Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.16.2 (PCP)
 3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High-affinity binding sites (apparent KD 2.87 nM) for [3H]desmethylimipramine ([3H]DMI), have been demonstrated and characterized in membrane preparations of bovine adrenal medulla. The binding of [3H]DMI improved upon pretreatment of the membrane with KCl and was saturable, sodium dependent, and potently inhibited by nisoxetine and imipramine. [3H]DMI binding was also inhibited by various phencyclidine (PCP)- and (or) sigma-receptor ligands, with the following order of potency: haloperidol > rimcazole > (-)-butaclamol > dextromethorphan > MK-801 > (+)-3-(3-hydroxyphenyl)-N-(1-propyl)piperidine ((+)-3-PPP) > PCP > N-(2-thienyl)cyclohexyl-3,4-piperidine (TCP) > (+)-SKF-10047 > (-)-SKF-10047. The inhibition produced by sigma ligands was not attributed to stimulation of either sigma 1- or sigma 2-receptors, owing to inactivity of the selective sigma-receptor ligands (+)-pentazocine and 1,3-di(2-tolyl)guanidine (DTG). The inhibition of [3H]DMI binding by sigma- and PCP-receptor ligands was not attributed to PCP1- or PCP2-receptor stimulation, owing to the decreased potency (100-fold) of these ligands in [3H]DMI assays compared with the affinity for brain PCP1 sites, and the ineffectiveness of the PCP2-ligand N-(1-(2-benzo(b)thiophenyl)cyclohexyl)piperidine (BTCP). Scatchard analysis of the inhibition by the sigma-ligands haloperidol and (+)-3-PPP, as well as the PCP1 receptor ligand MK-801, demonstrated noncompetitive interaction with the site bound by [3H]DMI. These studies indicate that bovine adrenomedullary membranes possess a specific receptor for the noradrenaline uptake inhibitor [3H]DMI, which is sensitive to allosteric modulation produced by PCP and sigma-ligands.
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PMID:Characterization of [3H]desmethylimipramine binding in bovine adrenal medulla: interactions with sigma- and (or) phencyclidine-receptor ligands. 133 74

1. Rat brain synaptosomes and cultured bovine adrenal chromaffin cells were used to monitor the inhibitory effects of phencyclidine (PCP) and sigma (sigma)-receptor ligands on the uptake of [3H]-noradrenaline ([3H]-NA). 2. A Na(+)-dependent high affinity uptake was observed in synaptosomes (30 degrees C) and chromaffin cells (37 degrees C) with Km of 0.22 and 0.56 microM and Vmax of 2.5 pmol min-1 mg-1 protein and 0.7 pmol min-1 per 10(6) cells, respectively. 3. PCP and haloperidol inhibited the high affinity uptake with IC50 of 0.17 and 0.42 microM, respectively in synaptosomes and 0.24 and 0.47 microM, respectively in adrenal chromaffin cells. 4. A close correlation (r = 0.96) was established between the ability of various PCP and sigma-receptor ligands to inhibit [3H]-NA uptake in both systems: PCP greater than TCP greater than haloperidol greater than 3-(+)-PPP greater than MK-801 greater than or equal to (-)-butaclamol greater than (+)-SKF-10047 greater than DTG. Spiperone and opioid receptor ligands were ineffective at 20 microM. 5. These results indicate that the central and peripheral inhibitory effects of PCP and sigma-receptor ligands on [3H]-NA uptake involves a receptor (sigma 1-like) which is distinct from that (PCP2) recognized for the inhibition of [3H]-dopamine uptake by PCP.
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PMID:Role of the sigma receptor in the inhibition of [3H]-noradrenaline uptake in brain synaptosomes and adrenal chromaffin cells. 165 47

Quantitative ligand binding studies have been used to characterize binding sites for N-allylnormetazocine ((+)SKF10,047) (SKF), 1-(1-phenylcyclohexyl) piperidine (PCP), N-[1-(2-thienyl)cyclohexyl]piperidine (TCP) and haloperidol in membranes from the brain of rat and guinea pig under conditions which permitted simultaneous analysis of the binding of both PCP and SKF. Using four labelled ligands (SKF, TCP, PCP and haloperidol), each displaced by the corresponding four unlabelled ligands, four classes of binding sites were observed in membranes from the brain of the rat, corresponding to sigma (sigma), two classes of PCP sites (PCP1, PCP2) and dopamine (D2) sites. The sigma site was suppressed by 50 nM haloperidol, while the PCP1 and PCP2 sites were not. These results were confirmed by studies employing a self- and cross-displacement design and dose-response surfaces for SKF and TCP, with and without blockade by haloperidol of the sigma site. Using mathematical modelling, employing the program LIGAND, it was possible to reject simpler models involving a common "PCP/sigma" site or a model involving only two classes of sites (sigma and PCP). Similar methods were used to identify two classes of sigma binding sites and two classes of PCP binding sites, in membranes prepared from the brain of the guinea pig. The relative potencies of 18 ligands for displacement of (+)[3H]SKF10,047 and [3H]TCP were compared: there were significant qualitative and quantitative differences in the "sigma" binding sites in the brain of rat and guinea pig, while the PCP binding sites were very similar in the two species.
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PMID:Quantitative characterization of multiple binding sites for phencyclidine and N-allylnormetazocine in membranes from rat and guinea pig brain. 165 9

The HMWP2 subunit of yersiniabactin (Ybt) synthetase, a 230 kDa nonribosomal peptide synthetase (NRPS) making the N-terminus of the Ybt siderophore of Yersinia pestis, has one cysteine-specific adenylation (A) domain, three carrier protein domains (ArCP, PCP1, PCP2), and two heterocyclization domains (Cy1, Cy2). The A domain loads the two PCP domains with cysteines that get heterocyclized by the Cy domains to yield a tricyclic hydroxyphenylthiazolinylthiazolinyl (HPTT) chain lodged in thioester linkage to the PCP2 domain. The interdomain recognition by the Cy1 and Cy2 domains for the three carrier proteins was tested using inactivating mutations at the conserved serine that is phosphopantetheinylated in each carrier domain (S52A, S1439A, and S1977A). These mutant forms of HMWP2 were tested for in trans complementation by carrier protein fragments: holo-ArCPs (S52A), holo-PCP1 and analogues (S1439A), and holo-PCP2 and analogues (S1977A). The S52A mutant tests the recognition of the Cy1 domain for donor acyl-ArCP substrates, while the S1439A mutant tests the specificity of the same Cy1 domain for downstream substrates presented by distinct PCPs. The S1439A likewise tests the recognition of Cy2 for its upstream PCP-tethered acyl donor. The S1977A mutant analogously tests the Cy2 domain for downstream Cys-PCP recognition. In all cases in trans complementation was successful with the carrier protein fragments, allowing kinetic probes of catalytic efficiency for PCP scaffolds and for uncoupling of the condensation and heterocyclization functions of Cy1 and Cy2. Overall, the Cy domains tested showed a definite selectivity for the upstream protein scaffold but were more relaxed toward the downstream acceptor protein. This work points to the importance of protein-protein interactions in mediating directional chain growth in NRPS and presents the first systematic exploration of how the protein scaffolds affect catalytic efficiency.
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PMID:Yersiniabactin synthetase: probing the recognition of carrier protein domains by the catalytic heterocyclization domains, Cy1 and Cy2, in the chain-initiating HWMP2 subunit. 1131 56

Bacillamide C, a potential natural antialgae active compound, is produced by Bacillus atrophaeus C89 derived from marine sponge Dysidea avara. A nonribosomal peptide synthetase (NRPS) cluster is hypothesized to be involved in the biosynthesis of bacillamide C. The NRPS with a domain string of A1-PCP1-Cy-A2-PCP2-C can be divided into three functional modules. After heterologous expression and purification of module A1-PCP1 and module Cy-A2-PCP2, their catalytic activities were biochemically proven in vitro by the reaction with the apo-PCP domain transformed to the holo-PCP domain through a phosphopantetheinyl transferase, ATP, and substrate amino acids. Five- membered heterocyclic AlaCysthiazole with molecular weight of 172.0389 was detected. This proved the formation of the heterocyclic dipeptide AlaCysthiazole, which is considered to be a building block for the biosynthesis of bacillamide. This study provides a basis for further biosynthesis of bacillamides.
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PMID:Biosynthesis in vitro of bacillamide intermediate-heterocyclic AlaCysthiazole by heterologous expression of nonribosomal peptide synthetase (NRPS). 3064 Nov 9