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PredicateObject
rdf:type
lifeskim:mentions
pubmed:issue
14
pubmed:dateCreated
1998-7-24
pubmed:abstractText
In three earlier publications (Miranda et al. J. Med. Chem. 1994, 37, 1450-1459; 1997, 40, 3651-3658; Gulyas et al. Proc. Natl. Acad. Sci. U.S.A. 1995, 92, 10575-10579) we have hypothesized that covalent constraints such as side-chain-to-side-chain lactam rings would stabilize an alpha-helical conformation shown to be important for the recognition and binding of the CRF C-terminus 30 residues, to CRF receptors. These studies led to the discovery of useful CRF antagonists such as alpha-helical CRF (alpha-hel-CRF) and Astressin both in vitro and in vivo. To test the hypothesis that such lactam rings may also be modulating activation of the receptor when introduced at the N-terminus of CRF, we studied the influence of the successive introduction from residues 4 to 14 of a cyclo(i, i+3)[Lysi-Glu(i+3)] and a cyclo(i,i+3)[Glui-Lys(i+3)] bridge on the in vitro potency of the agonist [Ac-Pro4,dPhe12,Nle21,38]hCRF(4-41) and related compounds. We have also introduced the favored cyclo(Glu30-Lys33) substitution found to be remarkable in several families of antagonists (such as Astressin) and in a number of CRF agonists and investigated the role of residues 4-8 on receptor activation using successive deletions. Earlier studies had shown that in both oCRF and alpha-helical CRF, deletion of residues 1-6, 1-7, and 1-8 led to gradual loss of intrinsic activity (IA) (from 50% IA to <10% IA) resulting in alpha-hel-CRF being a potent competitive antagonist. We show that acetylation of the N-terminus of these fragments generally increases potency by a factor of 2-3 with no influence on IA. While cyclo(30-33)[Ac-Leu8,dPhe12,Nle21, Glu30,Lys33,Nle38]hCRF(8-41) (30) is the shortest reported analogue of CRF to be equipotent to CRF (70% IA), the corresponding linear analogue (31) is 120 times less potent (59% IA). Addition of one amino acid at the N-terminus ¿cyclo(30-33)[Ac-Ser7,dPhe12,Nle21, Glu30,Lys33,Nle38]hCRF(7-41) (28)¿ results in a 5-fold increase in agonist potency and full intrinsic activity (113%). The most favored modifications were also introduced in other members of the CRF family including sauvagine (Sau), urotensin (Utn), urocortin (Ucn), and alpha-hel-CRF. Parallel and consistent results were obtained suggesting that the lactam cyclization at residues 29-32 and 30-33 (for the members of the CRF family with 40 and 41 amino acid residues, respectively) will induce (in the shortened agonists) a structural constraint (alpha-helix) that stabilizes a bioactive conformation similar to that shown in the Astressin family of CRF antagonists and that residue 8 (leucine or isoleucine) bears the sole responsibility for activation of the receptor since deletion of that residue leads to potent antagonists (Gulyas et al. Proc. Natl. Acad.Sci. U.S.A. 1995, 92, 10575-10579).
pubmed:grant
pubmed:language
eng
pubmed:journal
pubmed:citationSubset
IM
pubmed:chemical
pubmed:status
MEDLINE
pubmed:month
Jul
pubmed:issn
0022-2623
pubmed:author
pubmed:issnType
Print
pubmed:day
2
pubmed:volume
41
pubmed:owner
NLM
pubmed:authorsComplete
Y
pubmed:pagination
2614-20
pubmed:dateRevised
2007-11-14
pubmed:meshHeading
pubmed:year
1998
pubmed:articleTitle
Minimal-size, constrained corticotropin-releasing factor agonists with i-(i+3) Glu-Lys and Lys-Glu bridges.
pubmed:affiliation
The Clayton Foundation Laboratories for Peptide Biology, The Salk Institute for Biological Studies, 10010 North Torrey Pines Road, La Jolla, California 92037, USA.
pubmed:publicationType
Journal Article, Research Support, U.S. Gov't, P.H.S., Research Support, Non-U.S. Gov't