Stereoselective sulfate conjugation of isoproterenol in humans: Comparison of hepatic,intestinal, and platelet activity

The stereochemistry of sulfate conjugation of isoproterenol (ISO) was examined with human liver, intestine, and platelets as the phenolsulfotransferase (PST) enzyme source and PAP³⁵S as the cosubstrate. With the hepatic cytosol, two distinct sulfation reactions were identified, a high affinity reaction (K_m 5 to 50 μM) and a low affinity reaction (K_m 360 to 2,900 μM). The efficiency of sulfation (V_max/K_m) for both reactions was 5-fold higher for (+)- than for (?)-ISO. When the hepatic PSTs were resolved by ionexchange chromatography, it could be shown that the high affinity reaction was catalyzed by the monoamine (M) form and the low affinity reaction by the phenol (P) form of PST. Only the high affinity (M form) sulfation was detected in the jejunal cytosol with a V_max/K_m value 6.1-fold higher for (+)- than for (?)-ISO. Finally the platelet, as a potentially useful model tissue, also demonstrated only the high affinity M form reaction with a V_max/K_m value 5.7-fold higher for (+)- than for (?)-ISO. In summary, this study has shown that sulfation of ISO by PSTs in various human tissues is stereoselective and favors the inactive (+)-enantiomer over the active (?)-enantiomer by about 5-fold, a finding which should be considered in the therapeutic use of chiral drugs cleared by sulfate conjugation. © 1993 Wiley-Liss, Inc.     

Identification of stereospecific [3H]spiroperidol binding sites in mammalian lymphocytes

Direct binding to intact rat lymphocytes has been shown for the potent dopaminergic antagonist [³H]spiroperidol. The specific binding is saturable with two components (K_D1 = 1.9 nM, K_D2 = 36.2 nM). Determination of the K_D by kinetic studies measuring rate constants for association and dissociation provided K_D values similar to those obtained in equilibrium experiments. The specific binding is proportional to cell concentration and temperature dependent with a maximum at 37°C. [³H]spiroperidol binding is stereospecific since (+)butaclamol was more effective than (?)butaclamol. The relative potencies of different antidopaminergic agents in competing for [³H]spiroperidol binding sites parallel their activity in the striatum. Dopaminergic receptors have also been demonstrated in other mammalian lymphocytes (rabbit, dog, human). Lymphocyte dopaminergic receptors could be implicated in lymphocytes mediated immune response.     

Enantioselectivity of aromatase inhibitors: Substituted 3-(4-aminophenyl)pyrrolidine-2,5-diones

The (+)-, (?)-, and (±)-forms of 1- and 1,3-substituted 3-(4-aminophenyl)pyrrolidine-2,5-dione have been examined as inhibitors of P450_AROM and P450_CSCC. The inhibitory potency for P450_AROM resided in the (+)-enantiomers of ( 1 ), ( 2 ), and ( 4 ) and the (?)-enantiomers of ( 3 ) and ( 5 ). These findings have been accommodated within a molecular graphics-derived model for binding of P450_AROM inhibitors to the substrate binding site. Crystallography showed that (+)-( 2 ) has the (R)-configuration. Spectral binding studies with human placental P450_AROM showed type II binding but although the K_S values were in line with the IC₅₀ values for individual compounds there was no overall correlation between K_S and IC₅₀ within the series. There was little difference in the inhibitory potency of the enantiomers and racemate of individual compounds toward P450_CSCC. © 1995 Wiley-Liss, Inc.     

Peripheral dopamine receptor identification: Properties of a specific dopamine receptor in the rat adrenal zona glomerulosa

Specific dopaminergic receptors were found in the rat adrenal zona glomerulosa. Specific binding as defined by the difference in [³H]-spiroperidol binding in the presence or absence of excess dopamine was saturable and of high affinity. Stereospecificity of binding to the dopaminergic receptor was demonstrated by the fact that (+)-butaclamol was 300-fold more active at displacing [³H]-spiroperidol from the binding site than (?)-butaclamol. A Scatchard analysis of the data revealed a K_D = 6.9 nM and a B_max = 173 pmol/gm for the binding of [³H]-spiroperidol to adrenal capsular homogenate binding site. Characteristics of this receptor place it in the recently defined D2 dopamine receptor subclass.     

Stereoselective protein binding of tetrahydropalmatine enantiomers in human plasma,HSA, and AGP,but not in rat plasma

Tetrahydropalmatine (THP) is one of the active alkaloid ingredients of Rhizoma Corydalis. THP has a chiral center, and the stereoselective pharmacokinetics and tissue distribution have been reported. The aim of the present article is to study the stereoselective protein binding of THP using equilibrium dialysis followed by HPLC‐UV analysis. The results showed that THP stereoselectively binds to human serum albumin (HSA), α₁‐acid glycoprotein (AGP), and proteins in human plasma. The fraction binding of (+)‐THP was significantly higher than that of (?)‐THP, whereas such stereoselectivity was not found in rat plasma. The affinity of HSA and AGP to (+)‐THP, expressed as nK_A, were 9.0 × 10³ M^?1 and 2.34 × 10⁵ M^?1, respectively, which were notablely higher than to (?)‐THP, with the nK_A of 3.4 × 10³ M^?1 and 1.44 × 10⁵ M^?1, respectively. The binding site of HSA for (?)‐THP was Site I, whereas for (+)‐THP was both Site I and Site II. The F1/S variants of AGP were proved to be the key variants (?)‐ and (+)‐THP binding to both. Finally, the AGP binding drugs, such as mifepristone, were demonstrated to reduce the fraction binding of (?)‐ and (+)‐THP with pure AGP (1 mg/ml) but did not affect the fraction binding of both (?)‐ and (+)‐THP with proteins in human plasma. It can be concluded that protein binding of THP is species dependent and stereoselective, both HSA and AGP contribute to the stereoselective binding to THP enatiomers, and AGP binding drugs may not cause the drug–drug interaction on THP in healthy human plasma. Chirality, 2010. © 2009 Wiley‐Liss, Inc.     

Pharmacokinetics of the enantiomers of verapamil in the dog

The intravenous (0.5 mg/kg) and oral (5 mg/kg) dose kinetics of verapamil were studied in 6 dogs during steady-state oral verapamil dosing (5 mg/kg every 8 h for 3 days). Racemic verapamil and norverapamil, a metabolite of verapamil, were quantitated in plasma by HPLC-fluorescence detection. The verapamil peaks eluting off the column were collected and rechromatographed on an Ultron-OVM column, which resolved the two verapamil enantiomers. After intravenous administration, the systemic clearance and apparent volume of distribution of (?)-(S)-verapamil were nearly twice that of the (+)-(R)-isomer. There was no difference in the elimination half-lives between the two isomers. After oral administration, the oral clearance of (?)-(S)-verapamil was 20 times that of the (+)-(R)-isomer. The apparent bioavailability of (+)-(R)-verapamil was over 14 times that of (?)-(S)-verapamil. The plasma protein binding of the (+)-(R)-isomer was slightly higher by 5% than (?)-(S)-verapamil; however, this effect was not enough to account for the difference between the apparent volume of distribution of the enantiomers, indicating that the tissue binding of (?)-(S)-verapamil was greater than that of the (+)-(R)-isomer. This data on the disposition of the enantiomers of verapamil in the dog is similar to that reported for man and demonstrates that the dog may be an appropriate animal model for man in future studies on the disposition of the enantiomers of verapamil. © 1993 Wiley-Liss, Inc.     

Stereospecific 3H-nicotine binding to intact and solubilized rat brain membranes and evidence for its noncholinergic nature

³H-nicotine binding was performed on intact and solubilized rat brain membranes as well as membranes from the electric organ of the $\text{Torpedo}$ fish. The K_d for binding to intact and solubilized rat brain membranes was 5.6 × 10^?9 M and 1.1 × 10^?8M respectively, and the binding capacity 2.0 × 10^?14 and 3.0 × 10^?13 moles /mg protein respectively. The K_d for Torpedo membranes was 3.1 × 10^?7M and the binding capacity 6.8 × 10^?13 moles/mg protein. The binding was stereospecific with the affinity of the (?)-nicotine being about 8 times greater than the (+)-nicotine with all three preparations. The relative affinity for the nicotine binding site of nicotinic cholinergic drugs was considerably less in rat brain than in $\text{Torpedo}$ membranes, where the sites are mainly cholinergic. A comparison was made of the ability of a variety of cholinergic drugs and nicotine derivatives to compete with ³H-nicotine binding and their relative pharmacologic potency to produce or inhibit a characteristic prostration syndrome caused by (?)-nicotine administered intraventricularly to rats. From such studies it was concluded that nicotine, in part, may be interacting at noncholinergic sites in rat brain.     

Evidence for a cannabinoid receptor in sea urchin sperm and its role in blockade of the acrosome reaction

Delta-9-tetrahydrocannabinol ((?)δ⁹ THC), the primary psychoactive cannabinoid in marihuana, reduces the fertilizing capacity of sea urchin sperm by blocking the acrosome reaction that normally is stimulated by a specific ligand in the egg's jelly coat. The bicyclic synthetic cannabinoid [ H]CP-55,940 has been used as a ligand to demonstrate the presence of a cannabinoid receptor in mammalian brain. We now report that [ H]CP-55,940 binds to live sea urchin (Strongylocentrotus purpuratus) sperm in a concentration, sperm density, and time-dependent manner. Specific binding of [ H]CP-55,940 to sperm, defined as total binding displaced by (?)δ⁹ THC, was saturable: K_D 5.16 ± 1.02 nM; Hill coefficient 0.98 ± 0.004. This suggests a single class of receptor sites and the absence of significant cooperative interactions. Sea urchin sperm contain 712 ± 122 cannabinoid receptors per cell. Binding of [ H]CP-55,940 to sperm was reduced in a dose-dependent manner by increasing concentrations of CP-55,940, (?)δ⁹ THC, and (+)δ⁹ THC. The rank order of potency to inhibit binding of [ H]CP-55,940 to sperm and to block the egg jelly stimulated acrosome reaction was: CP-55,940 > (?)δ⁹THC > (+)δ⁹THC. These findings show that sea urchin sperm contain a stereospecific cannabinoid receptor that may play a role in inhibition of the acrosome reaction. The radioligand binding data obtained with live sea urchin sperm are remarkably similar to those previously published by other investigators using [ H]CP-55,940 on mammalian brain and nonneural tissues. The cannabinoid binding properties of this receptor appear to have been highly conserved during evolution. We postulate that the cannabinoid receptor may modulate cellular responses to stimulation. © 1993 Wiley-Liss, Inc.     

Maturation of muscarinic agonist receptors in rat developing pancreas and its relation to maximal enzyme secretion

The true K_Ds of [³H] (?) QNB binding to muscarinic receptors were found to be 4.13 and 6.43 × 10^?11 M in pancreas of 21 day fetal and adult rats. The competition curves of specific [³H] (?) QNB bound by two antagonists have shown that the affinity of these drugs did not change with age with Hill coefficients near unity. However, with the agonist carbamylcholine as the competitive drug, a more flat curve was obtained with a Hill coefficient below unity. At least two populations of carbamylcholine binding sites were found with different K_Ds: a K_H around 7 × 10^?7 M and a K_L around 3 × 10^?5 M. These two populations were present during all the developmental periods studied. The ED₅₀ of bethanechol stimulated amylase secretion did not change within the age limit studied (from 11 to 365 days). The high affinity sites for carbamylcholine would seem to be the receptor implicated in the physiological response of the pancreas.     

Demonstration of alpha 1-adrenoceptors in guinea pig lung using 3H-prazosin.

³H-prazosin, a new radioligand of high specific radioactivity (33 Ci/mmol) was used to characterise postsynaptic (α₁) adrenoceptors in guinea pig lung membranes. Binding was saturable and of high affinity (K_D 0.24 nM) with a Bmax of 54 fmol/mg protein. Adrenergic agonists competed for binding in the order (?)-epinephrine > (?)-norepinephrine ? (?)-phenyl-ephrine > (?)-isoproterenol. (+)-norepinephrine was 100x less potent than (?)-norepinephrine. α-Adrenergic antagonists competed in the order prazosin > WB 4101 > indoramin > phentolamine > haloperidol > chlorpromazine ? piperoxan > yohimbine, indicating that ³H-prazosin binding is probably to α₁-adrenoceptors. Propranolol, methysergide and sulpiride inhibited binding only at high concentrations. Binding of (?)-³H-dihydroalprenolol under identical experimental conditions gave a K_D of 0.93 nM and a Bmax of 870 fmol/mg protein, giving a ratio of beta : α-adrenoceptor binding sites of 16 : 1 in this lung membrane preparation. ³H-prazosin appears to be a useful ligand in studying α₁-adrenoceptors.     

Synthesis of (+)-(R)- and (−)-(S)-trans-8-hydroxy-2-[N-n-propyl-N-(3′-iodo-2′-propenyl)] aminotetralin: New 5-HT1A receptor ligands

(R,S)-trans-8-Hydroxy-2-[N-n-propyl-N-(3′-iodo-2′-propenyl)amino]tetralin 7 , a new radioiodinated ligand based on 8-OH-DPAT, was reported as a potential ligand for 5-HT_1A receptors. The optically active (+)-(R)- and (?)-(S)- 7 were prepared to investigate the stereoselectivity of (R,S)- 7 . Racemic intermediate 8-methoxy-2-N-n-propyltetralin was reacted with the acyl chloride of (?)-(R)-O-methylmandelic acid to form a mixture of (S,R)- and (R,R)-diastereoisomers, which were separated by flash column chromatography. After removing the N-acyl group from the diastereoisomers, the desired (+)-(R)-or (?)-(S)- 7 was obtained by adding an N-iodopropenyl group. In vitro homogenate binding studies showed the stereoselectivity of this new compound for 5-HT_1A receptors. (+)-(R)- 7 isomer displayed 100-fold higher affinity than the (?)-(S)- 7 isomer. Biochemical study indicated that (+)-(R)- 7 potently inhibited forskolin-stimulated adenylyl cyclase activity in hippocampal membranes (E_max and EC₅₀ were 24.5% and 5.4 nM, respectively), while (?)-(S)- 7 showed no effect at 1 μM. The radioiodinated (+)-(R)- and (?)-(S)-[¹²⁵I] 7 were confirmed by coelution with the resolved unlabeled compound on HPLC (reverse phase column PRP-1, acetonitrile/pH 7.0 buffer, 80/20). The active isomer, (+)-(R)-[¹²⁵I] 7 , displayed high binding affinity to 5-HT_1A receptors (K_d = 0.09 ± 0.02 nM). In contrast, the (?)-(S)- 7 isomer displayed a significantly lower affinity to the 5-HT_1A receptor (K_d > 10 nM). Thus, (+)-(R)-[¹²⁵I]trans-8-OH-PIPAT, (+)-(R)- 7 , an iodinated stereoselective 5-HT_1A receptor agonist, is potentially useful for study of in vivo and in vitro function and pharmacology of 5-HT_1A receptors in the central nervous system. © 1995 Wiley-Liss, Inc.     

Biosynthesis of chiral α- and β-pinenes in pinus species

C-3 of (+) and (?)-α-pinene and of (?)-β-pinene biosynthesized in several Pinus species was derived from C-2 of mevalonate; and the hydrogen at C-5 in all the isomers was derived from that at C-6 in nerol. This pattern is consistent with two routes for bicyclization of the acyclic biosynthetic precursor: one leads to (?)-β-pinene and the other to (+)-α-pinene of opposite absolute configuration. (?)-α-Pinene probably results from subsequent isomerisation of the (?)-β-isomer, and (very small) amounts of (+)-β-pinene result from similar (unfavoured thermodynamically) isomerisation of the (+)-α-isomer.     

Human platelet alpha 2-adrenergic receptors: labeling with 3H-yohimbine, a selective antagonist ligand

³H-Yohimbine, a potent and selective pharmacological antagonist of α₂-adrenergic receptors, labeled human platelet membrane α₂-receptors with high affinity. Binding was rapid and reversible at 25°C. Both saturation and kinetic experiments indicated a single order of binding sites, with an equilibrium K_D value of 1.0–1.5 nM. Low Mg²⁺ concentrations increased the K_D for ³H-yohimbine without altering the B_max. The ³H-yohimbine site exhibited α₂-receptor specificity: (?)-norepinephrine and (?)-isoproterenol were 4.8 and 330 times less potent than (?)-epinephrine; (?)-catecholamines were 17–35 times more potent than corresponding (+)-catecholamines; the selective α₁-antagonist prazosin was 340 times less potent than yohimbine. Catecholamine agonists exhibited shallow curves in inhibiting ³H-yohimbine binding, with pseudo-Hill coefficients (n_H) of less than 1.0, whereas the n_H of antagonists was 1.0. No specific binding of ³H-prazosin to platelet membranes was observed, indicating the absence of α₁-receptors. ³H-Yohimbine labeled fewer platelet sites than did ³H-dihydroergocryptine under identical conditions (80 vs 130 receptors/ cell), and may be a more specific and useful antagonist probe of platelet α₂-receptors than ³H-dihydroergocryptine.     

Binding of [3H] γ-Aminobutyric Acid and [3H]Muscimol in Purified Rat Brain Synaptic Plasma Membranes and the Effects of Bicuculline

Abstract: The binding of [³H] γ-aminobutyric acid ([³H]GABA) and [³H]muscimol has been studied in purified synaptic plasma membrane (SPM) preparations from rat brain. Scatchard analysis of specific binding (defined as that displaced by 100 μMγ-aminobutyrate) indicated that the binding of both radiolabelled ligands was best described by a two component Langmuir adsorption isotherm. The apparent K_D and B_max values for [³H]GABA at 4°C were K_D1, 20 nM; K_D2,165 nM; B_max1, 0.48 pmol;B_max2, 6.0 pmol. mg^?1; for [³H]muscimol at 4°C they were: K_D1, 1.75 nM; K_D2, 17.5 nM; B_maxl, 0.84 pmol. mg^?1; B_max2, 4.8 pmol.mg^?1; and for [³H]muscimol at 37°C they were: K_D1, 7.0 nM; K_m, 60 nM; B_max], 0.5 pmol-mg^?1; B_max2, 7.2 pmol-mg¹. Under the experimental conditions used, the similar B_milx values for [³H]GABA and [³H]muscimol binding to the SPM preparations suggests that the high- and low-affinity components for the two radiolabeled ligands are identical. The effects of the GAB A antagonist bicuculline on the binding of [³H]muscimol at 4^CC and 37°C were studied. At 4°C, antagonism of muscimol binding appeared to be competitive at the high-affinity site but noncompetitive at the low-affinity site. At 37°C, antagonism was again competitive at the high-affinity site but was of a mixed competitive/noncompetitive nature at the low-affinity site. Assuming that binding to the high-affinity site is associated with the pharmacological actions of bicuculline, the apparent K_D values obtained suggest a pA₂ value of 5.3 against [³H]muscimol at 4°C and 37°C. This figure is in good agreement with several estimates of the potency of bicuculline based on pharmacological measurements. Results from displacement studies using [³H]GABA and [³H]muscimol suggest that [³H]GABA might be a more satisfactory ligand than [³H]muscimol in GABA radioreceptor assays.     

Chymotrypsin inhibitory conformation of dipeptides constructed by side chain–side chain hydrophobic interactions

A complete series of configurationally isomers (L -L , L -D , D -L AND D -D ) of a dipeptide Leu-Phe benzyl ester have been synthesized and assayed for chymotrypsin. In the conformational analysis by 400 MMz ¹H NMR, the L -D and D -L isomers, but not hte L -L and D -D isomers, showed fairly large up field shifts (0.2–0.4 ppm) of Leu-βCH₂ and γCH proton signals, indicating the presence of shielding effects from the benzene ring. In addition to distinct signal splitting of Phe-βCH₂, the NOE enhancement observed between Leu-δCH₃ and Phe-phenyl groups revealed that these groups are in close proximity. These data indicated that L -D and D -L isomers from a hydrophobic core between side chains of adjacent Leu and Phe residues. When the dipeptides were examined for inhibition of chymotrypsin using Ac-Try-OEt as a substrate, the L -L isomer showed no inhibition, itself becoming a substrate. However, the other three isomers inhibited chymotrypsin in a competitive manner, and the D -L isomer was strongest with K_i of 2.2 × 10_?5 M . It was found that the D -L isomer was only slowly hydrolysed but the L (or D )-D isomer was not. H-D -Phe-L -Leu-OBzl with the inverse sequence of H-D -Leu-L -Pre-OBzl inhibited chymotrypsin more strongly (K_i = 6.3 × 10^?6 M ). Since the free acid analogue of the D -L isomer exhibited no inhibition, the benzyl ester moiety itself was thought to be involved in the enzyme inhibition. It is assumed that in the inhibitory conformation the ester-benzyl group fits the S₁ site of chymotrypsin, while the side chain-side chain complexing hydrophobic core fits the S₂ site.     

[3H] verapamil binding sites in skeletal muscle tranverse tubule membranes

[³H]verapamil binding to muscle tubule membrane has the following properties. K_D = 27 ± 5 nM and maximum binding capacity B_max = 50 ± 5 pmol/mg of protein. A 1 = 1 stoichiometry of binding was found for the ratio of [³H]verapamil versus [³H] nitrendipine binding sites. The dissociation constant found at equilibrium is near that determined from the ratio of the rate constants for association (k₁) and dissociation (k_?1). Antiarrhythmic drugs like D600, diltiazem and bepridil are competitive inhibitors of [³H]verapamil binding with K_D values between 40 and 200 nM. Dihydropyridine analogs are apparent non competitive inhibitors of [³H]verapamil binding with half-maximum inhibition values (K_0.5) between 1 and 5 nM.     

An investigation into the altered binding mode of green tea polyphenols with human serum albumin on complexation with copper

Green tea is rich in several polyphenols, such as (?)-epicatechin-3-gallate (ECG), (?)-epigallocatechin (EGC), and (?)-epigallocatechin-3-gallate (EGCG). The biological importance of these polyphenols led us to study the major polyphenol EGCG with human serum albumin (HSA) in an earlier study. In this report, we have compared the binding of ECG, EGC, and EGCG and the Cu(II) complexes of EGCG and ECG with HSA. We observe that the gallate moiety of the polyphenols plays a crucial role in determining the mode of interaction with HSA. The binding constants obtained for the different systems are 5.86?±?0.72?×?10⁴ M^?1 (K _ECG-HSA), 4.22?±?0.15?×?10⁴ M^?1 (K _{ECG-Cu(II)-HSA}), and 9.51?±?0.31?×?10⁴ M^?1 (K _{EGCG-Cu(II)-HSA}) at 293?K. Thermodynamic parameters thus obtained suggest that apart from an initial hydrophobic association, van der Waals interactions and hydrogen bonding are the major interactions which held together the polyphenols and HSA. However, thermodynamic parameters obtained from the interactions of the copper complexes with HSA are indicative of the involvement of the hydrophobic forces. Circular dichroism and the Fourier transform infrared spectroscopic measurements reveal changes in α-helical content of HSA after binding with the ligands. Data obtained by fluorescence spectroscopy, displacement experiments along with the docking studies suggested that the ligands bind to the residues located in site 1 (subdomains IIA), whereas EGC, that lacks the gallate moiety, binds to the other hydrophobic site 2 (subdomain IIIA) of the protein.     

Stereospecific (−)-[3H]norepinephrine binding to bovine hypothalamus possible identification of the catecholamine uptake site in synaptic vesicles

A (?)-[³H]norepinephrine binding site was identified in a crude synaptosomal fraction isolated from bovine hypothalamus which bound norepinephrine rapidly, reversibly, and stereospecifically. The results were most consistent with binding of (-)-[³H]norepinephrine to the carrier molecule used to translocate biogenic amines into synaptic vesicles. The binding studies indicated that specific binding of (?)-[³H]norepinephrine to the crude synaptosomal fraction was greatly enhanced by 1 mM MgCl₂ and 1 mM ATP. The increased binding of (?)-[³H]norepinephrine also occured in the presence of MgCl₂ and GTP, but AMP, adenosine and adenyl-5′-yl imidodiphosphate would not substitute for ATP. Neither CaCl₂ nor ZnSO₄ could be substituted for the MgCl₂. In the presence of MgCl₂ and ATP, the dissociation constant for (?)-[³H]norepinephrine was 280 nM with a specific binding site density of 4.8 pmol/mg protein. Binding was stereospecific with ratios of 15, 4, and 6.5 for the affinities of (?)-isomers to (+)-isomers for norepinephrine, epinephrine and isoproterenol, respectively. Drug competition studies, conducted in the presence of Mg²⁺ and ATP, indicated that (?)-epinephrine, (?)-norepinephrine, dopamine and serotonin had inhibitory constants ranging from 0.25 to 0.8 μM with (?)-isoproterenol and tyramine having inhibitory constants around 2 μM. Reserpine was the most potent inhibitor having an inhibition constant of 8.6 ± 0.3 nM. The binding data were not consistent with the specific site being the α- or β-receptors for norepinephrine, the Uptake₁ Site for norepinephrine into synaptosomes or the metabolizing enzymes for norepinephrine.     

Phenylalanine ammonia-lyase: Mirror-image packing of d- and l-phenylalanine and d- and l-transition state analogs into the active site

The binding of substrate and product analogs to phenylalanine ammonia-lyase (EC 4.3.1.5) from maize has been studied by a protection method. The ligand dissociation constants, K_L, were estimated from the variation with [L] of the pseudo-first-order rate constants for enzyme inactivation by nitromethane. The phenylalanine analogs d- and l-2-aminooxy-3-phenylpropionic acid showed K_L, values over 20,000-fold lower than the K_m for l-phenylalanine. From these and other K_L values it is deduced that when the enzyme binds l-phenylalanine the structural free energy stored in the protein is higher than when it binds the superinhibitors. Models for binding d- and l-phenylalanine and the superinhibitors are described. The enantiomeric pairs are considered to have similar K_L values because they pack into the active site in a mirror-image relationship. If the elimination reaction approximates to the least-motion course deduced on stereoelectronic grounds, the mirror-image packing of the superinhibitors into the active site mimics the conformation inferred for a transition state in the elimination. It appears, therefore, that structural changes take place in the enzyme as the transition state conformation is approached causing stored free energy to be released. This lowers the activation free energy for the elimination reaction and accounts for the strong binding by the above analogs.     

Adducts of antimony(V) pentachloride with neutral lewis bases. Part II. Kinetics and reaction mechanism: a variable temperature and variable pressure proton NMR study

The ligand exchange reaction SbCl₅·L + ^*L⇌ SbCl₅·^*L + L has been studied in CH₂Cl₂ and (CHCl₂)₂ as a function of temperature and of pressure by using ¹H NMR. First order rate laws, positive activation entropies ranging from +9.8 to +37.3 cal K⁻¹ mol⁻¹, positive activation volumes from +18.2 to +30.0 cm³ mol⁻¹ and a linear free energy relationship of slope -1.09 ± 0.06 have been observed for a series of L including nitriles, ethers, amides and -PO donor ligands. It is concluded that a limiting dissociative, D, mechanism exists for the whole series of ligand exchange reactions studied.