Renal brush border membrane bound intrinsic factor

A highly active receptor for intrinsic factor (IF)-cobalamin (Cbl) complex has been detected and reported in mammalian kidney earlier (Seetharam, B., et al. (1988) J. Biol. Chem. 263, 4443-4449). The physiological role of this receptor in normal Cbl homeostasis is not known. In addition to binding of exogenously added IF-[57Co]Cbl, the renal apical membranes contain endogenous IF or IF-Cbl. Washing with pH 5/EDTA buffer enhanced the binding of exogenously added IF-[57Co]Cbl to renal apical but not basolateral membranes. The pH 5/EDTA extract from renal apical membranes bound [57Co]Cbl. The complex also bound to rat ileal brush border membrane and promoted ileal transport of [57Co]Cbl. On immunoblots using monospecific antiserum to IF a 62 kDa protein was identified in renal and intestinal apical membranes, serum and in tissue extracts of unperfused rat liver, kidney and heart. The 62 kDa band was eliminated from the renal apical membranes following pH 5/EDTA wash. Rat urine demonstrated unsaturated [57Co]Cbl binding (0.2 to 0.4 pmol/day) of which only 30-40% was immunoprecipitated with anti IF and could be identified on immunoblots. The identification of IF in rat renal apical membranes (160-200 ng/mg protein) and secretion of only traces of IF in urine suggest that the renal IF-Cbl receptor may play a role in sequestering IF/IF-Cbl and prevent urinary loss of Cbl.     

Functional expression of intrinsic factor-cobalamin receptor by renal proximal tubular epithelial cells.

Previous studies from our laboratory (Seetharam, B., Levine, J. S., Ramasamy, M., and Alpers, D. H. (1988) J. Biol. Chem. 263, 4443-4449; Fyfe, J. C., Ramanujam, K. S., Ramaswamy, K., Patterson, D. F., and Seetharam, B. (1991) J. Biol. Chem. 266, 4489-4494) have identified and isolated a 230-kDa receptor from rat and canine kidney which binds with high affinity [57Co]cyanocobalamin (Cbl) complexed to gastric intrinsic factor (IF). Although these studies have identified a renal receptor which binds intrinsic factor-cobalamin (IFCR), it is not known whether the binding is specific for IF-Cbl and whether renal cells internalize [57Co]Cbl bound to IF and transport [57Co]Cbl across the cell. Using a variety of renal cells, our results show that IF-[57Co]Cbl binding activity is detected in proximal tubular-derived epithelial cells from opossum (OK) and porcine kidney (LLC-PK1) but not in distal tubular-derived cells from canine kidney cells (MDCK). Metabolic labeling studies with Tran 35S-label confirmed the presence of a 230-kDa IFCR in OK and LLC-PK1 cells. Cell surface labeling and binding studies demonstrated that IFCR is targeted to the apical membrane. This apical expression of IFCR in OK cells is inhibited by the microtubule-disruptive drugs, colchicine and nocodazole. Opossum kidney cells when grown on culture inserts are polarized and transport [57Co]Cbl only when bound to IF and not to other Cbl binders. Furthermore, the transport of [57Co]Cbl occurred unidirectionally from the apical to the basolateral surface. Treatment of cells with colchicine or nocodazole inhibited the surface binding of IF-[57Co]Cbl as well as the transcytosis of [57Co]Cbl by 70-75%. IFCR retained intracellualarly by incubation of cells with colchicine or nocodazole is degraded by leupeptin-sensitive proteases. Based on these results, we suggest that proximal tubular-derived epithelial cells transport [57Co]Cbl bound to IF in a saturable way via receptor-mediated endocytosis.     

Cubilin and megalin expression and their interaction in the rat intestine: effect of thyroidectomy

Cubilin is a 460-kDa multipurpose, multidomain receptor that contains an NH(2)-terminal 110-residue segment followed by 8 epidermal growth factor (EGF)-like repeats and a contiguous stretch (representing nearly 88% of its mass) of 27 CUB (initially found in complement components C1r/C1s, Uegf, and bone morphogenic protein-1) domains. Cubilin binds to intrinsic factor (IF)-cobalamin (cbl, vitamin B(12)) complex and promotes the ileal transport of cbl. The 460-kDa form of cubilin is the predominant form present in the apical brush-border membranes of rat intestine, kidney, and yolk sac, but a 230-kDa form of cubilin is also noted in the intestinal membranes. In thyroidectomized (TDX) rats, levels of intestinal brush-border IF-[(57)Co]-labeled cbl binding, 460-kDa cubilin protein levels and tissue (kidney) accumulation of cbl were reduced by approximately 70%. Immunoblot analysis using cubilin antiserum of intestinal total membranes from TDX rats revealed cubilin fragments with molecular masses of 200 and 300 kDa. Both of these bands, along with the 230-kDa band detected in the total membranes of control rats and unlike the 460-kDa form, failed to react with antiserum to EGF. Mucosal membrane cubilin associated with megalin was reduced from approximately 12% in control to approximately 4% in TDX rats, and this decreased association was not due to altered megalin levels. Thyroxine treatment of TDX rats resulted in reversal of all of these effects, including an increase to nearly 24% of cubilin associated with megalin. In vitro, megalin binding to cubilin occurred with the NH(2)-terminal region that contained the EGF-like repeats and CUB domains 1 and 2 but not with a downstream region that contained CUB domains 2-10. These studies indicate that thyroxine deficiency in rats results in decreased uptake and tissue accumulation of cbl caused mainly by destabilization and deficit of cubilin in the intestinal brush border.     

Immunocytochemical localization of the intrinsic factor-cobalamin receptor in dog-ileum: distribution of intracellular receptor during cell maturation

Absorption of cobalamin is facilitated by the binding of the intrinsic factor-cobalamin complex (IF-cbl) to specific receptors in the ileum. The physical and biochemical characteristics of this ligand-receptor binding reaction have been extensively studied, but little is known about the cellular mechanisms or receptor synthesis, intracellular transport, and expression on the microvillus surface membrane. We attempted to delineate these mechanisms by using ultrastructural immunocytochemistry to localize the IF-cbl receptor in the crypt, mid-villus, and villus tip regions of mucosal biopsies obtained from the ileum of anesthetized dogs. Prior to initiating the ileal localization studies, the antisera to purified canine IF-cbl receptor that was employed in our studies was shown to have specificity for site (e.g., ileal enterocytes vs. other cells within the gastrointestinal tract) and immunohistochemical specificity. Receptor synthesis in endoplasmic reticulum begins in crypt enterocytes, but continues in cells throughout the villus. In the mid-villus region synthesized receptor translocates vectorially to the microvillus surface associated with membranous vesicles and then inserts into the microvillus pit. Receptor remains fixed to the microvillus pit and does not distribute uniformly over the brush border membrane. All villus tip enterocytes contained IF-cbl receptor in microvillus pits, vesicles, and endoplasmic reticulum, but in addition extensive perinuclear membrane staining was evident as well as re-internalized receptor associated with multivesicular bodies. Basolateral membranes contained no receptor at any level of the villus. These observations suggest that the IF-cbl receptor (a) translocates to the apical cell surface at the mid-villus region by transport in vesicles, (b) directly inserts into and then remains fixed in microvillus pits, (c) is elaborated on the luminal surface most extensively in villus tip cells, and (d) although reinternalized, does not move IF and/or cbl to the basolateral cell surface.     

Nuclear binding of cortisol in intestinal mucosa and liver of a teleost fish (Salmo gairdnerii irideus)

Nuclear binding of corticosteroids in fish tissues was investigated in two target organs of the trout $\text{Salmo gairdnerii irideus}$: the liver and the intestinal mucosa. Incubation of intact nuclei with [³H]-cortisol or [³H]-dexamethasone failed to demonstrate high-affinity binding of these steroids to proteins. Exchange assay of [³H]-cortisol in high-salt nuclear extracts indicated an association constant Ka = 1.9 × 10⁴ M^?1 for intestinal mucosa and 2.1 × 10⁴ M^?1 for liver. In sea water-adapted trout, the association constant remained the same as in fresh water.These results extend previous observations obtained on the cytosol which showed that no high-affinity receptors could be disclosed in fish tissues using these two corticosteroids.     

Inhibition of thyrotropin binding to human thyroid plasma membranes by thyroid hormones and "reverse triiodothyronine".

Triiodothyronine, reverse triiodothyronine and thyroxine were found to inhibit ¹²⁵I labelled thyrotropin binding to human thyroid plasma membranes in vitro. Both the thyrotropin binding and the effect of the above iodoamino-acids on this binding were pH, temperature and time dependent, 50% inhibition of thyrotropin binding was observed at 2×10^?7M concentration of reverse triiodothyronine or thyroxine and at 1.1 × 10^?6M concentration of triiodothyronine. The kinetic studies of thyrotropin binding revealed that the maximal capacity of receptor sites for the pituitary hormone is unaffected by the presence of thyroid hormones. On the other hand the association and dissociation constants for thyrotropin binding changed when iodoaminoacids were present in the incubation medium /Ka 8.13 × 10⁷M^?1 vs 1.6 × 10⁸M^?1 and Kd 1.14 × 10^?8M vs 4.55 × 10^?9M respectively, depending on the pH/. The double reciprocal plots showed competitive mechanism of inhibition. The present study suggest that triiodothyronine, reverse triiodothyronine and thyroxine are able to modify the thyrotropin binding to membrane receptors.     

Stimulation by ATP of [3H]dopamine binding to synaptic membrane fractions of canine caudate nucleus

The rate of [³H]dopamine binding to crude synaptic membranes from canine caudate nucleus was considerably increased by 2 mM ATP, 5′-adenylylimidodiphosphate and GTP or by 1 mM 5′-guanylyl-imidodiphosphate, while strongly inhibited by 2 mM ADP and GDP. Half maximal concentrations of [³H]dopamine to bind to the membranes were 1.11 × 10^?7M and 8.75 × 10^?6M in the absence of 4 mM ATP, indicating a negative cooperativity of the dopamine receptor, and 9.25 × 10^?7 M in its presence. Hill coefficient was increased from 0.70 to 1.04 by addition of 4 mM ATP. The optimal concentration of ATP for [³H]dopamine binding was in the range of 0.5 to 5 mM.     

Characterization of the binding of a rat somatomedin to receptors in human placental cell membranes.

The somatomedins presumably initiate their growth promoting effects by first binding to specific cell surface receptors in responsive tissues. The specific and high affinity binding of [¹²⁵I]-rat somatomedin to human placental membranes was saturable and reversible with a dissociation constant of 4.5 × 10^?9 M calculated from Scatchard analysis of competitive binding experiments. Competition for [¹²⁵I]-rat somatomedin binding to placental receptors by other somatomedins and growth factors suggest a close structural relationship between rat somatomedin and the human somatomedin, insulin-like growth factor I.     

The measurement of free nitrendipine in human serum by an equilibrium dialysis - radioreceptor assay

A radioreceptor assay using [³H]nitrendipine and rat cerebral cortical membranes, in conjunction with equilibrium dialysis, measures the unbound (free) level of nitrendipine in human sera. The sensitivity of the assay is 0.1–0.2 picomoles/ml and is linear from 4 × 10^?11 to 4 × 10^?9 M nitrendipine. Other dihydropyridine calcium channel antagonists may be measured using this assay if these compounds are used to generate the standard curve. Blank serum interferes with specific [³H]nitrendipine binding (24 percent inhibition per 20 μ1 serum) whereas serum dialysates do not. Total serum nitrendipine levels may be measured, but the sensitivity of the assay is decreased due to interference by serum. Nitrendipine is highly protein bound in serum (93 – 99 percent). This protein binding is essentially unchanged over a serum concentration from 1 to 100 ng/ml. This assay is suitable for pharmacokinetic and pharmacodynamic studies.     

High affinity binding of the transcobalamin II–cobalamin complex and mRNA expression of haptocorrin by human mammary epithelial cells

Little is known about the acquisition of cobalamin by the mammary gland and its secretion into milk. Human milk and plasma contain at least two types of cobalamin binding proteins: transcobalamin II (TC) and haptocorrin (HC). In plasma, TC is responsible for the transport of cobalamin to tissues and cells; however, cobalamin in milk is present exclusively bound to HC. We show that human mammary epithelial cells (HMEC) exhibit high affinity for TC; Scatchard analysis revealed a single class of binding sites for the TC–[⁵⁷Co]cyanocobalamin complex with a dissociation constant (K_d) of 4.9×10⁻¹¹ M. Uptake of the TC–[⁵⁷Co]cyanocobalamin complex at 37°C was saturable by 24 h. Binding of free [⁵⁷Co]cyanocobalamin to HMEC was not saturable and very limited binding of the HC–[⁵⁷Co]cyanocobalamin complex was observed. Expression of the haptocorrin gene by HMEC was confirmed by Northern blot and PCR analysis. Thus, a specific cell surface receptor for the TC–cobalamin complex exists in the mammary gland and once cobalamin is internalized, it may be transferred to HC and subsequently secreted into milk as a HC–cobalamin complex.     

Macrocyclic complexes: synthesis,characterization, antitumor and DNA binding studies

Abstract

The present paper deals with the synthesis of novel macrocyclic complexes of the type [MLX]X, where [(M?=?Co(II) (1), and Ni(II) (2) X?=?(Cl₂)]. The complexes are synthesized by the reaction of ligand(L)diquinolineno[1,3,7,9]tetraazacyclododecine-7,15-ethane(14H,16H)-benzene with the corresponding metal salts. The synthesized complexes are thoroughly characterized by elemental analysis, FT-IR, ¹H-NMR, Mass and electronic spectra. The complexes (1) and (2) were evaluated for in vitro cytotoxicity against human breast adenocarcinoma cell (MCF-7). MTT cytotoxicity studies shows both the complexes are most effective. The binding properties of these complexes with calf thymus-DNA were studied by absorption, emission spectra, viscosity measurements, and thermal denaturation studies. On binding to CT-DNA, the absorption spectrum undergoes bathochromic and hypochromic shifts. The absorption spectral results indicate that the intrinsic binding constant (K_b) are 4.8?×?10⁵?M^?1 for (1) and 3.9?×?10⁵?M^?1 for (2) respectively, suggesting that complex (1) binds more strongly to CT-DNA than complex (2). The viscosity measurement results revealed the viscosity of sonicated rod like DNA fragments increased when the complex was added to the solution of CT-DNA. The synthesized ligand and its metal complexes are screened for antibacterial and antifungal activities.     

Synthesis,DNA Binding,and Photonuclease Activity of New Tetraaza Macrocyclic Constrained Isoxazole Rings as Subunit in Metal Complexes

The DNA-binding and photonuclease activity of newly synthesized tetra-azamacrocyclic ligand L (C₃₂H₃₂N₈O₄) and its complexes of type [MLCl₂] and [ML]Cl₂ (where M = Co(II), Fe(II) and Cu(II); L = N,N′-[3-(4-{5-[(2-amino-ethylamino)-methyl]-isoxazol-3yl}-phenyl)-isoxazol-5-yl methyl-ethane-1,2-diamine] are specified. An octahedral geometry has been proposed for Fe(II) and Co(II) complexes, while the Cu(II) complex has a square planar environment. The absorption spectral results indicate that the complexes bind with the base pairs of DNA, with an intrinsic binding constant K_b of Fe(II), Co(II), and Cu(II) complexes found to be 3.2 × 10⁴ M^?1, 5.3 × 10⁴ M^?1, and 4.2 × 10⁴ M^?1, respectively, in 5 mM Tris-HCl/50 mM NaCl buffer at pH 7.2. The large enhancement in the relative viscosity of DNA on binding to the complexes supports the proposed DNA binding modes. The viscosity and thermal denaturation studies sustain the effective intercalation with DNA. The DNA photocleavage studies demonstrated that compounds exhibit significant photonuclease activity by a concentration dependent on singlet oxygen mediated mechanism.     

Characterization and Subcellular Localization of l-[3H]Carnitine Binding Sites in Rat Brain

Abstract: In the present study, we investigated the existence of a binding site for l -carnitine in the rat brain. In crude synaptic membranes, l -[³H]carnitine bound with relatively high affinity (K_D = 281 nM) and in a saturable manner to a finite number (apparent B_max value = 7.3 pmol/mg of protein) of binding sites. Binding was reversible and dependent on protein concentration, pH, ionic strength, and temperature. Kinetic studies revealed a K_off of 0.018 min^?1 and a K_on of 0.187 × 10^?3 min^?1 nM^?1. Binding was highest in spinal cord, followed by medulla oblongata-pons ≥ corpus striatum ≥ cerebellum = cerebral cortex = hippocampus = hypothalamus = olfactory bulb. l -[³H]Carnitine binding was stereoselective for the l -isomers of carnitine, propionylcarnitine, and acetylcarnitine. The most potent inhibitor of l -[³H]carnitine binding was l -carnitine followed by propionyl-l -carnitine. Acetyl-l -carnitine and isobutyryl-l -carnitine showed an affinity ～500-fold lower than that obtained for l -carnitine. The precursor γ-butyrobetaine had negligible activity at 0.1 mM. l -Carnitine binding to rat crude synaptic membrane preparation was not inhibited by neurotransmitters (GABA, glycine, glutamate, aspartate, acetylcholine, dopamine, norepinephrine, epinephrine, 5-hydroxytryptamine, histamine) at a final concentration of 0.1 mM. In addition, the binding of these neuroactive compounds to their receptors was not influenced by the presence of 0.1 mMl -carnitine. Finally, a subcellular fractionation study showed that synaptic vesicles contained the highest density of l -carnitine membrane binding sites whereas l -carnitine palmitoyltransferase activity was undetectable, thus excluding the possibility of the presence of an active site for carnitine palmitoyltransferase. This finding indicated that the localization of the l -[³H]carnitine binding site should be essentially presynaptic.     

Muscarinic receptors in pineal

The presence of muscarinic receptors in sheep and rat pineals was detected by binding of [³H]quinuclidinyl benzilate ([³H]QNB), a potent and specific muscarinic antagonist. [³H]QNB binding to sheep pineal membrane resuspensions was saturable and reversible, with a rate constant for association at 37°C of 6×10⁸M^?1min^?1 and a rate constant for dissociation of 1×10^?2min^?1. Kinetic and saturation experiments yielded an equilibrium dissociation constant of 13–18 pM and a concentration of binding sites equivalent to 1.1 pmol/g of original wet weight. This is only about 5% of the level of β-adrenergic receptors. Competition by a variety of cholinergic drugs confirmed the muscarinic nature of the binding sites. Experiments in rats failed to detect a significant decrease in pineal [³H]QNB binding following bilateral superior cervical ganglionectomy, suggesting that the binding sites are not localized exclusively on sympathetic terminals.     

Effect of picrotoxin on benzodiazepine receptors and GABA receptors with reference to the effect of C1- ion

Picrotoxin does not by itself affect [³H] diazepam binding to synaptosomal membranes of rat cerebellum; however, picrotoxin stimulated the binding in the presence of Cl^? ion or Cl^? ion plus low concentrations of GABA. On the other hand, in the presence of GABA at concentrations higher than 1 × 10^?6 M, picrotoxin inhibited [³H]diazepam binding. This inhibition seems to be the result of reduced GABA binding, which occurred in the presence of picrotoxin and Cl^? ion. These results may indicate that benzodiazepine receptors, GABA receptors, and the Cl^? ionophore are closely associated with each other.     

Epidermal growth factor: Characteristics of specific binding in membranes from liver,placenta, and other target tissues

Epidermal growth factor, a 6,400-dalton polypeptide from the mouse submaxillary gland, binds specifically to cells and membranes derived from a variety of human, rat, mouse, and bovine tissues. Liver, placenta, skin, cornea, and cultured chondrocytes, Hela cells, and Chang liver cells bind large amounts of epidermal growth factor, whereas fat cells, resting and lectin-stimulated human peripheral lymphocytes, mouse thymocytes, cultured rat hepatoma cells, and mammary cells from virgin and pregnant mice bind little or no epidermal growth factor. The binding site for epidermal growth factor is distinct from receptors for other anabolic peptides such as insulin, nerve growth factor, and growth hormone. The binding of epidermal growth factor is rapid and reversible. The rate constant of association is approximately 10⁶ mole^?1 sec^?1, the rate constant of dissociation is about 6 × 10^?4 sec^?1, and the apparent equilibrium dissociation constant is about 10^?9m. Trypsin at low concentrations (50–200 μg/ml) destroys the receptor site for epidermal growth factor. The binding of epidermal growth factor by membranes is not accompanied by appreciable degradation of the peptide present in the medium or of that bound to the membranes. Use can be made of the high affinity and specificity of membranes for epidermal growth factor to measure by a competitive binding assay as little as 200 pg of EGF per ml (3 × 10^?11m).     

Synthesis,characterization, DNA interaction,and cytotoxicity of novel Pd(II) and Pt(II) complexes

Four complexes [Pd(L)(bipy)Cl]·4H₂O (1), [Pd(L)(phen)Cl]·4H₂O (2), [Pt(L)(bipy)Cl]·4H₂O (3), and [Pt(L)(phen)Cl]·4H₂O (4), where L = quinolinic acid, bipy = 2,2’-bipyridyl, and phen = 1,10-phenanthroline, have been synthesized and characterized using IR, ¹H NMR, elemental analysis, and single-crystal X-ray diffractometry. The binding of the complexes to FS-DNA was investigated by electronic absorption titration and fluorescence spectroscopy. The results indicate that the complexes bind to FS-DNA in an intercalative mode and the intrinsic binding constants K of the title complexes with FS-DNA are about 3.5?×?10⁴ M^?1, 3.9?×?10⁴ M^?1, 6.1?×?10⁴ M^?1, and 1.4?×?10⁵ M^?1, respectively. Also, the four complexes bind to DNA with different binding affinities, in descending order: complex 4, complex 3, complex 2, complex 1. Gel electrophoresis assay demonstrated the ability of the Pt(II) complexes to cleave pBR322 plasmid DNA.     

ACETYLCHOLINE RECEPTORS: NUMBER and DISTRIBUTION IN INTACT and DEAFFERENTED SUPERIOR CERVICAL GANGLION OF THE RAT1

Abstract— α-Bungarotoxin (α-BuTX) has been used as a marker for studying the acetylcholine receptors (AChRs) in the superior cervical ganglion (SCG) of the adult rat. Binding of [¹²⁵I]α-BuTX to detergent-solubilized AChRs from rat SCG is a saturable and practically irreversible process. The rate constant of association of the toxin-receptor complex is 1.66 × 10⁵M ^?1 S^?1. The receptor is of nicotinic type. One SCG of adult rat binds about 57 fmol of [¹²⁵I]α-BuTX corresponding to 9.2 × 10⁵ AChRs per sympathetic neuron. Light microscope autoradiography shows that AChRs are mainly localized along neuronal processes (probably dendrites). The perikarya exhibit a weak radioactive reaction, while the nerve fibres are devoid of AChRs. Following preganglionic denervation the number of AChRs never increases and their spatial distribution seems not to change.     

Preparation of Radioactive Labelled (57Co) Sulfitocobalamin

Abstract

Farquharson and Adams (Br. J. Nutr. 36, 127-135 (1976)) have identified sulfitocobalamin (S0₃?Cbl) as one of the naturally occurring cobalamins (Cbls) in foods. We have devised a method of making radioactive labelled S0₃?Cbl for invivo and in vitro studies of this form of Cbl. ⁵⁷Co labelled cyanocobalamin (⁵⁷Co CN-Cbl) was acid photolyzed to ⁵⁷Co hydroxocobalamin (⁵⁷Co OH-Cbl) followed by ligand substitution with S0₃ ^?2 ion from aqueous sodium (meta) bisulfite in the dark. The resulting ⁵⁷Co SO₃?Cbl was purified by organic extraction and cation ex-change chromatography. The final preparation was >99% Co⁵⁷ S0₃?Cbl with an overall yield of >70%, stable for up to four weeks at 20°C in the dark, and capable of binding to the human Cbl binding proteins Transcobalamin II (TC II), Intrinsic factor (IF) and Salivary R. This method allows a simple 1 day preparation of high specific activity labelled ⁵⁷Co S0₃?Cbl for biological studies.     

Characterization of the Influence of Unsaturated Free Fatty Acids on Brain GABA/Benzodiazepine Receptor Binding In Vitro

Abstract: We have investigated the effect of unsaturated free fatty acids (FFAs) on the brain GABA/benzodiazepine receptor chloride channel complex from mammalian, avian, amphibian, and fish species in vitro. Unsaturated FFAs with a carbon chain length between 16 and 22 carbon atoms enhanced [³H]diazepam binding in rat brain membrane preparations, whereas the saturated analogues had no effect. The enhancement of [³H]diazepam binding by oleic acid was independent of the incubation temperature (0-30°C) of the binding assay and not additive to the enhancement by high concentrations of C1. In rat brain preparations, the stimulation of [³H]diazepam binding by oleic acid (10^?4M) was independent of the ontogenetic development. Phylogenetically, large differences were found in the effect of unsaturated FFAs on [³H]diazepam and [³H]muscimol binding: In mammals and amphibians, unsaturated FFAs enhanced both [³H]-muscimol and [³H]diazepam binding to 150-250% of control binding. In 17 fish species studied, oleic acid (10^?4M) stimulation of [³H]diazepam binding was weak (11 species), absent (four species), or reversed to inhibition (two species), whereas stimulation of [³H]muscimol binding was of the same magnitude as in mammals and amphibians. In 10 bird species studied, only weak enhancement of [³H]muscimol binding (110–130% of control) by oleic acid (10^?4M) was found, whereas [³H]diazepam binding enhancement was similar to values in mammal species. Radiation inactivation of the receptor complex in situ from frozen rat cortex showed that the functional target size for oleic acid to stimulate [³H]flunitrazepam binding has a molecular mass of ～200,000 daltons. Our data show that unsaturated FFAs have distinct effects on membranebound GABA/benzodiazepine receptors in vitro.