Solid-phase synthesis of tyrosyl H-phosphonopeptides and methylphosphonopeptides

Phosphopeptides are a useful tool for the investigation of phosphorylation as a reversible post-translational modification. There is a growing interest in using mimics of phosphoamino acids involved in phosphorylation in order to study the enzymes concerned in these processes. These mimics should contain a non-hydrolysable or isoelectrically modified phosphate moiety to be used as a specific inhibitor of phosphatases and kinases. We introduce solid-phase synthesis of H- and methylphosphonopeptides as a new class of mimics of phosphotyrosyl peptides. The peptides were synthesized on solid phase using the standard fluorenyl-methyloxycarbonyl (Fmoc) strategy. Tyrosine residues were incorporated as allyl-protected derivatives, which were selectively deprotected on the resin by treatment with Pd(PPh₃)₄. The peptide resin carrying the side-chain unprotected tyrosine of the model peptide Gly-Gly-Tyr-Ala was phosphonylated with di-tert-butyl-N,N-diethyl-phosphoramidite in the presence of ¹H-tetrazole, yielding H-phosphonopeptides after trifluoroacetic acid (TFA) cleavage. Alternatively, phosphonylation of the unprotected tyrosine with O-tert-butyl-N,N-diethyl-P-methylphosphonamidite catalysed by ¹H-tetrazole and followed by oxidation led to the methylphosphonopeptides after TFA cleavage. We obtained both the H-phosphonopeptides and the methylphosphonopeptides of the tetrapeptide in high yields and purities above 90%, according to reversed-phase high-performance liquid chromatography (RP-HPLC). To investigate the general applicability of our new methodology, we synthesized phosphonopeptides up to 13 amino acids long, corresponding to recognition sequences of tyrosine kinases. After cleavage and deprotection, all phosphonopeptides were obtained in high yields and purities of about 90%, as shown by mass spectrometry. The only by-product found was the unmodified peptide. © 1997 European Peptide Society and John Wiley & Sons, Ltd.     

Anchor-linked intermediates in peptide amide synthesis are caused by dimeric anchors on the solid supports

Cleavage and kinetic studies have been carried out using commercially obtained H-Tyr(tBu)-5-(4′-aminomethyl-3′,5′-dimethoxyphenoxy)valeric acid-TentaGelS (H-Tyr(tBu)-4-ADPV-TentaGelS) and H-Tyr (tBu)-4-ADPV-Ala-aminomethyl-resin (H-Tyr(tBu)-4-ADPV-AM-resin) prepared from commercially available resin and loaded with commercially available Fmoc-4-ADPV-OH amide anchor. Cleavage with pure trifluoroacetic acid (TFA) gave the intermediate H-Tyr-4-ADPV-NH₂, which was then degraded to H-Tyr-NH₂, and cleavage with TFA/dichloromethane (1:9) yielded H-Tyr-4-ADPV-NH₂ which could be isolated in preparative amounts. Cleavage reactions with ¹⁵N-labelled H-Ala-4-ADPV-[¹⁵N]-Gly-AM-resin yielded the intermediate H-Ala-4-ADPV-NH₂, which contained no ¹⁵N as demonstrated by ¹H-NMR. The analysis of the commercial Fmoc-4-ADPV-OH amide anchor showed the presence of Fmoc-4-ADPV-4-ADPV-OH as an impurity in high amounts. This dimeric anchor molecule is the cause of formation of the anchor-linked peptide intermediate obtained during the cleavage from the resin. The particularly high acid-lability of the amide bond between the two ADPV moieties was utilized to synthesize sidechain and C-terminally 4-ADPV protected pentagastrin on a double-anchor resin, and to cleave it using 5% trifluoroacetic acid in dichloromethane. This method may offer a new way for the synthesis of protected peptide amides with improved solubility to be used in fragment condensation.     

Rational design of highly stabilized and selective adrenomedullin analogs

The peptide hormone adrenomedullin (ADM) consists of 52 amino acids with a disulfide bond and an amidated C-terminus. Due to the vasodilatory and cardioprotective effects, the agonistic activity of the peptide on the adrenomedullin 1 receptor (AM₁R) is of high pharmacological interest. However, the wild-type peptide shows low metabolic stability leading to rapid degradation in the cardiovascular system. Previous work by our group has identified proteolytic cleavage sites and demonstrated stabilization of ADM by lipidation, cyclization, and N-methylation. Nevertheless, these ADM analogs showed reduced activity and subtype selectivity toward the closely related calcitonin gene-related peptide receptor (CGRPR). Here, we report on the rational development of ADM derivatives with increased proteolytic stability and high receptor selectivity. Stabilizing motifs, including lactamization and lipidation, were evaluated regarding AM₁R and CGRPR activation. Furthermore, the central DKDK motif of the peptide was replaced by oligoethylene glycol linkers. The modified peptides were synthesized by Fmoc/t-Bu solid-phase peptide synthesis and receptor activation of AM₁R and CGRPR was measured by cAMP reporter gene assay. Peptide stability was tested in human blood plasma and porcine liver homogenate and analyzed by RP-HPLC and MALDI-ToF mass spectrometry. Combination of the favorable lactam, lipidation, ethylene glycol linker, and previously described disulfide mimetic resulted in highly stabilized analogs with a plasma half-life of more than 144 h. The compounds display excellent AM₁R activity and wild-type-like selectivity toward CGRPR. Additionally, dose-dependent vasodilatory effects of the ADM derivatives lasted for several hours in rodents. Thus, we successfully developed an ADM analog with long-term in vivo activity.     

PEGA supports for combinatorial peptide synthesis and solid-phase enzymatic library assays

Permeable resins cross-linked with long PEG chains were synthesized for use in solid-phase enzyme library assays. High molecular weight bis-amino-polyethylene glycol (PEG) 4000, 6000, 8000 were synthesized by a three-step reaction starting from PEG-bis-OH. Macromonomers were synthesized by partial or di-acryloylation of bis-amino-PEG derivatives. Bis/mono-acrylamido–PEG were copolymerized along with acrylamide by inverse suspension copolymerization to yield a less cross-linked resin (Type I, compounds 6–9 ). Furthermore, acryloyl–sarcosin ethyl ester was co-polymerized along with bis-acrylamido PEG to obtain more crosslinked capacity resin (Type II, compounds 13–19 ). N,N-Dimethylacrylamide was used as a co-monomer in some cases. The polymer was usually obtained in a well-defined beaded form and was easy to handle under both wet and dry conditions. The supports showed good mechanical properties and were characterized by studying the swelling properties, size distribution of beads, and by estimating the amino group capacity. Depending on the PEG chain length, the monomer composition and the degree of cross-linking the PEGA supports showed a high degree of swelling in a broad range of solvents, including water, dichloromethane, DMF, acetonitril, THF and toluene; no swelling was observed in diethyl ether. The PEGA resins (Type I ) with an amino acid group capacity between 0.07 and 1.0 mmol/g could be obtained by variation of the monomer composition in the polymerization mixture. Fluorescent quenched peptide libraries were synthesized on the new polymer using a multiple column library synthesizer and incubated with the matrix metalloproteinase MMP-9 after it had been activated by 4-aminophenyl mercuric acetate resulting in 67/83 kDa active enzyme. The bright beads were separated manually under a fluorescence microscope and sequenced to obtain peptide substrates for MMP-9. After treatment with ethylene diamine, high-loaded resins (Type II ) have been employed in continuous flow peptide synthesis to yield peptides in excellent yield and purity. © 1998 European Peptide Society and John Wiley & Sons, Ltd.     

Synthesis and properties of cyclic gomesin and analogues

Gomesin (Gm) was the first antimicrobial peptide (AMP) isolated from the hemocytes of a spider, the Brazilian mygalomorph Acanthoscurria gomesiana. We have been studying the properties of this interesting AMP, which also displays anticancer, antimalarial, anticryptococcal and anti‐Leishmania activities. In the present study, the total syntheses of backbone‐cyclized analogues of Gm (two disulfide bonds), [Cys(Acm)^2,15]‐Gm (one disulfide bond) and [Thr^2,6,11,15,d ‐Pro⁹]‐Gm (no disulfide bonds) were accomplished, and the impact of cyclization on their properties was examined. The consequence of simultaneous deletion of pGlu¹ and Arg¹⁶‐Glu‐Arg¹⁸‐NH₂ on Gm antimicrobial activity and structure was also analyzed. The results obtained showed that the synthetic route that includes peptide backbone cyclization on resin was advantageous and that a combination of 20% DMSO/NMP, EDC/HOBt, 60 °C and conventional heating appears to be particularly suitable for backbone cyclization of bioactive peptides. The biological properties of the Gm analogues clearly revealed that the N‐terminal amino acid pGlu¹ and the amidated C‐terminal tripeptide Arg¹⁶‐Glu‐Arg¹⁸‐NH₂ play a major role in the interaction of Gm with the target membranes. Moreover, backbone cyclization practically did not affect the stability of the peptides in human serum; it also did not affect or enhanced hemolytic activity, but induced selectivity and, in some cases, discrete enhancements of antimicrobial activity and salt tolerance. Because of its high therapeutic index, easy synthesis and lower cost, the [Thr^2,6,11,15,d ‐Pro⁹]‐Gm analogue remains the best active Gm‐derived AMP developed so far; nevertheless, its elevated instability in human serum may limit its therapeutic potential. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.     

Immobilization of nitrifying bacteria by polyethylene glycol prepolymer

The effects of immobilizing materials on the activity of nitrifying bacteria were investigated by using 11 kinds of prepolymers of polyethylene glycol. Relative respiratory activity of immobilized nitrifying bacteria with polyethylene glycol metacrylate prepolymer was higher than that of polyethylene glycol acrylate prepolymer, and there was a tendency for relative respiratory activity to be higher with a prepolymer of greater molecular weight. With the polyethylene glycol prepolymer, there was a drastic improvement over the conventional method of immobilization by acrylamide in the relative respiratory activity of the pellet. Inorganic synthetic wastewater was treated under a high loading rate of 1.14 kg-N/m³·d. Influent NH₄-N could be removed to 2 mg/l or less and the nitrogen removal was 90%.     

Genetic Control of Immune Responses to a Synthetic Fimbrial Antigen of Actinobacillus actinomycetemcomitans

The incidence of infection by Actinobacillus actinomycetemcomitans, one of the important pathogens in human periodontal diseases, has been reported to be associated with racial background and genetic factors. We attempted to determine the genetic regulation of immune responses to A. actinomycetemcomitans fimbriae, an attachment factor, using various inbred strains of mice. For this purpose, we synthesized an oligopeptide antigen using the amino acid sequence of the fimbriae and conjugated this antigen to branched lysine polymer resin beads. After immunization with the synthetic A. actinomycetemcomitans fimbrial antigen, serum antibody levels and the delayed-type hypersensitivity (DTH) reaction to the antigen were measured by enzyme-linked immunosorbent assay (ELISA) and footpad swelling responses, respectively. The strains of mice found to be high-IgG responders to the antigen were B10.HTT, B10.RIII, B10A (5R) and B10.S (9R). These results indicate that mice with E_β^s: E_α^k, E_β^r: E_α^r and E_β^b: E_α^k respond strongly to the synthetic peptide. All of the high-IgG responders showed a high DTH response. A cell transfer experiment confirmed that CD4 T cells mediated with a DTH response to the synthetic peptide. Thus, the results of this study demonstrate that the immune responses to A. actinomycetemcomitans fimbriae are genetically controlled.     

Coloured peptides: synthesis,properties and use in preparation of peptide sub-library kits

Several methods were developed for the solid-phase synthesis (SPPS) of coloured peptides and peptide libraries. At first a bifunctional red compound, 4-(4-(N-ethyl-N-(3-(tert-butyloxycarbonyl)aminopropyl)amino)phenylazo)benzoic acid (Boc-EPAB), was coupled with chloromethyl resin to obtain a new solid support suitable for SPPS using Boc chemistry. Peptides synthesized on this coloured resin had the chromophore at their C-termini. N-terminally coloured peptides were synthesized on a traditional solid support, coupled with chromophoric carboxylic acid before cleavage. A model pentapeptide, Phe-Ala-Val-Leu-Gly, and its ten derivatives were synthesized and their properties studied. It was found that the presence of chromophores decreases the water solubility of peptides. However, insertion of solubilizing tags (penta-lysine sequences or polyoxyethyl chains) into the molecule of any coloured derivative resulted in enhancement of the solubility. The RP-HPLC hydrophobicity indexes (φ₀) of the coloured peptides were also determined because φ₀ values are closely related to their water solubility. A coloured pentapeptide library was synthesized using the portioning-mixing method. Each component of this library contained the red azo dye (EPAB) and the penta-lysine tag. Before the last coupling step the samples were not mixed. All of the 19 sub-libraries obtained after cleavage were readily soluble in water, giving intense red solutions. The effect of chromophore (EPAB) and/or penta-lysine solubilizing tag on the biological activity was also studied. Potencies of the bovine neurotensin 8–13 fragment and its different coloured and penta-lysine derivatives were compared in isolated longitudinal muscle strips of guinea pig ileum. It was shown that the hexapeptide with penta-lysine tag had almost the same activity as the 8–13 fragment itself. The activity of the EPAB-derivative was found to be rather low. However, the presence of the solubilizing tag in the coloured hexapeptide compensated the negative effect of the chromophore. © 1998 European Peptide Society and John Wiley & Sons, Ltd.     

Synthesis of a novel side-chain to side-chain cyclized enkephalin analogue containing a carbonyl bridge

A novel type of cyclic opiod peptide analogue, cyclo(N^ϵ,N^ϵ′-carbonyl- D -Lys²,Lys⁵)enkephalinamide, was prepared from a linear precursor peptide. The peptide was synthesized on the Merrifield resin and also by a combination of the solid-phase technique and the classical method in solution. In both cases the cyclization was performed by reaction of bis(4-nitrophenyl)carbonate with the free side-chain amino groups of the two lysine residues. The described method permits the convenient preparation of novel peptide analogues cyclized via a ureido group incorporating the side-chain amino groups of two α,ω-diamino acid residues. The cyclic enkephalin analogue containing a 21-membered ring structure showed preference for μ over δ opioid receptors in opioid bioassays in vitro. © 1997 European Peptide Society and John Wiley & Sons, Ltd.     

HLA‐DQ7 β1 and β2 derived peptides as immunomodulators

Modulation of protein–protein interactions involved in the immune system by using small molecular mimics of the contact interfaces may lead to the blockage of the autoimmune response and the development of drugs for immunotherapy. The nonpolymorphic β‐regions, exposed to the microenvironment, of the modeled HLA‐DQ7, which is genetically linked to autoimmune diseases, were determined. Peptides 132–141 and 58–67, located at the β₁ and β₂ domains of HLA‐DQ7, respectively, were tested for their involvement in the interactions with CD4⁺ T lymphocytes. Linear, cyclic, and dimeric analogs that mimic the exposed surfaces of HLA‐DQ7 were designed and synthesized. Their immunosuppressory activities, found in the secondary, humoral immune response to sheep erythrocytes (SRBC) in mice in vitro, ranged from 11% to 53%. The significance of the total charge of the peptides, the pattern of the hydrogen bonding, and the presence of secondary structure were investigated in relation to the immunomodulatory effect of the peptides. Two dimeric analogs of the HLA‐DQ7 58–67 fragment, consisting of the two monomers covalently linked by a polyethylene glycol (PEG) spacer, able to mimic the superdimers, were also synthesized and studied. As the 58–67 segment is located at the β₁ region of HLA‐DQ7, close to the major histocompatibility complex (MHC) groove, one may assume that the 58–67 peptide could accommodate the association between T‐cell receptor (TCR) and human leukocyte antigen (HLA) by activating a co‐stimulatory molecule of the TCR/HLA interaction. This hypothesis is supported by the confocal laser image of the fluorescein‐labeled 58–67 peptide and by the fact that it is an immunostimulator at low concentration. Copyright © 2009 European Peptide Society and John Wiley & Sons, Ltd.     

Preparation of tri(ethylene glycol) grafted core‐shell type polymer support for solid‐phase peptide synthesis

A core‐shell type polymer support for solid‐phase peptide synthesis has been developed for high coupling efficiency of peptides and versatile applications such as on‐bead bioassays. Although various kinds of polymer supports have been developed, they have their own drawbacks including poor accessibility of reagents and incompatibility in aqueous solution. In this paper, we prepared hydrophilic tri(ethylene glycol) (TEG) grafted core‐shell type polymer supports (TEG SURE) for efficient solid‐phase peptide synthesis and on‐bead bioassays. TEG SURE was prepared by grafting TEG derivative on the surface of AM PS resin via biphasic diffusion control method and subsequent acetylation of amine groups which are located at the core region of AM PS resin. The performance of TEG SURE was evaluated by synthesizing several peptides. Three points can be highlighted: (1) easy control of loading level of TEG, (2) improved efficiency of peptide synthesis compared with the conventional resins, and (3) applicability of on‐bead bioassays.     

Chemical synthesis of kurtoxin, a T-type calcium channel blocker

Kurtoxin isolated from the venom of scorpion, Parabuthus transvaalicus, is a 63-residue peptide with four intramolecular disulfide bonds which inhibits low-threshold T-type Ca²⁺channels. Kurtoxin was synthesized by native chemical ligation involving the coupling of (1--26)-thioester peptide and Cys²⁷-(28--63)-peptide. The former was synthesized by standard solid-phase peptide synthesis (SPPS) with Boc chemistry, while the latter was sequentially assembled from three protected segments onto a resin-bound C-terminal segment in a chloroform--phenol mixed solvent followed by deprotection reaction using HF. Each protected segment used for the coupling on a solid support was prepared on an N-[9-(hydroxymethyl)-2-fluorenyl] succinamic acid (HMFS) resin and detached from the resin by treatment with 20% Et ₃N in DMF to produce it in the form of an α-carboxylic acid. Synthetic kurtoxin obtained after the oxidative folding reaction was found to be identical with the natural product by means of several analytical procedures, and its disulfide structure was determined for the first time to be Cys¹²-Cys⁶¹, Cys¹⁶-Cys³⁷, Cys²³-Cys⁴⁴ and Cys²⁷-Cys⁴⁶ by peptide mapping, sequence analysis and mass measurements.     

Hyperglucosylated adhesin‐derived peptides as antigenic probes in multiple sclerosis: Structure optimization and immunological evaluation

Peptides mimicking antigenic epitopes targeted by antibodies can be powerful tools to be used as antigen surrogates for the specific diagnosis and treatment of autoimmune diseases. Obtaining structural insights about the nature of peptide–antibody interaction in complex mixtures such as sera is a critical goal. In multiple sclerosis (MS), we previously demonstrated that the N‐linked β‐d ‐glucopyranosyl moieties (N‐Glc) containing epitopes in nontypeable Haemophilus influenzae adhesin C‐terminal portion HMW1(1205–1526) were essential for high‐affinity antibody binding in a subpopulation of MS patients. With the aim of developing peptide probes and assessing their binding properties to antibodies from sera of representative patients, we performed the systematic analysis of synthetic peptides based on HMW1(1347–1354) fragment bearing one or two N‐Glc respectively on Asn‐1349 and/or Asn‐1352. The N‐glucosylated nonapeptides efficiently bind to IgG antibodies, displaying IC₅₀ in the range 10^?8–10^?10 M by competitive indirect enzyme‐linked immunosorbent assay (ELISA) in three representative MS patient sera. We selected the di‐N‐glucosylated adhesin peptide Ac‐KAN (Glc)VTLN (Glc)TT‐NH₂ as the shortest sequence able to inhibit high‐avidity interaction with N‐Glc targeting IgM antibodies. Nuclear magnetic resonance (NMR)‐ and circular dichroism (CD)‐based characterization showed that the binding properties of these antigens could not be ascribed to structural differences induced by the presence of up to two N‐glucosyl moieties. Therefore, the antibody binding is not easily correlated to the position of the sugar or to a determined conformation in water.     

Swellographic Study of Peptide Resin Swelling Behavior during Solid Phase Peptide Synthesis

A representative array of peptide resin swelling data obtained using swellographic monitoring technique was analyzed to determine general tendencies in swelling volume dynamics in the course of Boc- and Fmoc-SPPS. Efficiency of the approach based on analyzing swelling volume changes (ΔV) as a function of nominal molecular weight change (ΔM) of the pendant peptide chain was demonstrated. The conclusion was made that a linear relationship between swelling volume and weight changes of peptide resin is a normal basic trend in line with results of early model studies carried out by Merrifield and coworkers. Excellent linear ΔV vs. ΔM correlations (r > 0.97) throughout SPPS for peptide resins swollen in DMF appeared to be typical of >60% of analyzed peptides and also are invariably observed for incorporation of the first four C-terminal amino acids and Boc-deprotected peptide resins swollen in 50% TFA-DCM. Formal theoretical interpretation of the observed regularities and anomalies of swelling volume dynamics and related solvation changes was made in terms of solvation numbers defined as a number of solvent molecules associated with a specific molecular segment of peptide-resin.     

A comparative study of synthetic and semisynthetic approaches for ligating the epidermal growth factor to a bivalent scaffold

A prominent target of monoclonal antibodies as targeted therapies for cancer is the epidermal growth factor receptor, which is overexpressed on the surface of various cancer cell types. Its natural binder, the epidermal growth factor (EGF), is a 53 amino acid polypeptide. Anticancer synthetic targeted immune system engagers (ISErs) comprising two ‘binder’ peptides, which are attached to a scaffold conveying immune stimulating ‘effector’ properties, via monodisperse polyethylene glycol chains. So far, preparation of ISErs has been limited to the use of small peptides (8–20 amino acids) as binding functionalities, and they have been entirely synthesized by solid phase peptide synthesis. Here, we describe a synthetic and a semisynthetic approach for the preparation of an ISEr bearing two murine EGF molecules as binding entities (ISEr‐EGF₂). EGF was either synthesized in segments by solid phase peptide synthesis or expressed recombinantly and ligated to the scaffold by native chemical ligation. We report the successful generation of synthetic and semisynthetic ISEr‐EGF₂ as well as several challenges encountered during the synthesis and ligations. We demonstrate the application of native chemical ligation for the design of larger ISEr constructs, facilitating new objectives for the coupling of small binder peptides and larger proteins to multivalent ISEr scaffolds. Copyright © 2017 European Peptide Society and John Wiley & Sons, Ltd.     

Liquid–liquid extraction of antimicrobial peptide P34 by aqueous two-phase and micellar systems

Antimicrobial peptide P34 is a promising biopreservative for utilization in the food industry. In this work, aqueous biphasic systems (ABS) and aqueous biphasic micellar systems (ABMS) were studied as prestep for purification of peptide P34. The ABS was prepared with polyethylene glycol (PEG) and inorganic salts and the ABMS with Triton X-114 was chosen as the phase-forming surfactant. Results indicate that peptide P34 partitions preferentially to PEG-rich phase and extraction with ammonium sulfate [(NH₄)₂SO₄], yielding a 75% recovery of the antimicrobial activity, specific activity of 1,530 antimicrobial units per mg of protein, and purification fold of 2.48. Protein partition coefficient and partition coefficient for the biological activity with (NH₄)₂SO₄ system were 0.48 and 64, respectively. Addition of sodium chloride did not affect recovery, but decreased protein amount in the PEG-rich phase, indicating a higher partition of biomolecules. ABMS did not yield good recovery of antimicrobial activity. Purification fold using PEG–(NH₄)₂SO₄ and 1.0?mol l^?1 sodium chloride was twice higher than that obtained by conventional protocol, indicating a successful utilization of ABS as a step for purification of peptide P34.     

Effects of water restriction during growth and adulthood on renal function of bobwhite quail,Colinus virginianus

Renal function and osmoregulation were studied in bobwhite quail (Colinus virginianus) raised with unrestricted water (chronically unrestricted group) or restricted water (chronically restricted group). There was no difference in urine concentrating ability between adult and juvenile (3.5 or 7.5 week-old) quail. A filtration marker (polyethylene glycol) was infused into adult quail via osmotic minipumps and responses to the following regimens studied: ad libitum water intake, short-term (4-day) water restriction, and acute (1-day) dehydration (withdrawal of all drinking water). Chronically restricted quail had higher urine-to-plasma ratios of polyethylene glycol and lower urine flow rates during short-term restriction. A greater proportion of the reduction in urine flow rate during dehydration was attributable to enhanced tubular reabsorption, rather than reduced rates of filtration, in chronically restricted than in chronically unrestricted birds. Chronically restricted birds also had higher maximum urine-to-plasma ratios of polyethylene glycol (but not higher urine osmolality). These differences occurred in the face of arginine vasotocin concentrations that were not different in the two groups of birds (approximately 15 pg·ml^-1 during hydration, and 45 pg·ml^-1 during water restriction or dehydration). These observations suggest that chronically restricted quail have an enhanced responsiveness of tubular reabsorption to dehydration, a finding consistent with previous observations of tubule hypertrophy and hyperplasia in these birds (Goldstein and Ellis 1991). Despite this, no difference was found in medullary cAMP levels, either basal or arginine vastotocin-or forskolin-stimulated, in the two groups. When given water ad libitum, chronically restricted quail drank copiously (more than two times the drinking rate of chronically unrestricted birds rehydrating from acute dehydration or short-term water restriction), but glomerular filtration rate, hematocrit, and plasma osmolality did not differ in the two groups under this condition; chronically restricted quail excreted the excess water consumed during rehydration in a copious urine accomplished by reduced tubular water reabsorption.Abbreviations ADH antidiuretic hormone - AVT arginine vasotocin - m_b body mass - cAMP cyclic adenosine-monophosphate - DEH birds raised with restricted water intake - dpm decays per minute - ECF extracellular fluid - ECFV extracellular fluid volume - E _PEG total rate of polyethylene glycol excretion - GFR glomerular filtration rate - Hct hematocrit - HYD birds raised with unrestricted water intake - PEG polyethylene glycol - P _osm plasma osmolality - P _PEG plasma concentration of polyethylene glycol - U _PEG urine concentration of polyethylene glycol - (U/P)_PEG urine-to-plasma ratio concentration of polycthylene glycol - V urine flow rate     

Synthesis of RGD amphiphilic cyclic peptide as fibrinogen or fibronectin antagonist

Summary This paper investigates the effect of the incorporation of a diazaethylene glycol derivative (Deg,2) into a cyclic peptide containing the tripeptide sequence Arg-Gly-Asp (RGD). This motif is a common structural element of many integrin ligands. The synthesis of cyclo-(Arg-Gly-Asp-Deg) (7) has been accomplished in solution using standard peptide chemistry. The intent was to improve the bioavailability of this new RGD cyclic peptide, which is shown to interact with α_IIbβ₃ or α₅β₁ receptors. A preliminary step for the conformational study of peptide7 was done in DMSO-d ₆ using nuclear magnetic resonance spectroscopy techniques.     

Melanoma targeting with α-melanocyte stimulating hormone analogs labeled with fac-[99mTc(CO)3]+: effect of cyclization on tumor-seeking properties

Early detection of primary melanoma tumors is essential because there is no effective treatment for metastatic melanoma. Several linear and cyclic radiolabeled α-melanocyte stimulating hormone (α-MSH) analogs have been proposed to target the melanocortin type 1 receptor (MC1R) overexpressed in melanoma. The compact structure of a rhenium-cyclized α-MSH analog (Re-CCMSH) significantly enhanced its in vivo tumor uptake and retention. Melanotan II (MT-II), a cyclic lactam analog of α-MSH (Ac-Nle-cyclo[Asp-His-dPhe-Arg-Trp-Lys]-NH₂]), is a very potent and stable agonist peptide largely used in the characterization of melanocortin receptors. Taking advantage of the superior biological features associated with the MT-II cyclic peptide, we assessed the effect of lactam-based cyclization on the tumor-seeking properties of α-MSH analogs by comparing the pharmacokinetics profile of the ^99mTc-labeled cyclic peptide βAla-Nle-cyclo[Asp-His-d-Phe-Arg-Trp-Lys]-NH₂ with that of the linear analog βAla-Nle-Asp-His-dPhe-Arg-Trp-Lys-NH₂ in melanoma-bearing mice. We have synthesized and coupled the linear and cyclic peptides to a bifunctional chelator containing a pyrazolyl-diamine backbone (pz) through the amino group of βAla, and the resulting pz–peptide conjugates were reacted with the fac-[^99mTc(CO)₃]⁺ moiety. The ^99mTc(CO)₃-labeled conjugates were obtained in high yield, high specific activity, and high radiochemical purity. The cyclic ^99mTc(CO)₃-labeled conjugate presents a remarkable internalization (87.1% of receptor-bound tracer and 50.5% of total applied activity, after 6 h at 37 °C) and cellular retention (only 24.7% released from the cells after 5 h) in murine melanoma B16F1 cells. A significant tumor uptake and retention was obtained in melanoma-bearing C57BL6 mice for the cyclic radioconjugate [9.26 ± 0.83 and 11.31 ± 1.83% ID/g at 1 and 4 h after injection, respectively]. The linear ^99mTc(CO)₃-pz–peptide presented lower values for both cellular internalization and tumor uptake. Receptor blocking studies with the potent (Nle⁴,dPhe⁷)-αMSH agonist demonstrated the specificity of the radioconjugates to MC1R (74.8 and 44.5% reduction of tumor uptake at 4 h after injection for cyclic and linear radioconjugates, respectively).     

Oxygen availability in polyethylene glycol solutions and its implications in plant-water relations

The solubility of O₂ in polyethylene glycol 4000 and 6000 solutions of varying concentrations was determined iodimetrically (titrimetrically) and electrochemically using a rotating glassy carbon electrode and a PAR Model 174 Polarograph. The titrimetric determination resulted in the formation of an unexpected precipitate at 2% (w/v) polyethylene glycol corresponding to the approximate critical micelle concentration of the two polyethylene glycol homologs. Beyond 5% polyethylene glycol, O₂ concentration was inversely proportional to polyethylene glycol concentration, and was higher in polyethylene glycol 4000 solutions than in polyethylene glycol 6000. The electrochemical data are a direct measure of O₂ transport to the electrode surface, rather than O₂ activity or concentration. Results indicate that even at relatively high H₂O potentials, the transport of O₂ to the root surface might be insufficient to meet the plant's respiratory requirements.