Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Neurophysins I and II (
NPI
and NPII) act in the neurosecretory granules as carrier proteins for the neurophyseal hormones oxytocin (OT) and
vasopressin
(VP), respectively. The
NPI
/OT functional unit, believed to be an (
NPI
/OT)2 heterotetramer, was modeled using low-resolution structure information, viz. the C alpha carbon atom coordinates of the homologous NPII/dipeptide complex (file 1BN2 in the Brookhaven Protein Databank) as a template. Its all-atom representation was obtained using standard modeling tools available within the INSIGHT/Biopolymer modules supplied by Biosym Technologies Inc. A conformation of the
NPI
-bound OT, similar to that recently proposed in a transfer NOE experiment, was docked into the ligand-binding site by a superposition of its Cys1-Tyr2 fragment onto the equivalent portion of the dipeptide in the template. The starting complex for the initial refinements was prepared by two alternative strategies, termed Model I and Model II, each ending with a approximately 100 ps molecular dynamics (MD) simulation in water using the AMBER 4.1 force field. The free homodimer NPI2 was obtained by removal of the two OT subunits from their sites, followed by a similar structure refinement. The use of Model I, consisting of a constrained simulated annealing, resulted in a structure remarkably similar to both the NPII/dipeptide complex and a recently published solid-state structure of the NPII/OT complex. Thus, Model I is recommended as the method of choice for the preparation of the starting all-atom data for MD. The MD simulations indicate that, both in the homodimer and in the heterotetramer, the 3(10)-helices demonstrate an increased mobility relative to the remaining body of the protein. Also, the C-terminal domains in the NPI2 homodimer are more mobile than the N-terminal ones. Finally, a distinct intermonomer interaction is identified, concentrated around its most prominent, although not unique, contribution provided by an H-bond from Ser25 O gamma in one
NPI
unit to Glu81 O epsilon in the other unit. This interaction is present in the heterotetramer (
NPI
/OT)2 and absent or weak in the NPI2 homodimer. We speculate that this interaction, along with the increased mobility of the 3(10)-helices and the carboxy domains, may contribute to the allosteric communication between ligand binding and
NPI
dimerization.
...
PMID:Molecular modeling of the neurophysin I/oxytocin complex. 913 16
This is a review of our recent modeling work aimed at: (i) development and assessment of techniques for reliable refinement of low-resolution protein structures and (ii) using these techniques, at solving specific problems pertinent to neurophysin-bioligand interactions. Neurophysins I and II (
NPI
and NPII) serve in the neurosecretory granules of the posterior pituitary as carrier proteins for the neurophyseal hormones oxytocin (OT) and
vasopressin
(VP), respectively, until the latter are released into blood. NPs are homologous two-domain, sulphur rich small proteins (93-95 residues, 7 disulphide bridges per monomer), capable of being aggregated. The C2 symmetrical NPI2 and NPII2 homodimers, and the (
NPI
/OT)2 and (NPII/VP)2 heterotetramers, all believed to be the smallest functional units, were modeled using low-resolution structure information, i.e. the C alpha-carbon coordinates of the homologous NPII/dipeptide complex as a template. The all-atom representations of the models were obtained using the SYBYL suite of programs (by Tripos, Inc.). Subsequently, they were relaxed, using a constrained simulated annealing (CSA) protocol, and submitted to about 100 ps molecular dynamics (MD) in water, using the AMBER 4.1 force field. The (
NPI
/OT)2 and (NPII/VP)2 structures, averaged after the last 20 ps of MD, were remarkably similar to those recently reported either for NPII/dipeptide or NPII/oxytocin complex in the solid state (Chen et al., 1991, Proc. Natl. Acad. Sci., U.S.A. 88, 4240-4244; Rose et al., 1996, Nature Struct. Biol. 3, 163-169). The results indicate that the 3(10) helices (terminating the amino domains) and the carboxyl domains are more mobile than the remainder of the NP monomers. The hormones become anchored by residues 1-3 and 6 to the host, leaving residues 4-5 and 7-9 exposed on the surface and free to move. A cluster of attractive interactions, extending from the ligand binding site, Tyr-24-Ile-26 of unit 1(2), to the inter-monomer interface Val-36 of unit 1(2), Cys-79 and Ile-72 of unit 2(1), is clearly seen. We suggest that both these interactions as well as the increased mobility of the 3(10) helix and the carboxyl domain may contribute to the allosteric communication between the ligand and the unit1-unit2 interface.
...
PMID:Elucidation of neurophysin/bioligand interactions from molecular modeling. 951 57
Arginine vasopressin (AVP) and oxytocin (OXT) are social hormones and mediate affiliative behaviors in mammals and as recently demonstrated, also in humans. There is intense interest in how these simple nonapeptides mediate normal and abnormal behavior, especially regarding disorders of the social brain such as autism that are characterized by deficits in social communication and social skills. The current review examines in detail the behavioral genetics of the first level of human AVP-OXT pathway genes including arginine vasopressin 1a receptor (AVPR1a), oxytocin receptor (OXTR), AVP (AVP-
neurophysin II
[NPII]) and OXT (OXT neurophysin I [
NPI
]), oxytocinase/vasopressinase (LNPEP), ADP-ribosyl cyclase (CD38) and arginine vasopressin 1b receptor (AVPR1b). Wherever possible we discuss evidence from a variety of research tracks including molecular genetics, imaging genomics, pharmacology and endocrinology that support the conclusions drawn from association studies of social phenotypes and detail how common polymorphisms in AVP-OXT pathway genes contribute to the behavioral hard wiring that enables individual Homo sapiens to interact successfully with conspecifics. This article is part of a Special Issue entitled Oxytocin, Vasopressin, and Social Behavior.
...
PMID:The contributions of oxytocin and vasopressin pathway genes to human behavior. 2224 14
