Characterization of the substance P receptor in rat brain cortex membranes and the inhibition of radioligand binding by guanine nucleotides

Rat brain cortex membranes bind to a conjugate of substance P and 125I-labeled Bolton-Hunter reagent, and this binding can be inhibited by a low concentration of substance P (Kd = 1.2 +/- 0.4 X 10(-8) M). This binding is reversible and saturable (0.5 +/- 0.1 pmol of binding sites/mg of protein). Fragments of substance P as small as the carboxyl-terminal hexapeptide can inhibit the binding although their potency decreases with the decrease in the length of the peptides. The binding affinities of smaller peptides or peptides in which the carboxyl-terminal amide or amino acids are removed are drastically reduced. Biologically active analogs of substance P, physalaemin, eledoisin, substance P methyl ester, [D-Ala0]hepta(5-11)substance P, kassinin, and the eledoisin-related hexapeptide also can inhibit the binding. However, the binding is not inhibited by polypeptides structurally unrelated to substance P or by amine hormones/neurotransmitters. The binding affinities of biologically active peptides to rat brain cortex membranes are almost identical with their affinities for rat parotid cells which we previously determined. Furthermore, the recently described substance P antagonist, [D-Pro, D-Trp]substance P, inhibits the binding of the 125I-labeled substance P derivative to brain cortex membranes and to parotid cells equally well. These results suggest that the substance P receptors in the brain cortex and the parotid gland are similar. The brain cortex membrane binding of the 125I-labeled substance P derivative can be inhibited by micromolar concentrations of GTP, GDP, and their analogs. ITP and IDP were less active. Adenine and pyridine nucleotides were inactive.     

Interaction of substance P antagonists with substance P receptors on dispersed pancreatic acini

In the present study we examined the abilities of three analogs of substance P, [D-Pro2-, D-Phe7-, D-Trp9]-substance P, [D-Pro2-, D- Trp7 ,9]-substance P and [D-Arg1-, D-Pro2-, D- Trp7 ,9-, Leu11 ]-substance P to alter substance P-induced changes in pancreatic acinar cell function and to occupy substance P receptors. At 30 microM, each analog of substance P lacked agonist activity and inhibited amylase secretion stimulated by substance P receptor agonists. The inhibition was reversible and specific for peptides that interact with substance P receptors (physalaemin, substance P, eledoisin, kassinin ). The analogs of substance P did not inhibit the actions of cholecystokinin, caerulein, gastrin, carbamylcholine, secretin, vasoactive intestinal peptide, PHI, ionophore A23187 or 8Br -cAMP. At high concentrations, [D-Arg1-, D-Pro2-, D- Trp7 ,9-, Leu11 ]-substance P, but not [D-Pro2-, D- Trp7 ,9]-substance P or [D-Pro2-, D-Phe7-, D-Trp9]-substance P, caused a small but significant inhibition of bombesin-stimulated amylase release. For each analog of substance P, the inhibition was competitive in nature in that there was a rightward shift of the dose-response curve for physalaemin-stimulated amylase secretion with no change in efficacy. From Schild plots of the ability of [D-Arg1-, D-Pro2-, D- Trp7 ,9-, Leu11 ]-substance P to inhibit either substance p- or physalaemin-stimulated amylase release, the slopes were not different from unity. For each analog of substance P, there was a close correlation between its ability to inhibit substance P- or physalaemin-stimulated amylase release and its ability to inhibit binding of 125I-labeled substance P or 125I-labeled physalaemin. [D-Arg1-, D-Pro2-, D- Trp7 ,9-, Leu11 ]-substance P was 2-fold more potent than [D-Pro2-, D- Trp7 ,9]-substance P which was 4-fold more potent than [D-Pro2-, D-Phe7-, D-Trp9]-substance P, (i.e., pA2 6.1, 5.9, and 5.2, respectively). For each analog, the dose-response curve for its ability to inhibit physalaemin-stimulated amylase release was superimpossible on the dose-response curve for its ability to inhibit binding of 125I-labeled physalaemin. These results indicate that each of these analogs of substance P is a specific competitive inhibitor of the action of the substance P on dispersed acini from guinea-pig pancreas, and that their abilities to inhibit substance P-induced changes in acinar cell function can be accounted for by their abilities to occupy the substance P receptor.     

Substance P inactivation by transglutaminase in vitro.

Gamma(glutamyl5)spermine derivative of substance P (Spm-SP) was synthesized in vitro in the presence of purified guinea pig liver transglutaminase and Ca2+. The spermine adduct of the neuropeptide was purified by HPLC on a reversed-phase column and characterized by fast atom bombardment mass spectrometry. The biological activities of Spm-SP were tested by assaying, in comparison with substance P, its ability to induce both the contractions of smooth muscle in vitro and the edema formation in vivo. Spm-SP was shown not to elicit contractile responses in the isolated rat stomach strip and duodenum and not to antagonize the spasmogenic effect evoked by the native neuropeptide. Furthermore, Spm-SP was unable, when administered into rats by plantar injection, either to provoke an acute inflammatory response in the hind limb or to antagonize the edema formation induced by a concurrent administration of substance P. These results indicate that the introduction of a large size hydrophilic moiety at the glutamine5 level negatively affects the ability of the neuropeptide to bind to its receptor(s), thus supporting the view that the hydrophobic middle portion of substance P plays a key role in receptor recognition.     

Hydrolysis of substance P and its analogs by angiotensin-converting enzyme from rat lung. Characterization of endopeptidase activity of the enzyme

Hydrolysis of substance P and nine kinds of substance P analogs by angiotensin-converting enzyme highly purified from rat lung was examined by using amino-group fluorometry and high-performance liquid chromatography. The enzyme hydrolyzed substance P and several analogs, notwithstanding that they did not contain free C-terminal residues. The analyses of cleavage products separated by high-performance liquid chromatography indicated that the enzyme hydrolyzed substance P and its analogs mainly at the bond between Phe8-Gly9 and also at another bond, possibly between Gly9-Leu10, to a lesser extent by an endopeptidase action, followed by successive release of dipeptides by a dipeptidyl carboxypeptidase action. The analogs that had D-amino acid residues substituted at the presumed cleavage sites were scarcely hydrolyzed. It was further found that (Pyr6)-fragment (6-11) was hydrolyzed by the enzyme more efficiently than the other fragment-type analogs and was cleaved at a single bond by the endopeptidase activity of the enzyme. Therefore, this fragment was used as a substrate in order to characterized the endopeptidase activity of the enzyme by employing fluorometry. The activity was dependent on chloride ion, and was inhibited by captopril, MK-421, and EDTA. Thus, the endopeptidase activity of the enzyme showed properties similar to those of the dipeptidyl carboxypeptidase activity of the enzyme.     

Polyamines decrease Ca(2+) sensitivity of tension and increase rates of activation in skinned cardiac myocytes

Owing in part to their interactions with membrane proteins, polyamines (e.g., spermine, spermidine, and putrescine) have been identified as potential modulators of membrane excitability and Ca(2+) homeostasis in cardiac myocytes. To investigate whether polyamines also affect cardiac myofilament proteins, we assessed the effects of polyamines on contractility using rat myocytes and trabeculae that had been permeabilized with Triton X-100. Spermine, spermidine, and putrescine reversibly increased the [Ca(2+)] required for half-maximal tension (i.e., right-shifted tension pCa curves), with the following order of efficacy: spermine (+4) > spermidine (+3) > putrescine (+2). However, synthetic analogs that differed from spermine in charge distribution were not as effective as spermine in altering isometric tension. None of the polyamines had a significant effect on maximal tension, except at high concentrations. After flash photolysis of DM-Nitrophen (a caged Ca(2+) chelator), spermine accelerated the rate of tension development at low and intermediate but not high [Ca(2+)]. These results indicate that polyamines, especially spermine, interact with myofilament proteins to reduce apparent Ca(2+) binding affinity and speed cross-bridge cycling kinetics at submaximal [Ca(2+)].     

Structure–activity relationships in aminosterol antibiotics: The effect of stereochemistry at the 7-OH group

Squalamine and three aminosterol analogs have been shown to inhibit bacterial cell growth and induce lysis of large unilamellar phospholipid vesicles. The analogs differ in the identity of the polyamine attached at C3 of the sterol, and the stereochemistry of a hydroxyl substituent at C7. Analogs with a tetraammonium spermine polyamine are somewhat more active than analogs with a shorter trisammonium spermidine polyamine, and analogs with an axial (α) hydroxyl substituent at C7 are more active than analogs with the corresponding equatorial (β) hydroxyl group. There is some variability noted; the 7β-OH spermine analog is the most active compound against Escherichia coli, but the least effective against Pseudomonas aeruginosa. Lytic activity correlates well with antimicrobial activity of the compounds, but the lytic activity varies with the phospholipid composition of the vesicles.     

Circular dichroism and NMR studies of metabolically stablealpha-methylpolyamines: spectral comparison with naturally occurring polyamines

Three synthetic polyamine analogs, alpha-methylspermine, and alpha,alpha'-dimethylspermine, were compared with their naturally occurring counterparts, spermidine and spermine, by two different spectral techniques. The interaction of polyamines with oligodeoxynucleotides was measured by circular dichroism in order to monitor the polyamine-induced conversion of right-handed B-DNA to the left-handed Z-form. The methylated analogs were shown to be equally effective as the natural polyamines in inducing the B --> Z transition. The pH dependence of the chemical shift of all carbon atoms in each of the five polyamines was measured by (13)C-NMR spectroscopy. With the exception of expected changes in chemical shift due to the presence of the alpha-methyl substituents, the chemical shifts and pH dependence of all carbon atoms in the three alpha-methyl polyamines were similar to the corresponding naturally occurring polyamines. The combined data indicate that alpha-methyl polyamines have physical properties that are very similar to their natural counterparts. The two metabolically stable polyamine analogs, alpha-methylspermidine and alpha,alpha'-dimethylspermine, are therefore useful surrogates for spermidine and spermine in the study of numerous polyamine-mediated effects in mammalian cell cultures and can be used in such studies without the requirement for coadministration of amine oxidase inhibitors.     

Feedback regulation of polyamine synthesis in Ehrlich ascites tumor cells. Analysis using nonmetabolizable derivatives of putrescine and spermine

Ornithine decarboxylase (ODC) is subject to feedback regulation by the polyamines. Thus, addition of putrescine, spermidine or spermine to cells causes inhibition of ODC mRNA translation. Putrescine and spermine are readily converted into spermidine. Therefore, it is conceivable that the inhibition of ODC synthesis observed in putrescine- and spermine-supplemented cells is instead an effect of spermidine. To examine this possibility we have used two analogs of putrescine and spermine, namely 1,4-dimethylputrescine and 5,8-dimethylspermine, which cannot be converted into spermidine. Both analogs were found to inhibit the incorporation of [35S]methionine into ODC protein to approximately the same extent, suggesting that putrescine as well as spermine exert a negative feedback control of ODC mRNA translation in the cell. In addition to suppressing ODC synthesis, both analogs were found to increase the turnover rate of the enzyme. 5,8-Dimethylspermine caused a marked decrease in the activity of S-adenosylmethionine decarboxylase (AdoMetDC). This effect was not obtained with 1,4-dimethylputrescine, indicating that spermine, but not putrescine, exerts a negative control of AdoMetDC. Treatment with 1,4-dimethylputrescine caused extensive depletion of the cellular putrescine and spermidine content, but accumulation of spermine. 5,8-Dimethylspermine treatment, on the other hand, effectively depleted the spermine content and had less effect on the putrescine and spermidine content, at least initially. Nevertheless, the total polyamine content was more extensively reduced by treatment with 5,8-dimethylspermine than with 1,4-dimethylputrescine. Accordingly, only 5,8-dimethylspermine treatment exerted a significant inhibitory effect on Ehrlich ascites tumor cell growth.     

Feedback regulation of polyamine synthesis in Ehrlich ascites tumor cells. Analysis using nonmetabolizable derivatives of putrescine and spormine

Ornithine decarboxylase (ODC) is subject to feedback regulation by the polyamines. Thus, addition of putrescine, spermidine or spermine to cells causes inhibition of ODC mRNA translation. Putrescine and spermine are readily converted into spermidine. Therefore, it is conceivable that the inhibition of ODC synthesis observed in putrescine- and spermine-supplemented cells is instead an effect of spermidine. To examine this possibility we have used two analogs of putrescine and spermine, namely 1,4-dimethylputrescine and 5,8-dimethylspermine, which cannot be converted into spermidine. Both analogs were found to inhibit the incorporation of [³⁵S]methionine into ODC protein to approximately the same extent, suggesting that putrescine as well as spermine exert a negative feedback control of ODC mRNA translation in the cell. In addition to suppressing ODC synthesis, both analogs were found to increase the turnover rate of the enzyme. 5,8-Dimethylspermine caused a marked decrease in the activity of S-adenosylmethionine decarboxylase (AdoMetDC). This effect was not obtained with 1,4-dimethylputrescine, indicating that spermine, but not putrescien, exerts a negative control of AdoMetDC. Treatment with 1,4-dimethylputrescine caused extensive depletion of the cellular putrescine and spermidine content, but accumulation of spermine. 5,8-Dimethylspermine treatment, on the other hand, effectively depleted the spermine content and had less effect on the putrescine and spermidine content, at least initially. Nevertheless, the total polyamine content was more extensively reduced by treatment with 5,8-dimethylspermine than with 1,4-dimethylputrescine. Accordingly, only 5,8-dimethylspermine treatment exerted a significant inhibitory effect on Ehrlich ascites tumor cell growth.     

Towards Squalamine Mimics: Synthesis and Antibacterial Activities of Head‐to‐Tail Dimeric Sterol?Polyamine Conjugates

Four dimeric sterol? polyamine conjugates have been synthesized from the homo‐ and hetero‐connection of monomeric sterol? polyamine analogs in a head‐to‐tail manner. These dimeric conjugates show strong antibacterial activity against a broad spectrum of Gram‐positive bacteria, whereas their corresponding activities against Gram‐negative bacteria are relatively moderate. Though no significant difference was observed in the activities of these conjugates, cholic acid‐containing dimeric conjugates generally exhibit higher activities than the corresponding deoxycholic acid‐derived analogs. This is in contrast to the finding that a monomeric deoxycholic acid‐spermine conjugate was more active than the corresponding cholic acid‐derived analog.     

Demonstration of two distinct tachykinin receptors in rat brain cortex

Eledoisin and substance P are members of a class of peptides termed tachykinins. They share a similar spectrum of biological activities but their relative potencies in various pharmacological assays differ. We have investigated whether there is more than one receptor for these tachykinins in rat brain cortex membranes. 125I-Bolton Hunter-conjugated eledoisin specifically binds to rat brain cortex membranes with high affinity. The binding is inhibited over 95% by unlabeled eledoisin (6.6 microM). Scatchard analysis of the binding of this ligand is curvilinear suggesting that there are two binding sites with KD values of 0.9 +/- 0.7 nM and 20 +/- 10 nM. We tested various analogs and fragments of substance P and eledoisin for their ability to inhibit the binding of 125I-Bolton Hunter-conjugated eledoisin and 125I-Bolton Hunter-conjugated substance P to these membranes. The following peptides are more potent as inhibitors of the 125I-Bolton Hunter-conjugated eledoisin binding site than of the 125I-Bolton Hunter-conjugated substance P binding site: nonradioactive Bolton Hunter-conjugated eledoisin (greater than 100-fold), eledoisin (12-fold), kassinin (22-fold), neuromedin K (greater than 58-fold), and pyroglutamyl substance P(6-11)hexapeptide (4-fold). In contrast, substance P (21-fold), physalaemin (8-fold), and substance P methyl ester (1200-fold) were more potent as inhibitors of 125I-Bolton Hunter-conjugated substance P binding. These results suggest that these two ligands may bind to distinct receptors. 125I-Bolton Hunter-conjugated substance P binds specifically to rat parotid cell receptors, but 125I-Bolton Hunter-conjugated eledoisin does not, indicating that parotid cells contain only one of the receptor subtypes. The cortex membrane binding of both ligands is stimulated by low concentrations of MnCl2 (ED50 = 0.05 mM) and is inhibited by guanylyl-5'-(beta, gamma-imido)diphosphate (IC50 = 0.5 microM).     

Molecular correlates of the action of bis(ethyl)polyamines in breast cancer cell growth inhibition and apoptosis.

Polyamines are known to be involved in cell growth regulation in breast cancer. To evaluate the efficacy of bis(ethyl)polyamine analogs for breast cancer therapy and to understand their mechanism of action we measured the effects of a series of polyamine analogs on cell growth, activities of enzymes involved in polyamine metabolism, intracellular polyamine levels, and the uptake of putrescine and spermidine using MCF-7 breast cancer cells. The IC50 values for cell growth inhibition of three of the compounds, N1,N12-bis(ethyl)spermine, N1,N11-bis(ethyl)norspermine, and N1,N14-bis(ethyl)homospermine, were in the range of 1-2 microM. Another group of three compounds showed antiproliferative activity at about 5 microM level. These compounds are also capable of suppressing colony formation in soft agar assay and inducing apoptosis of MCF-7 cells. The highly effective growth inhibitory agents altered the activity of polyamine biosynthetic and catabolic enzymes and down-regulated the transport of natural polyamines, although each compound produced a unique pattern of alterations in these parameters. HPLC analysis showed that cellular uptake of bis(ethyl)polyamines was highest for bis(ethyl)spermine. We also analyzed polyamine analog conformations and their binding to DNA minor or major grooves by molecular modelling and molecular dynamics simulations. Results of these analyses indicate that tetramine analogs fit well in the minor groove of DNA whereas, larger compounds extend out of the minor groove. Although major groove binding was also possible for the short tetramine analogs, this interaction led to a predominantly bent conformation. Our studies show growth inhibitory activities of several potentially important analogs on breast cancer cells and indicate that multiple sites are involved in the mechanism of action of these analogs. While the activity of an analog may depend on the sum of these different effects, molecular modelling studies indicate a correlation between antiproliferative activity and stable interactions of the analogs with major or minor grooves of DNA.     

Imagerie phénotypique et peptides radiomarqués au gallium-68 : au-delà des analogues de la somatostatine

Receptor targeting with radiolabeled peptides has become very important in nuclear oncology in the past few years. The most frequently used peptides in the clinic are analogs of somatostatin. However, other radiolabeled analogs have also been developed and assessed in vitro and in vivo and some of them are already in clinical use. For instance, radiolabeled analogs of alpha-melanocyte-stimulating hormone (alpha-MSH), neurotensin, vasoactive intestinal peptide (VIP), bombesin (BN), substance P (SP), cholecystokinin (CCK), integrins… This review focuses on gallium-68 radiolabeled peptides developed for PET imaging, except for somatostatin analogs, which are discussed in another article.     

A proton magnetic resonance study of the effects of polyamine and divalent metal ions on diadenosine 5',5'-P1,P4-tetraphosphate base stacking

Complexation of putrescine, spermidine, spermine, and Mg2+ with diadenosine 5',5'-P1,P4-tetraphosphate induces an upfield shift in the signals for the H-2 and H-8 protons. The upfield shifts in H-2 indicate that cation complexation enhances intramolecular adenine stacking interactions. The resonances for H-2 and H-8 of neutral analogs of 5',5'-dinucleotides appear farther upfield relative to the appropriate monomeric models than those for the corresponding dinucleotide; reduction of intra-chain phosphate repulsion is the origin of cation induced enhancement of diadenosine 5H,5'-P1,P4-tetraphosphate base stacking.     

Effect of N1,N12-bis(ethyl)spermine and related compounds on growth and polyamine acetylation, content, and excretion in human colon tumor cells

Exposure of human colon tumor (HT 29 cells) to N1,N12-bis(ethyl)spermine and analogs produced a rapid loss of intracellular polyamines. This loss was brought about predominantly by an increased excretion of spermidine. N1,N11-Bis(ethyl)norspermine and N1,N12-Bis(ethyl)spermine were potent inducers of spermidine/spermine N1-acetyltransferase, and this induction facilitated the efflux of polyamines by enhancing the conversion of spermine into spermidine. N1,N14-Bis(ethyl)homospermine, which did not induce spermidine/spermine N1-acetyltransferase, also caused the loss of spermidine from the cell but was less effective in bringing about the decline in intracellular spermine. These results indicate that cellular polyamine levels can be regulated by excretion of spermidine and that the bis(ethyl)spermine derivatives deplete intracellular polyamine content by interference with this process.     

Immunochemical analysis of substance P using its synthetic fragments and analogs

Synthetic fragments and analogs were used to characterize specificity of antisera to substance P. Both, the C-terminal hexapeptide and the pentapeptide completely inhibited binding of 125I-[Tyr8]substance P by these antisera, showing the antigenic identity with substance P. Synthetic fragments shorter than peptide (7-11) did not react with anti-substance P antisera in this system. Substitution of amino acids in different positions in the fragments (6-11) or (7-11) by histidine or glycine revealed that all five amino-acid residues take part in a structure of the antigenic determinant.     

Specific binding of an immunoreactive and biologically active 125I-labeled N(1)acylated substance P derivative to parotid cells

A biologically active ¹²⁵I-substance P derivative (I¹²⁵-BH-substance P), prepared by conjugation of substance P with [^125I]Bolton-Hunter reagent, binds specifically to isolated rat parotid cells. The Kd is 4 nM for I-BH-substance P, 5 nM for substance P, 0.18 μM for substance P octa(4–11)peptide, and 1.6 μM for substance P [pyroglutamyl⁶]hexa(6–11)peptide. Substance P free acid and substance P penta(7–11)peptide are much weaker competitors and the C-terminal tri(9–11)peptide has no effect at 30 μM. The binding is also inhibited by 1 μM physalaemin, eledoisin and substance P methyl ester, but not by unrelated peptides. The selective inhibition of the binding by the biologically active analogs and fragments of substance P indicates that the ¹²⁵I-labeled N(1)acylated substance P derivative may interact with a substance P receptor on parotid cells.     

Circular Dichroism and NMR Studies of Metabolically Stableα-Methylpolyamines: Spectral Comparison with Naturally Occurring Polyamines

Three synthetic polyamine analogs, α-methylspermine, and α,α′-dimethylspermine, were compared with their naturally occurring counterparts, spermidine and spermine, by two different spectral techniques. The interaction of polyamines with oligodeoxynucleotides was measured by circular dichroism in order to monitor the polyamine-induced conversion of right-handed B-DNA to the left-handed Z-form. The methylated analogs were shown to be equally effective as the natural polyamines in inducing the B → Z transition. The pH dependence of the chemical shift of all carbon atoms in each of the five polyamines was measured by ¹³C-NMR spectroscopy. With the exception of expected changes in chemical shift due to the presence of the α-methyl substituents, the chemical shifts and pH dependence of all carbon atoms in the three α-methyl polyamines were similar to the corresponding naturally occurring polyamines. The combined data indicate that α-methyl polyamines have physical properties that are very similar to their natural counterparts. The two metabolically stable polyamine analogs, α-methylspermidine and α,α′-dimethylspermine, are therefore useful surrogates for spermidine and spermine in the study of numerous polyamine-mediated effects in mammalian cell cultures and can be used in such studies without the requirement for coadministration of amine oxidase inhibitors.