human peripheral blood monocytes, exhibiting its maximal effect at a concentration of 1 nM comparable to the established chemoattractant formylated peptide Met-Leu-Phe (fMLP). The naturally occurring catestatin variants differed in their chemotactic property insofar as that the Pro370Leu variant was even more potent than wild type, whereas the Gly364Ser variant was less effective. Specificity of this effect was shown by inhibition of catestatin-induced chemotaxis by a specific neutralizing antibody. In addition, catestatin mediated effect was blocked by dimethylsphingosine and treatment with endothelial differentiation gene (Edg)-1 and Edg-3 antisense RNA as well as by incubation with pertussis toxin and genistein indicating involvement of tyrosine kinase receptor-, G-protein- and sphingosine-1-phosphate signaling. Catestatin also stimulated Akt- and extracellular signal related kinase (ERK)-phosphorylation and catestatin-induced chemotaxis was blocked by blockers of phosphoinositide-3 (PI-3) kinase and nitric oxide as well as by inhibition of the mitogen-activated protein kinases (MAPK) system indicating involvement of these signal transduction pathways. In summary, our data indicate that catestatin induces monocyte chemotaxis by activation of a variety of signal transduction pathways suggesting a role of this peptide as an inflammatory cytokine.
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PMID:Monocyte migration: a novel effect and signaling pathways of catestatin. 1883 77


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