Practical preparation and deblocking conditions for N-alpha-(2-(p-biphenylyl)-2-propyloxycarbonyl)-amino acid (N-a-Bpoc-Xxx-OH) derivatives

Reproducible preparations are given for salts of the following L-amino acid derivatives: Bpoc-Ala-OH, Bpoc-Arg(Mtr)-OH, Bpoc-Asn-OH, Bpoc-Asp(OtBu)-OH, Bpoc-Cys(Acm)-OH, Bpoc-Cys(S-tBu)-OH, Bpoc-Gln-OH, Bpoc-Glu(OtBu)-OH, Bpoc-Gly-OH, Bpoc-Ile-OH, Bpoc-Leu-OH, N-alpha-Bpoc-Lys(epsilon-Boc)-OH, Bpoc-Met-OH, Bpoc-Phe-OH, Bpoc-Pro-OH, Bpoc-Ser(OtBu)-OH, Bpoc-Thr(OtBu)-OH, Bpoc-Tyr-OH, Bpoc-Val-OH. A study of the deblocking of N-alpha-Bpoc peptides in dichloromethane containing 0.5% trifluoroacetic acid revealed that a rapid equilbrium is established between the first-formed monomeric alkene 2-p-biphenylylpropene and the hindered dimer 2,4-bis(p-biphenylyl)-4-methyl-1-pentene. Thioethers were found to be inefficient carbocation scavengers for the deblocking reaction. The most efficient scavengers were found to be thiophenol and benzyl mercaptan, and the following approximate reactivity order was established: benzyl mercaptan approximately thiophenol greater than indole much greater than 1,3-dimethoxybenzene approximately resorcinol greater than 1,3,5-trimethoxybenzene approximately dimethyl sulfide approximately thioanisole.     

Opioid receptor selectivity reversal in deltorphin tetrapeptide analogues.

Deltorphin N-terminal tetrapeptides [DEL A: H-Tyr-D-Met-Phe-His-R, where R = -NH2, -NH-NH2, -OCH3, -OH, -NH-NH-CO-R' (R' = -CH3 or adamantane); DEL C: H-Tyr-D-Ala-Asp-R (R = -OH, -NHCH3)], were used in a receptor binding assay with [3H]DADLE and [3H]DPDPE for delta sites, and [3H]DAGO for mu sites; tetrapeptide Ki delta values were similar with either [3H]-delta ligand. DEL A tetrapeptides C-terminally substituted with -NH2, -NH-NH2, -OCH3, and -OH had 10 to greater than 1,000-fold decreased Ki delta values, while Ki mu increased 5 to 100-fold to yield mu selectivity. C-Terminal substitution with -NH-NH2 and -OCH3 conferred highest mu selectivities; adamantyl and acetyl hydrazide derivatives were non-selective. DEL-(1-4)-OH peptides had decreased delta and mu affinities: DEL A-[Asp4]-(1-4)-OH and DEL C-(1-4)-OH had low affinities (greater than 1 microM), however, the Ki delta of the former was 5-fold greater than the latter, and the Ki mu was less by 15-fold. The data suggest that the "message" domain of DEL exhibits receptor selectivity different from that of the heptapeptide.     

Drug metabolism-based design, synthesis, and bioactivities of 1-(2,6-dimethylphenoxy)-2-(3,4-dimethoxyphenylethylamino)propane hydrochloride (DDPH) analogs as α₁-adrenoceptors antagonists

1-(2,6-dimethylphenoxy)-2-(3,4-dimethoxyphenylethylamino)propane hydrochloride (DDPH) is a potent α?-adrenoceptor antagonist that is currently under Phase II clinic trials. However, the fast metabolism has restricted its further use. In this paper, 11 DDPH analogs were designed according to the probable metabolism pathways of DDPH, and featured the structures of halogen, methyl, and cyano groups at the 3-, or 4-position of aromatic ring A to block the hydroxylation, and one hydroxyl group at the 3-, or 4-position of aromatic ring B to extend the duration time. These compounds were synthesized in moderate to good yields from the reductive amination of substituted phenoxyacetones with substituted phenylethylamines, and fully characterized with 1H NMR, IR, and HRMS. Biological evaluation indicated that most of the compounds exhibited strong blocking and moderate to good antihypertensive activities. It is clear that the compounds having 4-OH/3-OMe on group B exhibited higher blocking activities and longer duration time than their corresponding analogs having 4-OMe/3-OMe (and also 3-OH/4-OMe). Among them, compound 13 having bromo group at the 4-position of ring A and 4-OH/3-OMe on group B, exhibited the highest blocking activity, whereas compound 17 that had a methyl group at the 4-position of ring A and a hydroxyl group at the 4-position of ring B, was more active than potent DDPH in terms of both blocking and antihypertensive activities. In addition, the possible correlations between the blocking and antihypertensive activities are also briefly discussed.     

Carriers for enzymatic attachment of glycosaminoglycan chains to peptide

In the previous study, we have found that the endo-beta-xylosidase from Patinopecten had the attachment activities of glycosaminoglycan (GAG) chains to peptide. As artificial carrier substrates for this reaction, synthesis of various GAG chains having the linkage region tetrasaccharide, GlcA beta 1-3Gal beta 1-3Gal beta 1-4Xyl, between GAG chain and core protein of proteoglycan was investigated. Hyaluronic acid (HA), chondroitin (Ch), chondroitin 4-sulfate (Ch4S), chondroitin 6-sulfate (Ch6S), and desulfated dermatan sulfate (desulfated DS) as donors and the 4-metylumbelliferone (MU)-labeled hexasaccharide having the linkage region tetrasaccharide at its reducing terminals (MU-hexasaccharide) as an acceptor were subjected to a transglycosylation reaction of testicular hyaluronidase. The products were analyzed by high-performance liquid chromatography and enzyme digestion, and the results indicated that HA, Ch, Ch4S, Ch6S, and desulfated DS chains elongated by the addition of disaccharide units to the nonreducing terminal of MU-hexasaccharide. It was possible to custom-synthesize various GAG chains having the linkage region tetrasaccharide as carrier substrates for enzymatic attachment of GAG chains to peptide.     

Metabolic rate of acidic complex saccharides in rabbit uterus under estrogenic condition.

Uterine slices obtained from estrogen-treated rabbits were incubated in vitro with N-acetyl-D-[1-3H]glucosamine together with D-[U-14C]glucose. The isotope-labelled acidic complex saccharides were then isolated by pronase digestion, Dowex 1 column chromatography and preparative electrophoresis on cellulose acetate membrane, in succession. In this way, individual acidic complex saccharides (hyaluronic acid, heparan sulfate, chondroitin sulfate A, chondroitin sulfate C, dermatan sulfate, sulfated glycopeptide, and sialoglycopeptide) were separated into 2-5 subfractions. The specific radioactivity of hexosamine in the subfractions indicated that the metabolic rate of the uterine complex saccharides as follows: hyaluronic acid greater than sulfated glycopeptide greater than heparan sulfate greater than chondroitin sulfate C greater than dermatan sulfate. In addition, metabolic heterogeneity of heparan sulfate, chondroitin sulfate A, chondroitin sulfate C, and dermatan sulfate was suggested.     

Characterization of inosine–uridine nucleoside hydrolase (RihC) from Escherichia coli

A non-specific nucleoside hydrolase from Escherichia coli (RihC) has been cloned, overexpressed, and purified to greater than 95% homogeneity. Size exclusion chromatography and sodium dodecyl sulfate polyacrylamide gel electrophoresis show that the protein exists as a homodimer. The enzyme showed significant activity against the standard ribonucleosides with uridine, xanthosine, and inosine having the greatest activity. The Michaelis constants were relatively constant for uridine, cytidine, inosine, adenosine, xanthosine, and ribothymidine at approximately 480 μM. No activity was exhibited against 2′-OH and 3′-OH deoxynucleosides. Nucleosides in which additional groups have been added to the exocyclic N6 amino group also exhibited no activity. Nucleosides lacking the 5′-OH group or with the 2′-OH group in the arabino configuration exhibited greatly reduced activity. Purine nucleosides and pyrimidine nucleosides in which the N7 or N3 nitrogens respectively were replaced with carbon also had no activity.     

Analysis of heparan sulfate oligosaccharides by nano-electrospray ionization mass spectrometry.

A highly sensitive method to identify and quantify heparan sulfate (HS) oligosaccharides by using nano-electrospray ionization mass spectrometry (nESI-MS) is described. The new approach allows us to detect approximately 50 nM of a chemically synthesized pentasaccharide with a structure of GlcNS6S-GlcA-GlcNS6S-IdoA2S-GlcNS6SOMe (3-OH pentasaccharide). Typically, solutions were infused for a total of 5 min, at an average flow rate of 30 nl/min, and the remaining sample was recovered from the nanovial. The spectra shown were obtained by summing scans for 1--3 min. Hence, our data indicated that as little as 3 x 10(-15) mole of the pentasaccharide was consumed to obtain a reasonable spectrum at the concentration as low as 50 nM. In addition, we found a linear relationship between the relative response of the molecular ion and the concentration of the analyzed 3-OH pentasaccharide, demonstrating that this approach can be used to determine the amount of HS oligosaccharides. To this end, a 3-O-sulfated pentasaccharide was prepared by incubating the 3-OH pentasaccharide with purified HS 3-O-sulfotransferase-1 and 3'-phosphoadenosine-5'-phospho[(35)S]sulfate. The resulting 3-O-sulfated pentasaccharide was purified and analyzed by nESI-MS. Based on the standard curve constructed with the 3-OH pentasaccharide, we calculated the concentration of the 3-O-sulfated pentasaccharide by the relative response. The result indicates that this value is very close to the value measured by [(35)S]sulfate radioactivity. In conclusion, nESI-MS provides both high sensitivity and the capacity to quantify HSs. This approach is likely to become a very important tool for structural analysis and sequencing of HS and heparin oligosaccharides.     

The in vitro cell culture age and cell density of articular chondrocytes alter sulfated-proteoglycan biosynthesis

The effect of cell culture age and concomitant changes in cell density on the biosynthesis of sulfated-proteoglycan by rabbit articular chondrocytes in secondary monolayer culture was studied. Low density (LD, 2 d), middle density (MD, 5-7 d), and high density (HD, 12-15 d) cultures demonstrated changes in cellular morphology and rates of DNA synthesis. DNA synthesis was highest at LD to MD densities, but HD cultures continued to incorporate [3H]-thymidine. LD cultures incorporated 35SO4 into sulfated-proteoglycans at a higher rate than MD or LD cultures. The qualitative nature of the sulfated-proteoglycans synthesized at the different culture ages were analyzed by assessing the distribution of incorporated 35SO4 in associative and dissociative CsCl density gradients and by elution profiles on Sepharose CL-2B. Chondrocytes deposited into the extracellular matrix (cell-associated fraction) 35SO4-labeled proteoglycan aggregate. More aggregated proteoglycan was found in the MD and HD cultures than at LD. A 35SO4-labeled aggregated proteoglycan of smaller hydrodynamic size than that found in the cell-associated fraction was secreted into the culture medium at each culture age. The proteoglycan monomer (A1D1) of young and older cultures had similar hydrodynamic sizes at all cell culture ages and cell densities. The glycosaminoglycan chains of A1D1 were hydrodynamically larger in the younger LD cultures than in the older HD cultures and consisted of only chondroitin 6 and 4 sulfate chains. A small amount of chondroitin 4,6 sulfate was detected, but no keratan sulfate was measured. The A1D2 fractions of young LD cultures contained measurable amounts of dermatan sulfate; no dermatan sulfate was found in older MD or HD cultures. These studies indicated that chondrocytes at LD synthesized a proteoglycan monomer with many of the characteristics of young immature articular cartilage of rabbits. These results also indicated that rapidly dividing chondrocytes were capable of synthesizing proteoglycans which form aggregates with hyaluronic acid. Culture age and cell density appears primarily to modulate the synthesis of glycosaminoglycan types and chain length. Whether or not these glycosaminoglycans are found on the same or different core proteins remains to be determined.     

Dicentric chromosome frequency analysis using slit-scan flow cytometry

Slit-scan flow cytometry (SSFCM) was used to quantify the frequency of dicentric chromosomes in human lymphoblastoid cells following gamma irradiation. In this study, cultured human cells were irradiated with 0, 0.25, 0.5, 1.0, and 2.0 Gy of 0.66 MeV gamma-rays, cultured for an additional 11 h, and treated for 5 h with colcemid. Chromosomes were then isolated, stained with propidium iodide, and analyzed using SSFCM for total fluorescence and slit-scan profile. The frequency of chromosomes having DNA contents greater than once and less than twice the DNA content of the number 1 chromosome and producing trimodal profiles was determined at each dose. This frequency was used as an estimate of the relative dicentric chromosome frequency at that dose. The estimated dicentric chromosome frequency per cell, f(D), increased with dose, D, in a linear-quadratic manner according to the relation f(D) = 4.52 x 10(-5) + 5.72 x 10(-5) D + 1.19 x 10(-4) D2.     

A comparison of the effects of 1,4-naphthoquinone and 2-hydroxy-1,4-naphthoquinone (lawsone) on indole-3-acetic acid (IAA)-induced growth of maize coleoptile cells

The effects of 1,4-naphthoquinone (NQ) and 2-hydroxy-1,4-naphthoquinone (NQ-2-OH) on indole-3-acetic acid (IAA)-induced growth, medium pH changes and membrane potential (E_m) in maize (Zea mays L.) coleoptile cells were determined. In addition, the redox cycling properties of both naphthoquinones were also compared. The dose-response curves constructed for the effects of NQ and NQ-2-OH on endogenous and IAA-induced growth differ in shape. It was found that NQ was by 10–50% more effective in inhibiting IAA-induced growth in maize coleoptile segments than NQ-2-OH. Simultaneous measurements of growth and external medium pH indicated that NQ and NQ-2-OH reduced or eliminated proton extrusion at all of the concentrations used, excluding NQ at 1 µM. It was found that both naphthoquinones at concentrations higher than 10 µM caused the depolarisation of the membrane potential (E_m). Additionally, compared to the controls, NQ- and NQ-2-OH-exposure of coleoptile segments, at concentrations higher than 10 µM, caused an elevation of the hydrogen peroxide (H₂O₂) production and plasma membrane redox activity. The highest catalase activity was observed at 10 µM NQ and it was ca. 18-fold greater (at 4 h) than in the control medium. Moreover, it was also found that NQ and NQ-2-OH, at all concentrations studied, increased the malondialdehyde content of coleoptile segments at 4 h of the experiment. The data presented here are discussed taking into account the “acid growth hypothesis” of auxin action and the mechanisms by which naphthoquinones interact with biological systems.     

Mechanistic studies of ionizing radiation and oxidative mutagenesis: genetic effects of a single 8-hydroxyguanine (7-hydro-8-oxoguanine) residue inserted at a unique site in a viral genome

T4 RNA ligase was used to construct a deoxypentanucleotide containing a single 8-hydroxyguanine (7-hydro-8-oxoguanine; G8-OH) residue, which is one of the putatively mutagenic DNA adducts produced by oxidants and ionizing radiation. The pentamer d(GCTAG8-OH)p was prepared by the ligation of a chemically synthesized acceptor molecule, d(GCTA), to an adducted donor, 8-hydroxy-2'-deoxyguanosine 5',3'-bisphosphate. The acceptor was efficiently converted to the reaction product (greater than 95%), and the final product yield was 50%. Following 3'-dephosphorylation, the pentamer was characterized by UV spectroscopy, by high-pressure liquid chromatography, and by gas chromatography-mass spectrometry of the nucleosides released by enzymatic hydrolysis. Both d(GCTAG8-OH) and an unmodified control were 5'-phosphorylated by using [gamma -32P]ATP and incorporated covalently by DNA ligase into a five-base gap at a unique NheI restriction site in the otherwise duplex genome of an M13mp19 derivative. The ligation product contained G8-OH at the 3' residue of an in-frame amber codon (5'-TAG-3') (genome position 6276) of the phage lacZ alpha gene. The adduct was part of a nonsense codon in a unique restriction site in order to facilitate the identification and selection of mutants generated by the replication of the modified genome in Escherichia coli. Both control and adducted pentamers ligated into the genome at 50% of the maximum theoretical efficiency, and nearly all (approximately 90%) of the site-specifically adducted products possessed pentanucleotides that were covalently linked at both 5' and 3' termini. The G8-OH lesion in the NheI site inhibited the cleavage of the site by a 200-fold excess of NheI.(ABSTRACT TRUNCATED AT 250 WORDS)     

Estradiol-17 beta and 2-hydroxyestradiol-17 beta-induced differential production of prostaglandins by cells dispersed from human intrauterine tissues at parturition

Prostaglandin (PGE, 6-keto PGF1 alpha) output by cells dispersed from human amnion and decidua in the presence of increasing levels (0-5000 ng/ml) of estradiol-17 beta (E2) or 2-hydroxyestradiol-17 beta (2-OH E2) was studied in relation to parturition. Tissues were obtained from women at term either before (CS) or after (SL) spontaneous labor and vaginal delivery. In the absence of estrogens, the output of both PGs from amnion increased significantly with labor. No significant increase in decidua PG output occurred with labor. Neither estrogen influenced CS amnion PG output. However, both E2 and 2-OH E2 stimulated SL amnion PGE output (2-OH E2 greater than E2) while having no affect on 6-keto PGF1 alpha output. Only the highest dose of 2-OH E2 stimulated PGE output in CS decidua, but both estrogens significantly inhibited 6-keto PGF1 alpha output in this tissue. In SL decidua only 2-OH E2 significantly stimulated PGE, and neither estrogen affected 6-keto PGF1 alpha output. These results might suggest that estrogens modulate PG biosynthesis at the level of endoperoxide to primary PG conversion.     

Effect of lipoproteins, 25-hydroxycholesterol and luteinizing hormone on in vitro follicular steroidogenesis in the hamster and rat

In 4-h incubations with the medium changed every hour, proestrous Graafian follicles of the rat secreted greater amounts of progesterone (P4), androstenedione (delta) and estradiol (E2) than the hamster follicle (at H 1: 3.5, 3.6, 2.5 times, respectively). Follicles isolated from both species responded to 10-100 micrograms of human high-density lipoprotein (HDL) by enhanced P4 production, whereas these doses of HDL augmented delta and E2 secretion only in the hamster. One mg of human low-density lipoprotein (LDL) was as potent as 100 micrograms of HDL in stimulating P4 secretion in the hamster, but was unable to increase steroid synthesis in the rat. One to 50 micrograms of 25-hydroxy-cholesterol (25-OH) enhanced P4, delta and E2 secretion in a dose-dependent manner in the hamster follicle, but was without effect in the rat. In the hamster, 10-100 ng of luteinizing hormone (LH) increased steroid secretion in a dose-related fashion, while the rat follicle only responded to 100 ng of LH and the hamster follicle was much more responsive than the rat follicle. The responsiveness of the hamster follicle to 50 micrograms of 25-OH was less than to 100 ng LH (P4 production after LH stimulation was 12-fold greater than that after 25-OH stimulation). There was no additive effect of LH and HDL on follicular steroidogenesis in either species. A pharmacological dose of LDL (1000 micrograms) negated the stimulatory effect of LH on follicular steroidogenesis in both species, especially P4.(ABSTRACT TRUNCATED AT 250 WORDS)     

In vitro gibberellin a(4) binding to extracts of cucumber hypocotyls

Cucumber hypocotyls were extracted and the extract centrifuged at 100,000g to yield a supernatant or cytosol fraction. Binding of [(3)H]-gibberellin(4) (GA(4)) to soluble macromolecular components present in the cytosol was demonstrated at 0 C by Sephadex chromatography. Binding assays performed with cytosol that had been preheated or incubated with protease, DNase, RNase, or phospholipase A or C indicated that heat and protease treatments disrupted the binding, which suggests that binding occurred to a protein. Equilibrium dialysis of a protein-enriched fraction prepared by ammonium sulfate precipitation also indicated binding of [(3)H]GA(4) to macromolecular components. [(3)H]GA(4) binding was pH-sensitive, saturable, reversible, and significantly affected by biologically active gibberellins, but not by inactive gibberellins or other plant hormones such as indoleacetic acid, abscisic acid, or kinetin. Thin layer chromatography indicated that [(3)H]GA(4), and not a metabolite, was the species bound. A kinetic analysis indicated that specific binding of [(3)H]GA(4) was due to a single class of binding sites having an estimated K(d) of 10(-7) molar and a concentration of 0.8 x 10(-12) moles gram(-1) fresh weight or 0.4 x 10(-12) moles milligram(-1) soluble protein.     

Sulfate composition of glycosaminoglycans determined by infrared spectroscopy

Anhydrous sodium sulfate (Na2SO4) was analyzed at varying concentrations by infrared (ir) spectroscopy. A standard curve was obtained from a linear plot of sulfate (SO2-(4] concentration vs the weight of the ir band area of S = O stretching. Standard chondroitin 4-sulfate, chondroitin 6-sulfate, heparan sulfate, heparin, keratan sulfates, and various dermatan sulfates isolated from human and rat skins were also studied by ir spectroscopy. The spectrum of every glycosaminoglycan (GAG) displayed an ir band around 1230 cm-1 which originated from S = O stretching of sulfate esters. Therefore, the weight of the latter band was employed to quantify sulfate, by using the standard curve indicated above. Sulfate was also estimated quantitatively by the gelatin/BaCl2 method of K.S. Dodgson and R.G. Price (Biochem. J. 1962, 84, 106-110). The sulfate composition determined by ir spectroscopy ranged from 8.5 to 22.1% (w/w), and agreed closely with the values obtained chemically. In the ir spectroscopy method, sulfate was determined using the polymer forms of the GAGs. After analysis, these heteropolysaccharides were recovered unaffected in a yield greater than 95%. The data show that the infrared spectroscopy technique, in addition to being sensitive and reliable, is much more economical than the chemical procedures currently employed to quantify GAG sulfate.     

Specific inhibition of binding of antistasin and [A103,106,108] antistasin 93-119 to sulfatide (Gal(3-SO4)beta 1-1Cer) by glycosaminoglycans.

Leech-derived antistasin is a potent anticoagulant and antimetastatic protein that binds sulfatide (Gal(3-SO4)beta 1-1Cer) and sulfated polysaccharides. In this study, the synthetic fragment [A103,106,108] antistasin 93-119, which corresponds to the carboxyl terminus, showed specific and saturable binding to sulfatide. Binding was competitively blocked by glycosaminoglycans (GAGs) in the order: dextran sulfate 5000 congruent to dextran sulfate 500,000 greater than heparin greater than dermatan sulfate much greater than chondroitin sulfates A and C. This rank order of inhibitory potency was identical to that observed with whole antistasin. We suggest that residues 93-119 of antistasin represent a critical domain for binding GAGs and sulfated glycolipids.     

Localization and characterization of acharan sulfate in the body of the giant African snail Achatina fulica

Acharan sulfate is a glycosaminoglycan (GAG), having the structure →4)-2-acetamido-2-deoxy-α- -glucopyranose(1→4)-2-sulfo-α- -idopyranosyluronic acid (1→, isolated from the body of the giant African snail Achatina fulica. This GAG represents 3–5% of the dry weight of this snail's soft body tissues. Frozen sections and polyester wax sections of the snail's body were stained by Alcian blue-periodic acid-Schiff's reagent (PAS) to localize acharan sulfate. Alcian blue staining indicated that GAG was mainly secreted into the outer surface of the body from internal granules. A highly mucous material was collected and treated and the acharan sulfate was recovered by ethanol and cetyl pyridinium chloride precipitation. Crude acharan sulfate was purified by DEAE-Sephacel ion-exchange chromatography. Depolymerization of intact mucus and purified acharan sulfate fractions by heparin lyase II (heparitinase I) from Flavobacterium heparinum produced an unsaturated disaccharide as a major product, establishing the repeating unit of acharan sulfate. These results demonstrate that mucus in the granule and secreted to the outside of the body is composed entirely of acharan sulfate.     

Sulfate transport by rat liver lysosomes

Sulfate transport was examined using membrane vesicles (pH 7.0 inside) prepared from rat liver lysosomes. Sulfate uptake was dependent upon external pH with increased uptake at lower buffer pH. The Km for uptake was 160 microM at pH 5.0 while at pH 7.0, a lower affinity system with a Km of 1.4 mM was present. The protonophore carbonyl cyanide m-chlorophenylhydrazone increased uptake at pH 5.0 while valinomycin/KCl had no effect. In contrast, at pH 7.0, valinomycin-induced changes in membrane potential stimulated uptake. Countertransport of sulfate at pH 7.0 was inhibited by 4,4'-diisothiocyano-2,2'-disulfonic acid stilbene, N-(4-azido-2-nitrophenyl)-2-aminoethanesulfonic acid, and a variety of anions: SO4(2-) greater than MoO4(2-) greater than Cl- greater than HPO4- greater than HCO3-. Trans-stimulation of sulfate uptake at pH 7.0 was observed with MoO4(2-) and, to a lesser extent, with S2O3(2-) while Cl-, HPO4-, and HCO3- had little effect. However, chloride loading of vesicles resulted in marked stimulation of sulfate uptake at pH 5.0. It appears that sulfate and protons exit lysosomes in exchange for chloride by a specific, pH-regulated anion transport system.     

Kinetics of dipeptidyl peptidase IV proteolysis of growth hormone-releasing factor and analogs.

The kinetics and selectivity of proteolysis of synthetic human growth hormone-releasing factor and analogs by purified human placental dipeptidyl peptidase IV (DPP IV) were studied by HPLC. The initial rates of Ala2-Asp3 cleavage (pH 7.8, 37 degrees C, So = 0.15 mM) were all approx. 5 mumol min-1 mg-1 for the parent hormone, GRF(1-44)-NH2, and the fragments, GRF(1-29)-NH2 and GRF(1-20)-NH2. Lower activities observed for GRF(1-11)-OH, GRF(1-3)-OH, and cyclic lactam analogs indicate S1'-Sn' binding. Assays of [Trp6]-GRF(1-29)-NH2 versus [D-Trp6]-GFR(1-29)-NH2 indicate an S4' binding cavity. Peptides with D-configuration at P2, P1 or P1' and desNH2Tyr1 and N-MeTyr1 analogs of GRF were not cleaved. Catalytic parameters for the P1-substituted analogs [X2,Ala15]-GRF(1-29)-NH2 were found to vary with X as follows, Km: Abu less than Ala less than Pro less than Val less than Ser less than Gly much less than Leu; kcat: Pro greater than Ala greater than Abu greater than Ser greater than Gly much greater than Leu greater than Val; kcat/Km: Abu greater than Pro greater than Ala much greater than Ser greater than Gly = Val much greater than Leu. Km is at a minimum and kcat/Km at a maximum, for a hydrophobic P1 side-chain of about 0.25 nm in length, i.e., the ethyl side-chain of alpha-aminobutyric acid (Abu) is very close to optimal. These results further define the S1 selectivity of DPP IV and may be useful in the design of DPP IV resistant GRF analogs that can be produced by recombinant DNA methods and the design of DPP IV inhibitors.     

(R)- and (S)-5-hydroxy-2-(dipropylamino)tetralin (5-OH DPAT): assessment of optical purities and dopaminergic activities

Racemic 5-hydroxy-2-(dipropylamino)tetralin (5-OH DPAT), a potent and selective dopamine (DA) D2-receptor agonist, was resolved into the enantiomers by a new method. The enantiomers of 5-OH DPAT were determined by chiral ion-pair chromatography using N-benzyloxycarbonylglycyl-L-proline as the counter ion. The enantiomeric purity of (R)-5-OH DPAT was found to be greater than 99.7%. The ability of the enantiomers to change the rat brain DOPA levels was evaluated in vivo. The results indicate that (R)-5-OH DPAT is a weakly potent DA D2-receptor antagonist.