Synthesis and biological activities of pseudopeptide analogues of LH-RH: agonists and antagonists

Using solid phase methods, seven agonist and antagonist analogues of LH-RH have been prepared containing enzyme-resistant CH₂S linkages as selected amide bond replacements. Agonists modified at the 5–6, 6–7 and 9–10 position had 2, < 0.1, and 10% of the $\text{in}\text{vitro}$ activity of LH-RH, respectively. Among potential antagonists, 6–7 position analogues showed only minimal inhibitory activity but N- and C-terminal modified analogues retained substantial LH-RH-LH and FSH inhibitory activity. In addition, a 1–2 position methylene thioether analogue of the parent [Ac-Pro¹, D-Phe², D-Trp^3,6]LH-RH antagonist was completely inhibitory at 30 ng $\text{in}\text{vitro}$ and represents the first such structure-modification that may be at least as active as its corresponding amide linked congener. However, neither 1–2 nor 9–10 methylene thioether position antagonists showed $\text{in}\text{vivo}$ antiovulatory activity at the 250 μg level.     

Stimulation of mouse liver corticosteroid side chain isomerase by cobaltous and nickelous ions: evidence for an endogenous inhibitor of isomerase activity

Corticosteroid side chain isomerase of mouse liver cytosol was stimulated by Co2+ and Ni2+. The magnitude of stimulation increased with incubation time. For Co2+ and Ni2+, respective enhancements were 2.8- and 4.0-fold at 15 min and 3.9- and 5.0-fold at 60 min. The relationship between steroid substrate concentration (11-deoxy-[21-3H]corticosterone) and initial velocity was consistent with a model in which the cations reacted with a cytosol inhibitor of isomerase activity. Enzyme, partially purified by ammonium sulfate fractionation and gel filtration, had a 6.8-fold increased specific activity. Co2+ and Ni2+ enhanced the activity of partially purified enzyme 1.6- and 1.9-fold. Unlike the cytosol, stimulation was achieved without lag and was not altered by prolonged incubation. Metal ion chelating agents did not have a consistent effect on the activity of the partially purified enzyme. Cyanide and alpha,alpha-dipyridyl increased, and dithizone and 8-hydroxyquinoline decreased activity. The data are not consistent with the hypothesis that side chain isomerase is a metalloenzyme. It is concluded that Co2+ and Ni2+ stimulate the enzyme by removing an endogenous inhibitor.     

LH biosynthesis and secretion in rat anterior pituitary cell cultures: stimulation of LH glycosylation and secretion by GNRH and an agonistic analogue and blockade by an antagonistic analogue.

In rat anterior pituitary cell cultures GnRH (1nM) stimulated a progressive increase in LH release into the medium from 1 to 8 h of incubation, while cellular LH showed a corresponding decrease. GnRH (1nM) neither modified the uptake nor the incorporation of [³H]-glucosamine and [³H]-proline into total protein. The incorporation of [³H]-proline into cellular LH also was unaffected by GnRH. In contrast, GnRH stimulated a 3 to 4-fold increase in [³H]-glucosamine incorporation into cellular LH. The agonistic analogue, [des GlyNH₂¹⁰]-LHRH ethylamide, mimicked the GnRH effects and was 5 to 6 times more potent than GnRH. The antagonistic analogue, [D-Phe², D-Phe⁶]-LHRH blocked the GnRH-stimulated effects. These results suggest that GnRH and agonistic analogues may preferentially regulate turnover or synthesis of the carbohydrate moiety of LH.     

Immunological and circular dichroism studies of maleylated f-1 (A) histone and complexes with DNA

Complexes of calf thymus f-1 (A) histone and homologous DNA were examined by circular dichroism. The maleylation of f-1 (A) produces a polypeptide with decreased ability to modify the circular dichroism spectrum of f-1 (A)-DNA complexes. By the introduction of two to three maleyl groups per f-1 (A) molecule, the alteration of the DNA CD spectrum is reduced by nearly half compared to that induced by the native nonmaleylated f-1 (A). Similarly maleylation reduces the serological reactivity of the histone, i.e., the reaction of the maleylated f-1 (A) with specific complement fixing f-1 (A) antibodies. On the other hand, moderate maleylation of f-1 (A) improves the cross-inhibition of the f-2b-anti-f-2b reaction by native f-1 (A) while extensively maleylated f-1 (A) is inert with respect to the same reaction. These results are interpreted in terms of possible conformational changes induced in f-1 (A) by maleylation, partially due to decreasing the histone net charge and perhaps as well as removal of specific site charges necessary for correct binding and interaction. Such an interpretation is consistent with the altered CD spectrum of maleylated f-1 (A) (i.e., a decreased and slightly red-shifted [θ]₁₉₈) and moreover explains why maleylation of two to three lysines per f-1 (A) molecule hinders simultaneously the very different DNA-histone and histone-complement fixing antibody interactions.     

Kinetic study of CO and O2 binding to horse heart myoglobin reconstituted with synthetic hemes lacking methyl and vinyl side chains

Carbon monoxide- and oxygen-binding rates and affinities were measured for horse heart myoglobins reconstituted with synthetic hemes lacking peripheral methyl and vinyl groups. There is an apparent correlation between heme size and ligand specificity, i.e. larger m values (ratios of CO vs O2 association rates, l'/k') with smaller hemes. However, this correlation broke down with the most dealkylated heme. This is interpreted as resulting from protein conformational changes altering the steric crowdedness at the O2-binding site. Spectral properties and autoxidation rates also corroborate this view.     

Physical properties of murine fibroblasts with altered acyl chain unsaturation.

Murine fibroblasts, LM cells, were cultured in suspension with laurate (12:0), myristate (14:0), palmitate (16:0), palmitoleate (16:1), or palmitate + palmitoleate (16:0 + 16:1) bound to fatty acid-free bovine serum albumin. Supplementation with saturated fatty acids decreased the ratio of unsaturated/saturated fatty acids in membrane phospholipids as much as 3.4-fold (palmitate-enriched cells). Concomitantly fluorescence polarization, absorption-corrected fluorescence, and relative fluorescence efficiency of the fluorescence probe molecule, β-parinaric acid, increased 1.5-, 2.9-, and 1.8-fold, respectively, in the membrane phospholipids. Unsaturated fatty acid (palmitoleate) increased the unsaturated/saturated fatty acid ratio by 20% but did not significantly alter the fluorescence parameters. When the cells were fed mixtures of palmitate and palmitoleate, the unsaturated/saturated fatty acid ratio of the membrane phospholipids and the above fluorescence parameters had values intermediate between those if each fatty acid had been fed separately. All fatty acid supplements caused a loss of two characteristic temperatures in Arrhenius plots of relative fluorescence efficiency. However, no shifts or appearance of new characteristic temperatures occurred. The break points at approximately 42, 37, and 22 °C were essentially un-altered. The data were consistent with the possibility that LM cells were unable to maintain constant fluidity, as indicated by fluorescence polarization, when supplemented with different fatty acids. A good correlation could be made between the phospholipid unsaturated/ saturated fatty ratio, the fluorescence polarization, and the toxicity elicited by different fatty acid supplements.     

Biosynthesis of medium chain fatty acids in Drosophila melanogaster

Adult Drosophila melanogaster synthesizes dodecanoic and tetradecanoic acids in vivo, along with the more common 16- and 18-carbon fatty acids. The radiolabeled C12 and C14 fatty acids synthesized from sodium [1-14C]acetate are found primarily in the diacylglycerol and triacylglycerol fractions. Partially purified fatty acid synthetase (FAS) synthesizes C14, C16, and C18 fatty acids (as the free acids) at 0.2 M ionic strength. Increasing the ionic strength to 2.0 M causes partially purified FAS to synthesize primarily C12 and C14 fatty acids. Addition of aliquots of the microsomal pellet and other soluble protein fractions does not alter the pattern of fatty acids synthesized by FAS. The percentage of C12 and C14 fatty acids synthesized at high ionic strength by individual fractions from the FAS peak (Sepharose 6B column) is constant across the peak. None of the soluble protein fractions is able to relieve the inhibition of FAS by phenylmethylsulfonyl fluoride. These results indicate that the FAS of D. melanogaster has the inherent capability to form C12 and C14 fatty acids and that no other soluble protein appears to be involved in their synthesis.     

Monolayers of sterols and phosphatidylcholines containing a 20-carbon chain

Pressure-area curves of monolayer films were measured for phosphatidylcholines (PC) in which the 1-position was occupied by palmitic acid and the 2-positions were occupied respectively by: 20 : 0, 20 : 1n9, 20 : 2n6, 20 : 3n3, 20 : 3n6, 20 : 3n9, 20 : 4n6 or 20 : 5n3 fatty acids. The interactions of these PC with cholesterol or desmosterol were studied.Fully saturated PC (16 : 0–20 : 0) displayed a relatively small molecular area. The presence of one double bond greatly increased the molecular area, but a second double bond resulted in only a small additional increase in area. A third double bond caused a further large expansion in area, but the presence of a fourth or fifth double bond had little additional effect.Condensation of molecular area was observed with all sterol/PC mixed films. Approximately equimolar mixtures of sterols and unsaturated PC condensed maximally, but 16 : 0–20 : 0 PC condensed most in mixtures containing 20–30 mol% of either sterol.The extent of condensation varied with surface pressure. The pressure at which maximum condensation occurred depended upon the structure of the PC and was always 20 dyn/cm or lower. The pressure at which maximum condensation with cholesterol occurred increased with increasing unsaturation of the PC.     

The gene encoding translation initiation factor 3 is highly conserved in gram-negative bacteria

A 1.1-kb Hp alpha I fragment of the Escherichia coli chromosome containing the gene for translation initiation factor 3 was employed as a probe in heterologous hybridization to chromosomal DNA from a variety of other procaryotes. Positive hybridization was observed to DNA derived from all gram-negative bacteria tested. In contrast, no hybridization to DNA from gram-positive bacteria was detected. In addition, homologous sequences were found in Euglena gracilis chloroplast DNA, while this was not the case with Saccharomyces cerevisiae mitochondrial DNA. These results are discussed in light of existing data on the components and mechanism of translation initiation in the various organisms and organelles employed in this study.     

Low-molecular-weight (61K) mu chain in P3HR-1 cells and various derived somatic hybrids

The expression of a truncated 61K mu chain in the Burkitt lymphoma lien P3HR-1 and a derived ouabain and TG-resistant subline, PUT, and in various somatic cell hybrids with PUT as one of their parents is described. Both PUT and P3HR-1 contain intracellular mu and kappa chains, but express no membrane immunoglobulin. Immunoprecipitation of 14C-labeled amino acid or [3H]glucosamine-labeled P3HR-1 extracts with anti-mu serum brought down the same 61K mu chain. Anti-light-chain sera did not precipitate the truncated mu chain. P3HR-1 is a clonal derivative of the Burkitt lymphoma (BL) line Jijoye. The parental Jijoye line is membrane-IgM positive and contains two normal-sized mu chains. Both are precipitable by anti-mu and anti-kappa sera. In addition, anti-mu also precipitated a 61K mu chain. A 61K mu chain was also identified in the following somatic hybrids: PICATPO, an autohybrid of two different P3HR-1 sublines, PUTRAL and PUT/ARH-77, derived from the fusion of PUT with the membrane-IgG-positive BL line Rael and the lymphoblastoid cell line (LCL) ARH-77, respectively, and the HP-1 (PUT/HL-60) hybrid, derived from the fusion of PUT with the granulocytic leukemia line, HL-60. The 61K mu chain could not be detected in some other BL/BL hybrid combinations, namely RAMPUT (PUT/Ramos) and NAMPUT (PUT/Namalva). The anti-light-chain serum (lambda or kappa) had no detectable effect on the truncated 61K mu chain in any of the cases tested, suggesting a lack of assembly between the 61K mu chain and the light chain.     

Thyroid hormone structure: molecular conformation of 3'-isopropyl-3,5-diiodo-L-thyronine, the most potent known thyromimetic agent

The three-dimensional structure of the potent thyromimetic agent 3′-isopropyl- 3,5-diiodo-L-thyronine (iPr-T₂) has been established by x-ray diffraction of single crystals of iPr-T₂ hydrochloride. The molecular conformation is such that the β-ring 3′-isopropyl group is oriented in space $\text{proximal}$ to the 3,5-diiodotyrosine α-ring, similar to the conformation adopted in the crystal structure of 3,5,3′-triiodo-L-thyronine.     

Changes in the electron transport chain of pea leaf mitochondria metabolizing malate

Pea leaf mitochondria showed complex kinetics for malate metabolism. O₂ uptake increased as malate concentration increased from 0 to 10 mm, reached a plateau between 10 and 20 mm malate, and then increased again up to 40 mm malate. Analysis of the products of malate oxidation by high-performance liquid chromatography revealed that the first phase of O₂ uptake coincided with the synthesis of both pyruvate and oxalacetate (OAA) while the second phase of O₂ uptake at higher malate levels usually occurred with a large increase in OAA formation. The biphasic response in O₂ uptake and the changing ratios of pyruvate and OAA synthesis did not appear to be the direct result of the differing K_m values of malate dehydrogenase and malic enzyme. Rather, they resulted from thermodynamic properties of these two malate oxidases and the kinetics of the two NADH dehydrogenases found in plant mitochondria. At low malate concentrations the rotenone-sensitive NADH dehydrogenase was active and could accept electrons from both malate oxidases. This NADH dehydrogenase became saturated at about 10 mm malate. At higher malate concentrations the rotenone-insensitive NADH dehydrogenase was increasingly important and its increased electron transport capacity was best exploited by malate dehydrogenase. At the higher malate concentrations an increasing portion of the electrons from malate reduce O₂ through the alternative oxidase. Although this coincided with the second phase of malate-dependent O₂ uptake it was not required for this phase to be seen.     

A rat kidney neutral peptidase that degrades B chain of insulin, glucagon, and ACTH: purification by affinity chromatography and some properties.

A metallo-endopeptidase that catalyzes at near neutral pH the hydrolysis of certain polypeptides was purified from rat kidney microsomes by a simplified procedure using affinity chromatography on Sepharose 4B coupled with insulin B chain. The purified enzyme showed a single component by chromatography on diethylaminoethyl cellulose and by gel filtration on a Sephadex G-200 column. The native enzyme has a molecular weight of approximately 213,000. Studies on its substrate specificity showed that the purified enzyme rapidly degrades insulin B chain, glucagon, adrenocorticotropin, and, at a significantly lower rate, insulin A chain. The enzyme has a very weak or no activity toward ribonuclease and vasopressin. In contrast, the enzyme does not degrade denatured hemoglobin, bovine serum albumin, insulin (nano- or micromolar), oxytocin, furylacryloylglycyl-leucine amide (FAGLA), synthetic substrates of cathepsin C (β-napthalamides of glycine-l-arginine and l-histidine-l-serine), or synthetic substrates of aminopeptidases (l-arginine- or l-glutamic acid-β-napthylamide). The enzyme degrades reduced or oxidized B chain at about the same rate, but S-sulfonated B chain is degraded at a markedly lower rate. The effect of several potential activators and inhibitors on the enzyme's activity was investigated. Activity of the enzyme is markedly inhibited by chelating agents (EDTA and o-phenanthroline) and, modestly, by high concentrations of citrate and histidine. Activity of the enzyme is also markedly inhibited by simple thiol compounds (dithiothreitol, glutathione, and mercaptoethanol), but not by sulfhydryl reagents (N-ethylmaleimide or iodoacetate). The inactive apoenzyme, prepared by treatment of the enzyme with EDTA followed by dialysis, was reactivated by Zn²⁺ > Ca²⁺, minimally by Cu²⁺, but not by Hg²⁺. Some anions (phosphate, borate, and bicarbonate) were strongly inhibitory, but chloride had no effect. The following agents were found to have no effect: soybean and lima bean trypsin inhibitors, N^?-tosyl-l-phenylalanine chloromethyl ketone (TPCK), N^α,?-tosyl-l-lysine chloromethyl ketone (TLCK), aprotinin (Trasylol), phenylmethylsulfonyl fluoride (a serine protease inhibitor), 1-methyl histidine, 3-methyl histidine, histamine, imidazole, and heparin.     

Evidence that the collagen in the culture medium of Chinese hamster lung cells contains components related at the primary structural level to the alpha1(V) collagen chain

The collagenous protein synthesized by cultured Chinese hamster lung (CHL) cells and present in the culture medium has been isolated after limited pepsin digestion and differential salt precipitation. Molecular size analysis of this material indicates that the CHL cell medium collagen contains chains which exhibit an apparent molecular mass of approximately 85,000 Da. When chromatographed on CM-cellulose under denaturing conditions, the reduced and alkylated CHL cell medium collagen chains elute slightly after the human alpha1(I) chain but well before the pepsin-derived alpha1(V) chain, which is the constituent chain present in the CHL cell cellular matrix collagen. Analysis of the peptides derived by CNBr cleavage of the CHL medium collagen chains by chromatography on CM-cellulose reveals, however, that these chains contain peptides which correspond both in size and in chemical properties to those derived from the alpha1(V) collagen chain, but clearly lack two peptides (alpha1(V)-CB4 and alpha1(V)-CB5) which are normally present in pepsin-derived alpha1(V) chains. Furthermore, analysis of the CHL cell culture medium collagenous material obtained without pepsin digestion indicates the presence of collagenous chains that exhibit after reduction a molecular mass of approximately 160,000 Da, which is smaller than the proposed size of the pro alpha1(V) collagen chain. These results demonstrate that the collagenous protein present in the culture medium of CHL cells is directly related at the primary structural level to the alpha1(V) collagen chain, and it is postulated that this material represents the large fragment derived from a collagenase cleavage of the [pro alpha1(V)]3 molecules present in the cell layer. Furthermore, these results and previous reports indicate that the only identifiable genetic type of procollagen chain synthesized by this cloned cell line in culture corresponds to the pro alpha1(V) chain.     

A sensitive method for estimating 5-phosphoribosyl 1-pyrophosphate in Escherichia coli

A sensitive method, which uses a PRT'ase-catalysed reaction to couple PRPP with a labeled base, has been described for estimating the PRPP content of E. coli. Although the method is basically that of Henderson and Khoo (2), a new chromatographic system, which allows the complete separation of [¹⁴C]nucleoside 5′-phosphate from any contaminating [¹⁴C]-labeled base, has been devised. Further, the extraction process and the conditions for the PRT'ase reaction have both been modified for application to bacterial cultures. Finally, a choice between methods using either [¹⁴C]adenine or [¹⁴C]guanine, with their respective PRT'ase enzymes, allows for the estimation of PRPP in extracts which contain unlabeled purine or pyrimidine bases.     

3-Chloroacetylpyridine adenine dinucleotide phosphate, an alkylating analogue of NADP+.

An alkylating analogue of NADP+ the 3-chloroacetylpyridine adenine dinucleotide phosphate was prepared from 3-diazoacetylpyridine adenine dinucleotide phosphate which was obtained by enzymatic transglucosidation of NADP+. The 3-diazoacetylpyridine adenine dinucleotide phosphate proved to be more unstable when compared to the corresponding NAD+ analogue. The alkylation of several dehydrogenases using this alkylating analogue is mentioned.     

The phosphorylation site for casein kinase II on 20,000-Da light chain of gizzard myosin

The 20-kDa light chain isolated from gizzard myosin has recently been reported to be phosphorylated by casein kinase II at a site distinct from that phosphorylated by Ca²⁺- and calmodulin-dependent myosin light-chain kinase. In the present study, the site phosphorylated by casein kinase II has been analyzed through procedures including tryptic digestion of the radioactively phosphorylated light chain and CNBr cleavage of the purified tryptic phosphopeptide, followed by amino acid analysis of these phosphopeptides. Comparison of the amino acid compositions of these peptides with the previously reported sequence has indicated that the phosphorylation site is threonine-134 of the light chain. The significance of the phosphorylation of the light chain by casein kinase II, as well as the substrate specificity of the protein kinase, is discussed on the basis of the result.     

Action of 5-thio-D-glucose and its 1-phosphate with hexokinase and phosphoglucomutase.

Previous work from this laboratory has shown that 5-thio-d-glucose is a competitive inhibitor for active transport of d-glucose. The present work indicates that the thiosugar analog and its 1-phosphate can also interfere with d-glucose 6-P formation.5-Thio-d-glucose serves as a substrate for yeast hexokinase with a K_m of 4 mm, and V of 8.8 nmol/min/μg of protein. The analog competitively inhibits d-glucose phosphorylation with a K_i of 20 mm.5-Thio-d-glucose 1-P can act as a substrate for rabbit skeletal muscle phosphoglucomutase with a K_m of 60 μm and V of 0.17 μmol/min/μg of protein. Thus, 5-thio-d-glucose 1-P behaves as a near metabolic analog of d-glucose 1-P. 5-Thio-d-glucose 1-P is a competitive inhibitor of d-glucose 1-P conversion to the 6-P with a K_i of 16.2 μm.5-Thio-d-glucose 6-P produced by phosphorylation of 5-thio-d-glucose and by conversion from 5-thio-d-glucose 1-P was identified by chromatographic mobility and by color reactions.