Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

These studies were designed to characterize ubiquitination of the G protein-coupled TRH receptor (TRHR). TRHRs and ubiquitin coprecipitated with antibodies to either receptor or ubiquitin in Chinese hamster ovary or pituitary GHFT cells. Inhibition of the proteasome with MG-132 resulted in an accumulation of total TRHRs and the appearance of a small amount of cytosolic receptor. MG-132 caused an increase in newly synthesized receptors, detected by microscopy using a TRHR coupled to Timer, a DsRed that undergoes a spontaneous time-dependent color change. Misfolded TRHRs were particularly heavily ubiquitinated. These results show that the proteasome participates in TRHR quality control early after receptor synthesis. Under normal circumstances, most ubiquitinated TRHRs were absorbed to wheat germ agglutinin, indicating that they had undergone complex glycosylation in the Golgi apparatus. When cells were treated with tunicamycin to block glycosylation, a ladder of ubiquitinated species was detectable. Cell surface receptors, which were labeled selectively with either radioligand or antibody, showed no detectable ubiquitin modification. To determine if ubiqutination plays a role in TRH-induced receptor endocytosis, the receptor was expressed in Ts20 cells, which have a temperature-sensitive ubiquitin pathway. TRH induced a significant calcium response and rapid and extensive receptor internalization at both the permissive and nonpermissive temperatures, indicating that ligand-dependent ubiquitination of the receptor, or any other protein, is not necessary for TRHR signaling or internalization. These results show that ubiquitin modification targets misfolded receptors for degradation and suggest a possible role for ubiquitination in receptor trafficking.
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PMID:Thyrotropin-releasing hormone receptor processing: role of ubiquitination and proteasomal degradation. 1280 11

The tripeptide thyrotropin-releasing hormone (TRH, pGlu-His-Pro-NH2) has been shown to possess neuroprotective activity in in vitro and in vivo models. Since its potential utility is limited by relatively rapid metabolism, metabolically stabilized analogues have been constructed. In the present study we investigated the influence of TRH and its three stable analogues: Montirelin (MON, CG-3703), RGH-2202 (L-6-keto-piperidine-2carbonyl-l-leucyl-l-prolinamide) and Z-TRH (N-carbobenzyloxy-pGlutamyl-Histydyl-Proline) in various models of mouse cortical neuronal cell injury. Twenty four hour pre-treatment with TRH and its analogues in low micromolar concentrations attenuated the neuronal cell death evoked by excitatory amino acids (EAAs: glutamate, NMDA, kainate, quisqualate) and hydrogen peroxide. All the peptides showed neuroprotective action on staurosporine (St)-evoked apoptotic neuronal cell death, but this effect was caspase-3 independent. Interestingly, in mixed neuronal-glial cell preparations only MON decreased St- and glutamate-evoked neurotoxicity. None of the peptides inhibited the doxorubicin- and lactacystin-induced neuronal cortical cell death, agents acting via activation of death receptor (FAS) or inhibition of proteasome function, respectively. Furthermore, we found that neither inhibitors of PI3-K (wortmannin, LY 294002) nor MAPK/ERK1/2 (PD 098059, U 0126) were able to inhibit neuroprotective properties of TRH and MON in St model of apoptosis. The protection mediated by TRH and MON it that model was also not connected with influence of peptides on the pro-apoptotic GSK-3beta and JNK protein kinase expression and activity. Further studies showed that calpains, calcium-activated proteases were induced by Glu, but not by St in cortical neurons. Moreover, the Glu-evoked increase in spectrin alpha II cleavage product induced by calpains was blocked by TRH. The obtained data showed that the potency of TRH and its analogues in inhibiting EAAs- and H(2)O(2)-induced neuronal cell death from the highest to lowest activity was: MON>TRH>Z-TRH>RHG. Interestingly, all peptides were active against St-induced apoptosis, however, on concentration basis MON was far more potent than the other peptides. None of the peptides inhibited Dox- and LC-evoked apoptotic cell death. Additionally, the data exclude potential role of pro-survival (PI3-K/Akt and MAPK/ERK1/2) and pro-apoptotic (GSK-3beta and JNK) pathways in neuroprotective effects of TRH and its analogues on St-induced neuronal apoptosis. Moreover, the results point to involvement of the inhibition of calpains in the TRH neuroprotective effect in Glu model of neuronal cell death.
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PMID:Effects of TRH and its analogues on primary cortical neuronal cell damage induced by various excitotoxic, necrotic and apoptotic agents. 1966 92


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