NMR analysis of a potent decapeptide agonist of human C5a anaphylatoxin

A NMR investigation in H₂0, TFE and DMSO of a conformationally constrained, potent decapeptide agonist of human C5a, YSFKDMPLaR (C5a₆₅-₇₄, Y65, F67, P71, d -Ala73) showed that its N-terminal region (YSFKD) exhibited an extended backbone conformation in H₂O and a more twisted conformation in both TFE/H₂O (30:70, v/v; referred to as TFE) and DMSO. The C-terminal region (MPLaR) of the peptide adopted compact, turn-like structures. In H₂O, the C-terminal region adopted a type II β-turn or a distorted type V/II β-turn involving residues PLaR. In the distorted type V/II β-turn, Leu72 exhibited a conformation typical of a type V β-turn, whereas D -Ala73 exhibited a conformation typical of a type II β-turn. The distorted type V/II β-turn overlapped with an inverse γ-turn involving residues MPL. In DMSO, the C-terminal region had the analogous inverse y-turn and the V/II γ-turn found in H₂O. In many of the DMSO structures, two inverse γ-turns in the MPL and PLa positions formed a double-inverse γ-turn. None of the turns observed in H₂O were present in TFE. However, in TFE, the PLa residues formed an inverse γ-turn. Overall, the turn-like structural motifs in the C-terminal region of the peptide in both H₂O and DMSO (but not in TFE) agreed with the biologically important conformations obtained earlier by the structure-function analysis of a panel of C5a agonist peptides. These motifs may represent key structural elements important for C5a agonist activity and may be used to design the next generation of C5a agonist and antagonist analogues. © Munksgaard 1998.     

Solution structure of a cathelicidin‐derived antimicrobial peptide,CRAMP as determined by NMR spectroscopy

Abstract: CRAMP was identified from a cDNA clone derived from mouse femoral marrow cells as a member of cathelicidin‐derived antimicrobial peptides. This peptide shows potent antimicrobial activity against gram‐positive and gram‐negative bacteria but no hemolytic activity against human erythrocytes. CRAMP was known to cause rapid permeabilization of the inner membrane of Escherichia coli. In this study, the structure of CRAMP in TFE/H₂O (1 : 1, v/v) solution was determined by CD and NMR spectroscopy. CD spectra showed that CRAMP adopts a mainly α‐helical conformation in TFE/H₂O solution, DPC micelles, SDS micelles and liposomes, whereas it has a random structure in aqueous solution. The tertiary structure of CRAMP in TFE/H₂O (1 : 1, v/v), as determined by NMR spectroscopy, consists of two amphipathic α‐helices from Leu⁴ to Lys¹⁰ and from Gly¹⁶ to Leu³³. These two helices are connected by a flexible region from Gly¹¹ to Gly¹⁶. Previous analysis of series of fragments composed of various portion of CRAMP revealed that an 18‐residue fragment with the sequence from Gly¹⁶ to Leu³³ was found to retain antibacterial activity. Therefore, the amphipathic α‐helical region from Gly¹⁶ to Leu³³ of CRAMP plays important roles in spanning the lipid bilayers as well as its antibiotic activity. Based on this structure, novel antibiotic peptides having strong antibiotic activity, with no hemolytic effect will be developed.     

Physical Entrapment of Adriamycin in AB Block Copolymer Micelles

The entrapment of Adriamycin (ADR) in micelles composed of AB block copolymers (poly(ethylene oxide-co--benzyl L-aspartate) (PEO-PBLA)) was investigated. The loading process involved transfer of ADR and PEO-PBLA into an aqueous milieu from dimethyl-formamide (DMF) through a dialysis procedure. Evidence for the physical entrapment of ADR in the polymeric micelles was derived from fluorescence spectroscopy and gel permeation chromatography (GPC). The total fluorescence intensity of ADR was low, suggesting that the drug was self-associated in the micelles. In addition, quenching experiments, using a water-soluble quencher (iodide (I^–)), showed that the fluorescence of ADR present in micellar solutions was largely unaffected by I^–, whereas the fluorescence of free ADR was readily quenched. From Stern-Volmer plots, quenching constants (K_SV) of 2.2 and 17 M^–l were determined for ADR in micellar solutions and free ADR, respectively. As a result of the entrapment of ADR in the micelles, ADR binds only slightly serum albumin as evidenced by GPC. In contrast, ADR readily binds serum albumin in aqueous solutions. The findings suggest that ADR is stably entrapped in PEO-PBLA micelles. ADR entrapment in polymeric micelles is expected to affect markedly the pharmacokinetics of ADR.     

Conformational analysis by NMR and distance geometry techniques of a peptide mimetic of the third helix of the Antennapedia homeodomain*

Abstract: The Antennapedia homeodomain structure consists of four helices. The helices II and III are connected by a tripeptide that forms a turn, and constitute the well‐known helix‐turn‐helix motif. The recognition helix penetrates the DNA major groove, gives specific protein–DNA contacts and forms direct, or water‐mediated, intermolecular hydrogen bonds. It was suggested that helix III (and perhaps also helix IV) might represent the recognition helix of Antennapedia homeodomain, which makes contact with the surface of the major groove of the DNA. In an attempt to clarify the helix III capabilities of assuming an helical conformation when separated from the rest of the protein, we carried out the structural determination of the recognition helix III in different solvent media. The conformational study of fragments 42–53, where residues W48 and F49, not involved in the protein–DNA interaction, were substituted by two alanines, was conducted in sodium dodecyl sulfate (SDS), trifluoroethanol (TFE) and TFE/water, using circular dichroism, nuclear magnetic resonance (NMR) and distance geometry (DG) techniques. The fragment assumes a well‐defined secondary structure in TFE and in TFE/water (90/10, v/v) with an α‐helix encompassing residues 4–9, while in TFE/water (70/30, v/v) a less regular structure was found. The DG results in the micellar system evidence the presence of a distorted α‐helical conformation involving residues 4–8. Our results reveal that the isolated Antennapedia recognition helix III tend to preserve in solution the α‐helical conformation even if separated from the rest of the molecule.     

Synthesis and secondary structural studies of penta(acetyl-Hmb)Aβ(1–40)

Abstract: The Fmoc solid phase synthesis of Aβ(1–40), a strongly aggregating peptide found in Alzheimer’s disease brain, was performed using 2-hydroxy-4-methoxybenzyl (Hmb) backbone amide protection. Hmb-Gly residues were incorporated using N^α-Fmoc-Hmb-Gly-OH rather than N,O-bisFmoc-Hmb-Gly-OPfp. Amino acid acylation of the sterically hindered Hmb-amino acids was monitored using ‘semi-on-line’ MALDI-TOF-MS in a novel application of this technique which significantly simplified the successful incorporation of these residues. Standard coupling conditions in N,N-dimethylformamide (DMF) were used throughout the synthesis. Comparative structural studies of acetyl-Hmb-protected and native Aβ(1–40) were performed to investigate the structural basis of Hmb-mediated disaggregation. The incorporation of backbone amide protection was observed by circular dichroism spectroscopy and gel electrophoresis to strongly affect the solution structure of Aβ(1–40). Despite the reported structure-breaking activity of Hmb groups, penta(acetyl-Hmb)Aβ(1–40) was found to adopt both α-helix and intermolecular β-sheet conformations. In 100% TFE a mixed α-helix/random coil structure was formed by the protected peptide indicating reduced α-helical propensity relative to Aβ(1–40). The protected peptide formed β-sheet structures in aqueous buffer. Gel electrophoresis indicated that, unlike native Aβ(1–40), penta(acetyl-Hmb)Aβ(1–40) did not form large aggregate species.     

Neuropeptide Y and neuropeptide Y18-36 Structural and biological characterization

Neuropeptide Y (NPY), a 36-residue peptide amide, has been shown by numerous studies to be a potent vasoconstrictor. In order to gain an appreciation of the structural requirements for this action, we have previously synthesized a number of fragments of NPY. It had been shown that sequential deletions from the N-terminus resulted in peptides with decreasing hypertensive activity. In the present study we present data supporting the unexpected finding of two fragments, NPY_17-36 and NPT_18-36 with substantial hypotensive action in vivo. This action was dose dependent (data not shown) and was also observed to a lesser extent with NPY_19-36 but not NPY_16-36 or NPY_20-36. It was, however, slower in onset and of longer duration than the hypertensive action of NPY. These differing kinetics of action may suggest that NPY and NPY_18-36 act through different mechanisms. Structural studies using circular dichroism were performed. While NPY was found to assume an ordered helical structure in both aqueous buffer and trifluoroethanol (TFE), 30% TFE in aqueous buffer was required to induce substantial helicity for NPY_18-36. This structural investigation suggests that both NPY and NPY_18-36 assume an ordered conformation upon reaching the lipid rich receptor environment.     

Characterization of the solution conformations of leuprolide acetate

Abstract: Leuprolide acetate (pGlu‐His‐Trp‐Ser‐Tyr‐d ‐Leu‐Leu‐Arg‐Pro‐NHEt), a potent LHRH agonist in wide clinical use, was characterized conformationally by NMR and circular dichroism. It displayed quite different preferred conformations under different solution conditions: two low population β‐turns in water, a nascent helix in TFE/water at low pH, and a high population β‐turn in TFE/water at slightly acidic pH. The pH‐related conformational change in TFE/water is attributed to the pK_a of the acetate counterion, not to ionizable groups on the peptide. None of these conformations are in exact agreement with previous computational predictions.     

Cross-talk between β<Subscript>1</Subscript>-adrenoceptors and ET<Subscript>A</Subscript> receptors in modulation of the slow component of delayed rectifier K<Superscript>+</Superscript> currents

Delayed rectifier K⁺ currents (I_K) play a critical role in determining cardiac action potential duration (APD). Modulation of I_K affects cardiac excitability critically. There are three components of cardiac delayed rectifier, and the slowly activating component (I_Ks) is influenced strongly by a variety of stimuli. Plasma levels of noradrenaline and endothelin are elevated in heart failure, and arrhythmias are promoted by such humoral abnormalities through modulation of ion channels. It has been reported that protein kinase A (PKA) and protein kinase C (PKC) modulate I_Ks from human minK in a complex manner. In the present study, we coexpressed human minK with the human ₁-adrenoceptor (h₁AR) and the endothelin receptor subtype A (hET_AR) in Xenopus oocytes and investigated the effects of receptor activation on the currents (I_Ks) flowing through the oocytes. ET-1 modulated I_Ks biphasically: a transient increase followed by a decrease. The PKC inhibitor chelerythrine completely inhibited the effects of ET-1. Intracellular EGTA abolished the transient increase by ET-1 and partially inhibited the subsequent decrease in the currents. When I_Ks was increased by 10^–6 M isoproterenol (ISO), ET-1 did not increase but rather decreased the current to an even greater extent than under control conditions. In addition, the effects of ISO on I_Ks were suppressed by ET_AR stimulation. These data indicate that I_Ks can be regulated by cross-talk between the ET_AR and ₁AR systems in addition to direct regulation by each receptor system.     

Pepsin-catalyzed peptide synthesis in organic media: studies with free and immobilized enzyme

Pepsin-catalyzed synthesis of protected peptides was studied in two-phase systems containing up to 50% (by volume) of aqueous phase. A methodological study was carried out to determine the optimum conditions for the synthesis of the model protected peptide Z-Phe-Phe-OMe. Several parameters such as concentrations of carboxylic and amino components, pH of the aqueous phase, ratio of organic to aqueous phase volumes and nature of the organic solvent were investigated. It was observed that the most hydrophobic solvents produced the best yields, despite the low solubility of substrates in these media. The log P of the solvent could be used to predict the solvent effect over the reaction yields. Pepsin immobilized by adsorption onto the solid supports Celite and Chromosorb was employed to perform a study of secondary specificity of the enzyme in organic media through the coupling between Z-X-Phe-OH (X = Ala, Asp, Glu, Gly, Phe, Ile, Val, Trp and Tyr) and Phe-OMe. This investigation was performed in two solvent systems: (A) ethyl acetate:citrate buffer pH 4.5 (98:02, v:v) and (B) acetonitrile:citrate buffer pH 4.5 (96:04, v:v). Reaction rate data showed that pepsin had a preference for more hydrophilic substituents in the P₂ position. These data are in contrast to the literature for a similar reaction performed in predominantly aqueous media. Thus, for mainly organic media, partition phenomena are very important and may cause an apparent modification of enzyme specificity.     

Induction of the oscillatory current by low concentrations of caffeine in sheep cardiac Purkinje fibres

Summary The actions of low concentrations of caffeine (0.5–2 mmol/1) on the transient inward oscillatory current (I_os) and the inward tail current (I_ex) were studied in sheep cardiac Purkinje fibres by means of a two microelectrode voltage clamp method. The following results were obtained. Caffeine: 1. induced an I_os when this current was not already present; 2. increased the amplitude (within limits) and consistently decreased the time to peak of an already present I_os; 3. increased I_ex upon which I_os may be superimposed; 4. shifted the depolarizing threshold for the appearance of I_os to more negative and the repolarizing threshold to less negative values; 5. increased the effects of strophanthidin of I_os and I_ex; 6. exaggerated the effects of high [Ca]_o which by itself mimicked some of the actions of caffeine; 7. had a small effect of I_os and I_ex in low [Ca]_o; 8. reversed the effect of norepinephrine on I_ex; 9. enhanced the effects of trains of clamps and of longer clamp steps on I_os and I_ex. It is concluded that low concentrations of caffeine facilitate the manifestations of calcium overload thereby inducing or exaggerating the oscillatory and tail currents and that these effects are modulated by the cellular calcium load but are not mediated through adrenergic mechanisms. Send offprint requests to M. Vassalle at the above address     

Preformulation Stability Studies of the New Dipeptide Angiotensin-Converting Enzyme Inhibitor RS-10029

The degradation kinetics, products, and mechanisms of RS-10029 (2), 2-[2-[(l-carboxylic acid)-3-phenylpropyl]amino-l-oxopropyl] 6,7-dimethoxy- 1,2,3,4-tetrahydroisoquinoline-3-carboxylic acid (S,S,S), in aqueous solutions from pH 1 to pH 13 were studied at 50, 60, and 80°C. Pseudo-first-order kinetics were obtained throughout the entire pH range studied, and the log(rate)-pH profile reflected four kinetic processes (k _o, k_o, k_o, and k _OH) as well as the three pk _a's of 2. Excellent mass balance (>96%) was obtained for the four major products 3–6 throughout the entire pH range studied even though four other minor products can be detected by high-performance liquid chromatography (HPLC). At pH 8.0 and below, intramolecular aminolysis leading to diketopiperazine (DKP) 5 accounted for greater than 65% of the neutral or water-catalyzed (k _o and k_o) processes. Amide hydrolysis leading to products 3 and 4 and epimerization of DKP 5 to the (R,S,S) diastereomer 6 accounted for the remaining 35% of the neutral or water catalyzed processes. At pH values above 8.0, DKP 5 formation begins to decrease as the amide hydrolysis increases so that both mechanisms account for the neutral or water-catalyzed k_o process. Above pH 11.0 amide hydrolysis dominates and is responsible for the specific base-catalyzed (k _OH) process. The four minor products detected by HPLC are two diastereomers (7 and 8) of 2 and the two diastereomers (9 and 10) of the DKP 5. The stability results between 2 and its ester prodrug (1) are compared.     

Radiosynthesis of 2-[6-chloro-2-(4-iodophenyl)imidazo[1,2-a]pyridin-3-yl]-N-ethyl-N-[11C]methyl-acetamide, [11C]CLINME,a novel radioligand for imaging the peripheral benzodiazepine receptors with PET

Recently, a new 2-(iodophenyl)imidazo[1,2-a]pyridineacetamide series has been developed as iodine-123-labelled radioligands for imaging the peripheral benzodiazepine receptors using single photon emission tomography. Within this series, 2-[6-chloro-2-(4-iodophenyl)-imidazo[1,2-a]pyridin-3-yl]-N-ethyl-N-methyl-acetamide (CLINME) was considered as an appropriate candidate for positron emission tomography imaging and was isotopically labelled with carbon-11 (T_1/2: 20.38 min) at the methylacetamide side chain from the corresponding nor-analogue using [¹¹C]methyl iodide and the following experimental conditions: (1) trapping at −10°C of [¹¹C]methyl iodide in a 1/2 (v:v) mixture of DMSO/DMF (300 µl) containing 0.7–1.0 mg of the precursor for labelling and 3–5 mg of powdered potassium hydroxide (excess); (2) heating the reaction mixture at 110°C for 3 min under a nitrogen stream; (3) diluting the residue with 0.6 ml of the HPLC mobile phase; and (4) purification using semi-preparative HPLC (Zorbax^® SB18, Hewlett Packard, 250 × 9.4 mm). Typically, starting from a 1.5 Ci (55.5 GBq) [¹¹C]CO₂ production batch, 120−150 mCi (4.44–5.55 GBq) of [¹¹C]CLINME were obtained (16–23% decay-corrected radiochemical yield, n=12) within a total synthesis time of 24–27 min (Sep-pak^®Plus-based formulation included). Specific radioactivities ranged from 0.9 to 2.7 Ci/µmol (33.3–99.9 GBq/µmol) at the end of radiosynthesis. Copyright © 2007 John Wiley & Sons, Ltd.     

Synthesis of 1‐(2′‐deoxy‐2′‐fluoro‐β‐D‐arabinofuranosyl)‐[Methyl‐11C]thymine ([11C]FMAU) via a Stille cross‐coupling reaction with [11C]methyl iodide

1‐(2′‐deoxy‐2′‐fluoro‐β‐D‐arabinofuranosyl)‐[methyl‐¹¹C]thymine ([¹¹C]FMAU) [¹¹C]‐ 1 was synthesised via a palladium‐mediated Stille coupling reaction of 1‐(2′‐deoxy‐2′‐fluoro‐β‐D‐arabinofuranosyl)‐5‐(trimethylstannyl)uracil 2 with [¹¹C]methyl iodide in a one‐pot procedure. The reaction conditions were optimized by screening various catalysts and solvents, and by altering concentrations and reaction temperatures. The highest yield was obtained using Pd₂(dba)₃ and P(o‐tolyl)₃ in DMF at 130°C for 5 min. Under these conditions the title compound [¹¹C]‐ 1 was obtained in 28±5% decay‐corrected radiochemical yield calculated from [¹¹C]methyl iodide (number of experiments=7). The radiochemical purity was >99% and the specific radioactivity was 0.1 GBq/μmol at 25 min after end of bombardment. In a typical experiment 700–800 MBq of [¹¹C]FMAU [¹¹C]‐ 1 was obtained starting from 6–7 GBq of [¹¹C]methyl iodide. A mixed ¹¹C/¹³C synthesis to yield [¹¹C]‐ 1 /(¹³C)‐ 1 followed by ¹³C‐NMR analysis was used to confirm the labelling position. The labelling procedure was found to be suitable for automation. Copyright © 2002 John Wiley & Sons, Ltd.     

Solid state and solution conformation of Boc-L-Met-Aib-L-Phe-OMe

The conformation of the peptide Boc-L-Met-Aib-L-Phe-OMe has been studied in the solid state and solution by X-ray diffraction and ¹H n.m.r., respectively. The peptide differs only in the N-terminal protecting group from the biologically active chemotactic peptide analog formyl-L-Met-Aib-L-Phe-OMe. The molecules adopt a type-II ß-turn in the solid state with Met and Aib as the corner residues (øMet =- 51.8^o, øMet = 139.5^o, øAib = 58.1^o, øAib = 37.0^o). A single, weak 4 -> 1 intramolecular hydrogen bond is observed between the Boc CO and Phe NH groups (N—O 3.25 Å, N-H—O 128.4^o). ¹Hn.m.r. studies, using solvent and temperature dependencies of NH chemical shifts and paramagneti radical induced line broadening of NH resonances, suggest that the Phe NH is solvent shielded in CDCI₃ and (CD₃)₂SO. Nuclear Overhauser effects observed between Met Cα H and Aib NH protons provide evidence of the occurrence of Met-Aib type-II ß-turns in these solvents.     

A pH/enzyme-responsive polymer film consisting of Eudragit® FS 30 D and arabinoxylane as a potential material formulation for colon-specific drug delivery system

Polymer film based on pH-dependent Eudragit^® FS 30 D acrylic polymer in association with arabinoxylane, a polysaccharide issued from gum psyllium, was produced by way of solvent casting. Physical-chemical characterization of the polymer film samples was performed by means of thermogravimetry (TGA), differential scanning calorimetry (DSC), and scanning electron microscopy (SEM). Furthermore, water-equilibrium swelling index (I_s) and weight loss of the films in KCl buffer solution of pH 1.2, in KH₂PO₄ buffer solution of pH 5.0, or in KH₂PO₄ buffer solution of pH 5.0 consisting of 4% enzyme Pectinex^® 3X-L (w/v) were also carried out for the film characterization. No chemical interactions between the Eudragit^® FS 30 D and the arabinoxylane polymer chains were evidenced, thus suggesting that the film-forming polymer structure was obtained from a physical mixture of both polymers. The arabinoxylane-loader films showed a more pronounced weight loss after their immersion in buffer solution containing enzyme Pectinex^® 3X-L. The introduction of the arabinoxylane makes the film more susceptible to undergo an enzymatic degradation. This meant that the enzyme-dependent propriety issued from the arabinoxylane has been imprinted into the film formulation. This type of polymer film is an interesting system for applications in colon-specific drug delivery system.     

Use of the excluded protecting group (EPG) method for peptide synthesis

Abstract: The excluded protecting group (EPG) method has been used for the solution synthesis of several peptides including Merrifield's Model Tetrapeptide, linear antamanide and an analogue of magainin‐1, [Ala¹⁹, Asn²²]magainin‐1. In the approach reported, the C‐terminal amino acid is esterified to the 2‐position of cholestane as the [2s,3s]iodohydrin ester and the penultimate amino acid added to the aminoacyl‐steroid as the Fmoc‐pentafluorophenyl‐ester. The Fmoc group is removed with Et₂NH/DMF (～15% v/v) and, after evaporation to ～10 mL, the solution chromatographed on Sephadex LH‐20 in DMF. The dipeptidyl‐steroid elutes as the free amine well separated from other reaction mixture components. Fractions containing the dipeptide, as determined by counting and TLC, are pooled and reacted with the next Fmoc‐amino acid‐pentafluorophenyl ester in the sequence. Repetition of the deprotection/purification/reaction cycle yields the fully protected peptide.On completion of the synthesis, the cholestane iodohydrin ester is selectively removed by treatment with Zn°/AcOH to yield the peptide with intact α‐amino and side chain protecting groups. Global deprotection is achieved with HF. All intermediates from the syntheses reported were characterized. The magainin analogue was shown to have full biologic activity. The Fmoc iodohydrin esters of 16 of the 20 proteogenic amino acids have been prepared and characterized for use as the C‐terminal amino acids in other EPG syntheses.     

Transient outward current (I A) in clonal anterior pituitary cells: blockade by aminopyridine analogs

Summary Whole cell voltage-clamp recordings from GH₃ cells, a clonal cell line derived from a rat anterior pituitary tumor, demonstrated a rapidly activating and inactivating (transient) voltage-dependent outward current. This current, referred to as I _A, was elicited by step depolarization from holding potentials negative to –50 mV, showed strong outward rectification at potentials positive to –30 mV, and exhibited steady state inactivation with V _1/2 near –64 mV. The current rose to a peak within < 10–20 ms following depolarization and decayed in two exponential phases, I _Af and IA _AS with time constants of 30–50 and 500–700 ms, respectively. Both I _A components exhibited similar voltage dependencies for activation and inactivation. Aminopyridines (2 mol/l – –5 mmol/l) produced a dose dependent, reversible blockade of I _A (70% inhibition at 0.5 to 2 mmol/l) with the following rank order of potencies: 4-aminopyridine > 3,4-diaminopyridine = 3-aminopyridine > 2-aminopyridine. These drugs reduced the peak conductance of I _A, and produced complex effects on its time-dependent decay. With submaximal degrees of block, there was an increase in the inactivation rate, suggesting that open channels are preferentially blocked by the drugs. It is concluded that GH₃ pituitary cells possess an aminopyridine-sensitive transient outward current comparable to the A-current in neural cells. However, this cell line is unusual in that it expresses both rapidly and slowly decaying A-current components.Abbreviations n-AP n-aminopyridine - 3,4-DAP 3,4-diaminopyridine - TEA tetraethylammonium - EGTA ethylene glycol bis(-aminoethyl ether)N,N-tetraacetic acid - HEPES 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid Send offprint requests to M. A. Rogawski at the above address     

A pharmacological method to estimate the pK I of competitive inhibitors of agonist uptake processes in isolated tissues

Summary An equation is derived from a mathematical model (proposed by Furchgott) which, under certain circumstances, estimates the pK _I (-log dissociation constant) of a competitive inhibitor of agonist uptake by utilizing the sensitization of isolated tissues, to the substrate-agonist, by uptake inhibition. The method is theoretically more sound and appears to be improved by the use of potency-ratios of the substrate-agonist and an agonist which is not a substrate for the uptake process since this allows for the detection and correction of receptor and toxic effects of uptake inhibitors. The pK _I values of cocaine, desmethylimipramine and imipramine for the neuronal uptake of norepinephrine were estimated by this method in guinea-pig tracheae and left atria. Also, the pK _I values for 17 -oestradiol, corticosterone, clonidine and metanephrine for the extraneuronal uptake of isoproterenol were estimated in guinea-pig tracheae (and cat left atria for 17 -oestradiol). All estimates were consistent with literature pK _I values obtained biochemically with radiolabelled substrates.