Potent somatostatin undecapeptide agonists selective for somatostatin receptor 1 (sst1).

A family of analogues of des-AA(1,2,5)-[DTrp(8)/D2Nal(8)]-SRIF that contain a 4-(N-isopropyl)-aminomethylphenylalanine (IAmp) at position 9 was identified that has high affinity and selectivity for human somatostatin receptor subtype 1 (sst1). The binding affinities of des-AA(1,2,5)-[DTrp(8),IAmp(9)]-SRIF (c[H-Cys-Lys-Phe-Phe-DTrp-IAmp-Thr-Phe-Thr-Ser-Cys-OH], CH-275) (7), des-AA(1,5)-[Tyr(2),DTrp(8),IAmp(9)]-SRIF (CH-288) (16), des-AA(1,2,5)-[Tyr(7),DTrp(8),IAmp(9)]-SRIF (23), and des-AA(1,2,5)-[DTrp(8),IAmp(9),Tyr(11)]-SRIF (25) are about (1)/(7), (1)/(4), (1)/(125), and (1)/(4) that of SRIF-28 (1) to sst1, respectively, about (1)/(65), (1)/(130), <(1)/(1000), and <(1)/(150) that of 1 to sst3, respectively, and about or less than (1)/(1000) that of 1 to the other three human SRIF receptor subtypes. A substitution of DTrp(8) by D2Nal(8) in 7 to yield des-AA(1,2,5)-[D2Nal(8),IAmp(9)]-SRIF (13) and in 16 to yield des-AA(1,5)-[Tyr(2),D2Nal(8),IAmp(9)]-SRIF (17) was intended to increase chemical stability, selectivity, and affinity and resulted in two analogues that were less potent or equipotent with similar selectivity, respectively. Carbamoylation of the N-terminus as in des-AA(1,2,5)-[DTrp(8),IAmp(9),Tyr(11)]-Cbm-SRIF (27) increased affinity slightly as well as improved selectivity. Monoiodination of 25 to yield 26 and of 27 to yield 28 resulted in an additional 4-fold increase in affinity at sst1. Desamination of the N-terminus of 17 to yield 18, on the other hand, resulted in significant loss of affinity. Attempts at reducing the size of the ring with maintenance of selectivity failed in that des-AA(1,4,5,13)-[Tyr(2),DTrp(8),IAmp(9)]-SRIF (33) and des-AA(1,4,5,6,12,13)-[Tyr(2),DTrp(8),IAmp(9)]-SRIF (34) progressively lost affinity for all receptors. Both des-AA(1,2,5)-[DTrp(8),IAmp(9),Tyr(11)]-Cbm-SRIF (27) and des-AA(1,2,5)-[DCys(3),DTrp(8),IAmp(9),Tyr(11)]-Cbm-SRIF (29) show agonistic activity in a cAMP assay; therefore, the structural basis for the agonist property of this family of analogues is not contingent upon the chirality of the Cys residue at position 3 as shown to be the case in 18-membered ring SRIF octapeptides. None of the high affinity structures described here showed receptor antagonism. We have prepared the radiolabeled des-AA(1,2,5)-[DTrp(8),IAmp(9),(125)ITyr(11)]-SRIF ((125)I-25) and des-AA(1,2,5)-[DTrp(8),IAmp(9), (125)ITyr(11)]-Cbm-SRIF ((125)I-27), used them as in vitro tracers, and found them to be superior to des-AA(1,5)-[(125)ITyr(2),DTrp(8),IAmp(9)]-SRIF ((125)I-16) for the detection of sst1 tumors in receptor autoradiography studies.

SST3-selective potent peptidic somatostatin receptor antagonists.

A family of octapeptide derivatives of somatostatin cyclized via a disulfide bridge (des-AA(1,2,4,5,12,13)[d-2Nal(8)]-somatostatin-14, ODN-8) was identified that has high affinity and selectivity for the human sst(3) somatostatin receptor subtype transfected in CCL39 cells. The binding affinity of carbamoyl-des-AA(1,2,4,5,12, 13)[d-Cys(3),Tyr(7),d-Agl(8)(Me,2-naphthoyl)]-somatostatin-14 (sst(3)-ODN-8) is equal to that of somatostatin-28 for sst(3) and less than one-thousandth that for the other four somatostatin receptor subtypes. Compound sst(3)-ODN-8 potently reverses the somatostatin-28-induced inhibition of forskolin-stimulated cAMP production (pK(B) = 9.07) and reverses the somatostatin-28-induced stimulation of phospholipase C activity (pK(i) = 9.22) in sst(3)-transfected CCL39 cells. [(125)I-Tyr(7)]sst(3)-ODN-8 selectively labels sst(3)-expressing cells with subnanomolar binding affinity (K(D) = 0.27 nM). With the use of this radioligand, sst(3)-expressing human tumors, particularly inactive pituitary adenomas, can be identified with receptor autoradiography; moreover, areas of the human lymphoreticular system express sst(3) binding sites selectively displaced by nanomolar concentrations of sst(3)-ODN-8. Based on the structure-activity relationship of selected analogs substituted at positions 3, 7, and 8, we hypothesize that the basis for sst(3) selectivity, high affinity, and possibly antagonism resides in the ring size of the analog and the unique conformational and structural character of the N-methylated amino-2-naphthoyl side chain of aminoglycine at position 8 and not in the Tyr(7) substitution or in the d-configuration at position 3. The family of labeled and unlabeled sst(3)-ODN-8 analogs represents highly innovative, potent, and specific sst(3)-selective antagonist tools for the study of sst(3)-mediated physiological and pathophysiological conditions that may suggest novel clinical applications.

Somatostatin receptor gene expression in neuroblastoma.

Somatostatin receptor expression is a favorable prognostic factor in human neuroblastoma. Somatostatin receptors have been demonstrated in vitro by pharmacologic analysis of tumor tissue and in vivo by diagnostic radioreceptor scintigraphy. However, which receptor subtypes (sst(1), sst(2), sst(3), sst(4), and sst(5)) are expressed in these tumors has not yet been delineated. We used RT-PCR to analyze expression of the five somatostatin receptor genes in 32 neuroblastoma tumor specimens. All 32 tumor specimens expressed mRNA for c-abl and sst(1); sst(2) mRNA was detected in 27/32 samples and somatostatin mRNA was detected in 30/32 tumor specimens. The remaining receptor subtypes, sst(3), sst(4), and sst(5) were variably expressed. Receptor protein for sst(1) and sst(2) was visualized in tumor neuroblasts as well as in endothelial cells of tumor vessels using immunostaining with specific anti-receptor antibodies. The effect of high expression of somatostatin receptors on cell proliferation was examined in SKNSH neuroblastoma cells transfected with sst(1) and sst(2). SS(14) binding to wild-type SKNSH cells was undetectable; but the native peptide bound with high affinity to the SKNSH/sst(1) and SKNSH/sst(2) neuroblastoma cell lines. Pharmacologic analysis of binding with two long-acting analogues, CH275 and octreotide, confirmed selective expression of sst(1) and sst(2) in stably transfected SKNSH cells. Formation of neuroblastoma xenograft tumors in nude mice was significantly delayed for both SKNSH/sst(1) (P<0.001) and SKNSH/sst(2) (P<0.05) cells compared to wild-type SKNSH. We conclude that: (1) Somatostatin receptors, sst(1) and sst(2), are expressed in the majority of neuroblastomas at diagnosis; and (2) upregulation of functional sst(1) or sst(2) in neuroblastoma cell lines suppresses tumorigenicity in a xenograft model. These observations suggest that somatostatin receptors may be a useful therapeutic target in neuroblastoma.

Contulakin-G, an O-glycosylated invertebrate neurotensin.

We have purified contulakin-G, a 16-amino acid O-linked glycopeptide (pGlu-Ser-Glu-Glu-Gly-Gly-Ser-Asn-Ala-Thr-Lys-Lys-Pro-Tyr-Ile-Leu-OH, pGlu is pyroglutamate) from Conus geographus venom. The major glycosylated form of contulakin-G was found to incorporate the disaccharide beta-D-Galp-(1-->3)-alpha-D-GalpNAc-(1-->) attached to Thr10. The C-terminal sequence of contulakin-G shows a high degree of similarity to the neurotensin family of peptides. Synthetic peptide replicates of Gal(beta-->3) GalNAc(alpha-->)Thr10 contulakin-G and its nonglycosylated analog were prepared using an Fmoc (9-fluorenylmethoxycarbonyl) protected solid phase synthesis strategy. The synthetic glycosylated con- tulakin-G, when administered intracerebroventricular into mice, was found to result in motor control-associated dysfunction observed for the native peptide. Contulakín-G was found to be active at 10-fold lower doses than the nonglycosylated Thr10 contulakin-G analog. The binding affinities of contulakin-G and the nonglycosylated Thr10 contulakin-G for a number of neurotensin receptor types including the human neurotensin type 1 receptor (hNTR1), the rat neurotensin type 1 and type 2 receptors, and the mouse neurotensin type 3 receptor were determined. The binding affinity of the nonglycosylated Thr10 contulakin-G was approximately an order of magnitude lower than that of neurotensin1-13 for all the receptor types tested. In contrast, the glycosylated form of contulakin-G exhibited significantly weaker binding affinity for all of the receptors tested. However, both contulakin-G and nonglycosylated Thr10 contulakin-G were found to be potent agonists of rat neurotensin receptor type 1. Based on these results, we conclude that O-linked glycosylation appears to be a highly unusual strategy for increasing the efficacy of toxins directed against neurotransmitter receptors.

Structural basis for the binding specificity of a SSTR1-selective analog of somatostatin.

The availability of subtype-specific agonists and antagonists for somatostatin (SS) receptors (SSTRs) will be important for elucidation of the function of each receptor isoform in vivo. A SS analog, des-AA1,2,5-[D-Trp8, IAmp9]SS (CH275), has been shown previously to bind preferentially to SSTR1. In this report, we identify structural determinants in the ligand and receptor responsible for the selective binding of CH275 to SSTR1 by modifying both the ligand and the receptor. We propose that IAmp9 in CH275, like Lys9 in SS, interacts with Asp137 in the middle of the third transmembrane domain of SSTR1 to form an ion pair, while other residues unique to SSTR1 conbribute to binding selectivity of CH275 for SSTR1. Replacement of Asp137 with Asn resulted in loss of binding of radiolabeled SS and decreased potencies of both SS and CH275 to induce a change in the extracellular acidification rate measured by microphysiometry. The structural determinants for specific binding to SSTR1 were mapped in chimeric SSTR1/SSTR2 receptors. One chimera, 2beta, with the N-terminus to second transmembrane domain (TM2) from SSTR2 and the remainder of the receptor from SSTR1, had low affinity for CH275. Furthermore, when a single residue, Leu107, in TM2 of SSTR1 was replaced with Phe, the corresponding residue in SSTR2, a 20-fold decrease in affinity for CH275 with no significant change in affinity for SS was observed. A reciprocal change from Phe to Leu in the chimeric receptor 2beta resulted in a 10-fold increase in affinity for CH275. Thus, Leu107 is an important determinant for CH275 binding to SSTR1. To identify the moiety in CH275 which could interact with Leu107, a new analog des-AA1,2,5-[D-Trp8, Amp9]SS was prepared. This analog bound to both SSTR1 and SSTR2 with similar affinities; thus, subtype selectivity was lost. Collectively, these data support a binding model for CH275 in which the positively charged IAmp interacts with the negatively charged Asp137 in TM3 of SSTR1 and the isopropyl group of IAmp forms a hydrophobic interaction with Leu107 in TM2.

A selective analog for the somatostatin sst1-receptor subtype expressed by human tumors.

Somatostatin mediates its actions through five different somatostatin receptor subtypes, sst1-sst5. Recently, the somatostatin analogs des-AA1,2,5-[D-Trp8, IAmp9]somatostatin and des-AA1,5-[Tyr2, D-Trp8, IAmp9]somatostatin were synthesized and shown to be sst1-selective when tested in COS-7 cells transfected with each of the sst subtypes. In the present study, we tested the binding affinity and specificity of the iodinatable analog in primary human tumors expressing various sst subtypes, selected on the basis of in situ hybridization experiments. Des-AA1,5-[Tyr2, D-Trp8, IAmp9]somatostatin was found to have a high affinity, comparable to that of the natural somatostatin-28, for sst1-expressing tumors such as prostate cancers. However, it had no affinity for tumors expressing the sst2, sst3, or sst5 subtypes. For comparison, the somatostatin analogs octreotide or Tyr3-octreotide have no affinity for sst1-expressing tumors, but high affinity for sst2- and sst5-expressing tumors and intermediate affinity for sst3-expressing tumors. These data represent the first characterization of a sst1-selective analog in human tumors; it may be of potential use in the therapy of sst1-expressing tumors as an antiproliferative agent, as well as providing a lead compound for the development of more potent sst1-selective radioligands for in vivo tumor scintigraphy.

Determination of phosphorylation sites in peptides and proteins employing a volatile Edman reagent.

A manual Edman degradation protocol has been developed that allows the identification of phosphorylation sites in 32P-labeled peptides at the subpicomole level. By using both a volatile reagent, trifluoroethyl isothiocyanate, and volatile buffers, extraction steps are rendered unnecessary and cycle times can be reduced to 45 min. The protocol was employed to identify the site of phosphorylation in phosphoserine- and phosphotyrosine-containing peptides.

Identification of ligand binding determinants in the somatostatin receptor subtypes 1 and 2.

The somatostatin (SRIF) receptors (SSTRs) 1 and 2 bind SRIF and SRIF 28 with high affinity, although a number of synthetic hexapeptide and octapeptide analogs of SRIF bind selectively to SSTR2. Extracellular loop three and its adjoining trans-membrane-spanning regions contain elements essential for the binding of such analogs to murine SSTR2. In particular, a stretch of amino acids from residues 294-297 (FDFV) in murine SSTR2 in trans-membrane domain seven can determine affinity for the SSTR2-selective analogs. Within this region, Phe294 has previously been predicted to be essential for the binding of octapeptides (Kaupmann, K., Bruns, C., Raulf, F., Weber, H., Mattes, H., and Lubbert, H. (1995) EMBO J. 14, 727-735) based on the observation that SSTR1 can bind the octapeptide SMS-201-995 with reasonable affinity after a Ser-to-Phe conversion in the analogous region of this receptor (SSTR1S305F). We find that SSTR1S305F has low affinity for a number of SSTR2-selective hexapeptides, suggesting that these analogs have different binding requirements than SMS-201-995. A correlation is seen between the ability of SSTR1S305F to bind hexapeptide analogs and the presence of a phenylalanine, but not tyrosine, at position two in these small cyclic molecules. Thus, a single hydroxyl group in hexapeptides can play a critical role in determining receptor binding to these receptor mutants. We also find that the second extracellular loop of SSTR1 is important for the selectivity of certain SRIF agonists for binding to SSTR1. Taken together, our data indicate that there are multiple elements in the somatostatin receptors that can determine the binding affinity and selectivity of peptide analogs.

Development of a selective agonist at the somatostatin receptor subtype sstr1.

Somatostatin (SRIF) induces its biological actions by interacting with a family of five recently cloned receptors. SRIF receptor subtype, SSTR1, has high affinity for SRIF, but no ligand has been available that selectively binds to this receptor. Desamino acid(1,2,5) [DTryptophan8, N-p-isopropl-4-aminomethyl-l-phenylalanine9]SRIF(des-AA1,2,5 [DT rp8, IAmp9]SRIF inhibits the binding of [125ITyr11]SRIF to the cloned human SSTR1 with an affinity of 1.8+0.7nM, but does not bind to the other cloned SRIF receptors. des-AA1,5[125ITyr2,DTrp8,IAmp9]SRIF bound selectively, potently and saturably to SSTR1 with a Kd of 0.5 + 0.1 nM and a maximal binding density of 226 +/- 56 fmol/mg of protein. The binding of des-AA1,5[125ITyr2,DTrp8,IAmp9]SRIF to SSTR1 was potently inhibited by SRIF, [DTrp8]SRIF, des-AA1,2,5[DTrp8,IAmp9,DSer13]SRIF and SRIF 28 with K, values of 0.7+0.3, 0.2+0.2, 4.3+0.7 and 0.6+0.1 nM, respectively. SRIF analogs that selectively bind to SSTR2 and SSTR5 were impotent in displacing des-AA1,5[125ITyr2,DTrp8,IAmp9]SRIF from human SSTR1. des-AA1,5[125ITyr2,DTrp8,IAmp9]SRIF binding to SSTR1 expressed in COS-7 cells was reduced by GTPgS, and this effect was prevented by pertussis toxin treatment. In contrast, the binding of[125ITyr11]SRIF to SSTR1 was not affected by these treatments. These findings indicate that des-AA1,5[125ITyr2,DTrp8,IAmp9]SRIF may bind to SSTR1 in a defferent manner than SRIF. des-AA1,2,5[DTrp8,IAmp9]SRIF and its tyrosine analog are the first ligands that selectively bind to SSTR1 with high affinity and should be useful in localizing and determining the functional properties of this receptor.

Betidamino acids: versatile and constrained scaffolds for drug discovery.

Betidamino acids (a contraction of "beta" position and "amide") are N'-monoacylated (optionally, N'-monoacylated and N-mono- or N,N'-dialkylated) aminoglycine derivatives in which each N'acyl/alkyl group may mimic naturally occurring amino acid side chains or introduce novel functionalities. Betidamino acids are most conveniently generated on solid supports used for the synthesis of peptides by selective acylation of one of the two amino functions of orthogonally protected aminoglycine(s) to generate the side chain either prior to or after the elongation of the main chain. We have used unresolved Nalpha-tert-butyloxycarbonyl-N'alpha-fluorenylmethoxycarbonyl++ + aminoglycine, and Nalpha-(Nalpha-methyl)-tert-butyloxycarbonyl-N'alpha-fluo renylmethoxycarbonyl aminoglycine as the templates for the introduction of betidamino acids in Acyline [Ac-D2Nal-D4Cpa-D3Pal-Ser-4Aph(Ac)-D4Aph(A c)-Leu-Ilys-Pro-DAla-NH2, where 2Nal is 2-naphthylalanine, 4Cpa is 4-chlorophenylalanine, 3Pal is 3-pyridylalanine, Aph is 4-aminophenylalanine, and Ilys is Nepsilon-isopropyllysine], a potent gonadotropin-releasing hormone antagonist, in order to test biocompatibility of these derivatives. Diasteremneric peptides could be separated in most cases by reverse-phase HPLC. Biological results indicated small differences in relative potencies (<5-fold) between the D and L nonalkylated betidamino acid-containing Acyline derivatives. Importantly, most betide diastereomers were equipotent with Acyline. In an attempt to correlate structure and observed potency, Ramachandran-type plots were calculated for a series of betidamino acids and their methylated homologs. According to these calculations, betidamino acids have access to a more limited and distinct number of conformational states (including those associated with alpha-helices, beta-sheets, or turn structures), with deeper minima than those observed for natural amino acids.

Phosphorylation of CREB at Ser-133 induces complex formation with CREB-binding protein via a direct mechanism.

We have characterized a phosphoserine binding domain in the coactivator CREB-binding protein (CBP) which interacts with the protein kinase A-phosphorylated, and hence activated, form of the cyclic AMP-responsive factor CREB. The CREB binding domain, referred to as KIX, is alpha helical and binds to an unstructured kinase-inducible domain in CREB following phosphorylation of CREB at Ser-133. Phospho-Ser-133 forms direct contacts with residues in KIX, and these contacts are further stabilized by hydrophobic residues in the kinase-inducible domain which flank phospho-Ser-133. Like the src homology 2 (SH2) domains which bind phosphotyrosine-containing peptides, phosphoserine 133 appears to coordinate with a single arginine residue (Arg-600) in KIX which is conserved in the CBP-related protein P300. Since mutagenesis of Arg-600 to Gln severely reduces CREB-CBP complex formation, our results demonstrate that, as in the case of tyrosine kinase pathways, signal transduction through serine/threonine kinase pathways may also require protein interaction motifs which are capable of recognizing phosphorylated amino acids.

Gonadotropin-releasing hormone antagonists: novel members of the azaline B family.

A series of antagonists of gonadotropin-releasing hormone (GnRH) homologous to azaline B ([Ac-DNal1,DCpa2,DPal3,Aph5(Atz),DAph6+ ++(Atz),ILys8,DAla10]GnRH) was synthesized, characterized, and tested in a rat antiovulatory assay (AOA). Selected analogues were also tested in both an in vitro dispersed rat pituitary cell culture assay for inhibition of GnRH-stimulated luteinizing hormone release and an in vitro histamine release assay. The duration of action of some of the most potent and safest analogues in those assays was also determined in the castrated male rat in order to measure the extent (efficacy and duration of action) of inhibition of luteinizing hormone release. Structurally, this series of analogues has novel substitutions (X and Y) in the structure of the azaline B precursor: [Ac-DNal1,DCpa2,DPal3,-Aph5(X),DAph6(Y),++ +ILys8,DAla10]GnRH. These substitutions were designed to confer increased hydrophilicity as compared to that of azaline B (determined by relative retention times on a C18 reverse phase column using a triethylammonium phosphate buffer at pH 7.3) or to make them more easily accessible synthetically. Some bulky substituents were introduced in order to probe the spatial limitations of the receptor's cavity. These substitutions include acylated 4-aminophenylalanine at positions 5 and/or 6 (29 analogues), N alpha-methylated backbone substitutions (six analogues), N omega-isopropylaminophenylalanine at position 8, and hydrophilic amino acids at position 1. Out of 20 novel analogues tested for long duration of action in this series, only seven ([Ac-DNal1,DCpa2,DPal3,Aph5,DAph6,ILys8 ,DAla10]GnRH, [Ac-DNal1,DCpa2,DPal3,Aph5(For),DAph6(For) ,ILys8,DAla10]GnRH, [Ac-DNal1,DCpa2,DPal3,Aph5(Ac),DAph6(Ac),- ILys8,DAla10]GnRH (acyline), [Ac-DNal1,DCpa2,DPal3,Aph5(Pio),DAph6++ +(Pio),ILys8,DAla10]GnRH, [Ac-DNal1,DCpa2,DPal3,Aph5(Atz),DAph6++ +(Ac),ILys8,DAla10]GnRH, [Ac-DNalDCpa2,DPal3,Aph5(Atz-beta Ala),DAph6(Atz-beta Ala),ILys8, DAla10]GnRH, [Ac-DNal1,DCpa2,DPal3,Aph5(Atz-Gab), DAph6(Atz-Gab),ILys8,DAla10]GnRH) had relative potencies and/or duration of action comparable to those of azaline B. The others were one-half to one-tenth as effective as azaline B. N alpha-Methylated backbone substitutions at position 5 yielded analogues that were significantly more hydrophilic presumably because of the breakage of the NH alpha-Tyr5 to Arg8-CO hydrogen bond reported to stabilize a beta-turn encompassing residues 5-8 and which favored beta-sheet formation as shown earlier by Haviv et al. This substitution resulted, however, in an increased potency in the histamine release assay and in significantly shorter duration of action. Similarly, attempts at replacing isopropyllysine in position 8 by either isopropyl-4-aminophenylalanine or isopropyl-4-(aminomethyl)phenylalanine resulted in loss of potency in the AOA. Changes in chirality at position 1 or 10 resulted in analogues that were one-tenth and one-half as potent, respectively, as acyline.(ABSTRACT TRUNCATED AT 400 WORDS)

Neuropeptide-E-I antagonizes the action of melanin-concentrating hormone on stress-induced release of adrenocorticotropin in the rat.

The physiological role of melanin-concentrating hormone (MCH) in mammals is still very elusive, but this peptide might participate in the central control of the hypothalamopituitary adrenal (HPA) axis during adaptation to stress. Cloning and sequencing of the rat MCH (rMCH) cDNA revealed the existence of additional peptides encoded into the MCH precursor. Among these peptides, neuropeptide (N) glutamic acid (E) isoleucine (I) amide (NEI) is co-processed and secreted with MCH in rat hypothalamus. In the present work we examined: (1) The pattern of rMCH mRNA expression during the light and dark conditions in the rat hypothalamus and (2) The effect of intracerebroventricular (ICV) injections of rMCH and NEI in the control of basal or ether stress-modified release of corticotropin (ACTH), prolactin (PRL) and growth hormone (GH) secretion in vivo in light-on and light-off conditions. Our data indicate that rMCH mRNA levels do not change during the light-on period, but increase after the onset of darkness. Either alone or co-administered, rMCH and NEI do not modify basal secretion of GH and PRL at any time tested nor do they alter ether stress-induced changes in these two hormonal secretions. At the end of the light on period corresponding to the peak of the circadian rhythm in ACTH, administration of rMCH but not NEI leads to a decrease in ACTH levels while MCH is not effective during the light off period of the cycle (i.e. when basal ACTH levels are already low). Using a moderate ether induced stress, ACTH levels are only stimulated during the dark phase of the cycle.(ABSTRACT TRUNCATED AT 250 WORDS)

Monitoring protein kinase and phosphatase reactions with matrix-assisted laser desorption/ionization mass spectrometry and capillary zone electrophoresis: comparison of the detection efficiency of peptide-phosphopeptide mixtures.

Matrix-assisted laser desorption/ionization mass spectrometry (MALDI MS) and capillary zone electrophoresis (CZE) were evaluated for monitoring protein phosphatase and kinase reactions in vitro. Varying concentrations of peptide C (YIHLEKKYVRRDSG), peptide S (YLIEDNEYTARQGA) and kemptide (LARRSALG) mixed with their corresponding phosphorylated peptides, pC, pS and pkemptide, were analyzed. Comparison between the two techniques indicated that MALDI MS was less quantitative than CZE, showing a bias towards detection of the unphosphorylated peptide S and kemptide. In terms of sensitivity, the MALDI MS and CZE techniques are comparable. Protein kinase A phosphorylation of kemptide was monitored with both MALDI MS and CZE, whereas alkaline phosphatase dephosphorylation of pC could only be monitored with MALDI MS. The absence of inhibition with phosphatase or kinase buffers is a significant advantage of MALDI MS. In contrast to CZE, the MALDI spectra allow identification of the species analyzed by virtue of their mass. The results obtained emphasize the advantage of monitoring enzymatic reactions in buffer solutions using MALDI MS compared with CZE.

Molecular and functional characterization of GnRH receptors cloned from rat pituitary and a mouse pituitary tumor cell line.

A cDNA for a GnRH receptor (mtGnRH-R) was obtained from a mouse gonadotropic pituitary cell line (alpha T3-1) by expression cloning. This full-length cDNA was subsequently used as a probe to clone a rat pituitary GnRH receptor (rGnRH-R). The two receptors differ by 13 amino acids and are 100% identical to those recently reported. The analysis of the cloned receptors by photoaffinity-labeling followed by SDS-PAGE reveals a major band of approximately 70 kDa. This is in contrast to the native rat pituitary and mouse alpha T3-1 receptors whose major labeled species migrate with an apparent size of approximately 45 kDa. Functional studies reveal that both receptors, when transiently expressed in COSM6 cells, can bind GnRH with high affinity and transduce the stimulation of IP3 accumulation in response to GnRH.

An expanded nomenclature scheme for labeling peptide fragmentations and its use with 'AMASS', a computer program for generating all possible fragment ion structures from known precursors.

A nomenclature scheme for exhaustively labeling peptide fragment ions is proposed. The scheme is based on IUPAC nomenclature and the previously proposed Roepstorff nomenclature scheme used to label fragment ions in linear peptides. The descriptor used is specifically defined in order to increase the number of peptide and side chain linkages to which the nomenclature scheme can be applied compared with the Roepstorff scheme. The proposed descriptor can be used unambiguously to assign all possible fragments from linear, cyclized, branched, extended (i.e. beta-amino acids) and retro inverso peptides. A significant advantage of the proposed scheme is its simple interface with the currently accepted Roepstorff scheme. This nomenclature scheme is able to label all theoretical fragments generated by the computer program 'AMASS'. AMASS is proposed as a means of systematically calculating the mass of all possible fragment ions from known precursor structures. The program can help determine whether a peptide fragment was derived from an internal sequence fragment or a combination of side chain and backbone cleavages. The program AMASS and the proposed nomenclature scheme are used to illustrate a procedure for identifying fragment ions in the metastable product ion spectrum of somatostatin-14. We envisage that this procedure will be useful for identifying fragment ions which are characteristic of particular structural arrangements in dicyclic and polycyclic peptides.

Gonadotropin-releasing hormone antagonists with N omega-triazolylornithine, -lysine, or -p-aminophenylalanine residues at positions 5 and 6.

In order to be used as fertility regulators in humans, gonadotropin releasing hormone (GnRH) antagonists must be extremely potent and long acting and exhibit negligible side effects such as stimulating histamine release. To this aim, we have recently synthesized a series of analogues with the standard Ac-DNal1-DCpa2-DPal3 substitutions, where the N omega-amino function of ornithine, lysine, or p-aminophenylalanine (Aph) was converted to the aminotriazolyl (atz) derivatives at positions 5 and 6 with further modifications at positions 7 and 10. The analogues were tested for their ability to bind to pituitary cell membranes, to release histamine in a mast cell assay, to inhibit luteinizing hormone (LH) secretion by castrated male rats or cultured pituitary cells, and to interfere with the ovulation in intact female rats. While the subcutaneous (sc) injection of 50 micrograms of Azaline A (7, [Ac-DNal1,DCpa2,DPal3,Lys5(atz),DLys6++ +(atz),ILys8,DAla10]GnRH) dissolved in 0.2 mL of an aqueous media significantly inhibited LH release in the castrated male rat for 24 h, the same dose of Azaline B (11), [Ac-DNal1,DCpa2,DPal3,Aph5(atz),DAph6++ +(atz),ILys8,DAla10]GnRH, inhibited LH release for 72 h. A similar long duration of action was observed for Antide ([Ac-DNal1,DCpa2,DPal3,Lys5(Nic),DLys6(Nic ),ILys8,DAla10]GnRH) but not for Nal-Glu ([Ac-DNal1,DCpa2,DPal3,Arg5,4-(pmethoxybenzoy l)-D-2-Abu6,DAla10]GnRH). In the same paradigm, a 5-fold dilution of the peptide (50 micrograms in 1 mL) and the use of three injection sites rather than one resulted in significantly shorter duration of action for most of the peptides tested. This suggested that long duration of action might be the result of slow release from the injection site(s). In order to investigate this possibility, Nal-Glu and Azaline B were injected intravenously (i.v.) at three doses (10, 50, 250 micrograms) to castrated male rats. At all doses, both peptides significantly lowered LH levels for 8 h. By 24 h, Nal-Glu (250 micrograms) and Azaline B (50 and 250 micrograms) still measurably inhibited LH secretion. Finally, only Azaline B (250 micrograms) was still active at 48 h. These findings demonstrate that subtle structural modifications will yield peptides with different half-lives after iv administration. These findings led us to investigate the effects of other structural modifications on duration of action. We observed that systematic substitutions at positions 7 (NMeLeu) and 10 (Pro9-NHEt, and Gly-NH2) were found to be deleterious. Of interest was the observation that only the DAla10-NH2 substitution led to long duration of action and enzymatic stability under the conditions tested.(ABSTRACT TRUNCATED AT 400 WORDS)

Characterization of endothelin secretion by vascular endothelial cells.

The characterization of mechanisms that regulate ET-LP secretion from bovine adrenal cortical capillary endothelial cells (ACE) in culture was performed by developing radioimmunoassays that distinguish between ET1-21 (AbET1-21) and ET1-39 (AbET1-39). The conditioned media (DMEM) content of ET-like immunoreactivity (ET1-21LI) increased from 50 to 350 pg/ml over a 24 h period. Addition of 10% calf serum or 0.1% BSA enhanced ET1-21LI release 2-3 fold. Authenticity of ET1-21LI was examined using reversed phase liquid chromatography. All ET1-21LI co-eluted with authentic ET-1. Examination of ET1-39IR by liquid chromatography revealed two peaks of immunoreactivity, one co-eluting with authentic ET22-39 and a later running peak co-eluting with authentic ET1-39. Neither ET1-21LI nor ET1-39LI was detected in the extracts of sonicated ACE cells. Treatment of cells with various forms of TGF beta significantly augmented ET1-21LI release. These data suggest that ACE secretion of ET-LP in vitro spontaneously and can be enhanced by TGFss. Since neither ET1-21 LI nor ET1-39 LI was detectable detectable in ACE cells it is unlikely that ET-LP are stored prior to their secretion.

Preparative-scale synthesis and reversed-phase purification of a gonadotropin-releasing hormone antagonist.

The preparation of "Nal-Glu" antagonist (Ac-D-Nal-D-Cpa-D-Pal-Ser-Arg- D-2-amino-5-oxo-5-(4-methoxyphenyl)pentanoic acid-Leu-Arg-Pro-D-Ala-NH2) was accomplished in two steps: (i) preparation of [Ac-D-Nal1, D-Cpa2, D-Pal3, Arg5, D-Glu6, D-Ala10]-GnRH via standard solid-phase synthetic techniques and (ii) acylation of anisole (Friedel-Crafts) by the glutamic acid residue in position 6. The preparative-scale, reversed-phase high-performance liquid chromatographic (HPLC) purification of the crude "Nal-Glu" antagonist employs first a triethylammonium phosphate (TEAP) (pH 2.25)-acetonitrile solvent system, followed by an HPLC-based desalting procedure, yielding the acetate salt of the peptide. This repetitive process of purification in TEAP-acetonitrile, followed by counter-ion exchange with 0.5% acetic acid-acetonitrile is highly reproducible and allows large amounts of a given peptide to be purified efficiently in a batchwise fashion. The procedure described for the synthesis, purification and characterization of the "Nal-Glu" antagonist is presented as a model for the multi-gram synthesis and purification of peptides to be used in clinical investigations.

Characterization of melanin-concentrating hormone from rat hypothalamus.

A melanin-concentrating hormone (MCH)-like peptide was isolated from rat hypothalamus by acid extraction, gel filtration chromatography, immunoaffinity chromatography using antiserum directed against salmon MCH, and two steps of HPLC using octadecyl columns. Several zones of immunoreactivity were isolated, and Edman degradation in a gas phase sequencer indicated that the amino acid sequence of all zones was identical. Rat hypothalamic MCH is a nonadecapeptide which differs from salmon MCH by an N-terminal extension of two amino acids and four additional substitutions. Rat MCH has the following primary structure: Asp-Phe-Asp-Met-Leu-Arg-Cys-Met-Leu-Gly-Arg-Val-Tyr-Arg-Pro-Cys-Trp-Gln- Val.