Muscarinic cholinergic receptors in goldfish retina.

Using ³H-Quinuclinidyl Benzilate (³H-QNB) as a high affinity ligand for quantitative studies of specific binding to muscarinic cholinergic receptors we have demonstrated the presence of such receptors in homogenates of goldfish retina. Only one set of binding sites could be detected with an apparent dissociation constant of 1.9 × 10^?10 M and a density of 53.5 fentomoles per mg of protein. The receptor sites become saturated at a QNB concentration of 1.2 nM. The pharmacological profile of the specific binding is similar to those described for homogenates of beef and chick retina, as well as for rodent brain and smooth muscle.     

Cholinergic receptors in human hippocampus-- regional distribution and variance with age

The anterio-posterior distribution of cholinergic receptor binding sites in human hippocampus (five parts) as well as the effect of age (age range 3 days - 85 years) on receptor properties has been studied. Muscarinic binding sites was measured using labelled quinuclidinyl benzilate (³H-QNB) as ligand and labelled tubocurarine (³H-TC) was used for measurement of nicotine-like binding sites.The highest number of ³H-QNB binding sites in human hippocampus was measured at 3 days and 3 weeks of age and the lowest at 82 years of age. The proportion of high and low affinity muscarinic binding sites respectively was about the same at all ages investigated.A decrease in ³H-QNB binding sites with age was found in the anterior parts of the hippocampus (age range 55–84 years). When individual data for number of ³H-TC binding sites were plotted against corresponding number of ³H-QNB binding sites a strong correlation was observed in most of the different regions of the hippocampus.     

SUBCELLULAR DISTRIBUTION OF [3H]QUINUCLIDINYL BENZYLATE BINDING ACTIVITY IN VERTEBRATE RETINA AND ITS RELATIONSHIP TO OTHER CHOLINERGIC MARKERS

Abstract— The subcellular distribution of binding sites for tritiated quinuclidinyl benzylate ([³H]QNB) was studied in cow retina. Primary fractions showing higher specific activity than homogenate were P₂ (synaptosomal-mitochondrial) and P₃ (microsomal). P₂ was subfractionated on a Ficoll gradient with the P₂B subfraction exhibiting the greatest enrichment in [³H]QNB binding. Similar subfractionation of P₂ on a discontinuous sucrose gradient showed that fractions of particles banding in 0.8m and in the 0.8-1.0 m -sucrose interface also exhibit the greatest enrichment of [³H]QNB binding. When subjected to Scatchard analysis, this reaction shows a density of sites equal to 0.212-0.294 pmol per mg of protein. By plotting the apparent dissociation constant (K_D) values vs protein concentration a‘true’K_D value of 0.73 nM was obtained. Only one set of binding sites was found using three different concentrations of protein. The reaction was specificially antagonized by atropine (DI₅₀= 7 nM) and scopolamine (DI₅₀= 9 nM) whereas carbamylcholine and d-tubocurarine exhibited DI⁵⁰'s of 0.4 and 0.15 mM, respectively. For P₃ the binding of [³H]QNB is characterized by one set of binding sites with n_i= 0.250 pmol per mg of protein and an apparent K_D of 8.2 nM, and a DI₅₀ for atropine of 15 nM. The [³H]QNB binding sites showed a subcellular distribution similar to that of acetylcholinesterase and choline acetyltransferase. P₁ fractions accounted for 40–60% of the total activity of the three cholinergic markers. Purification of the crude P₁ yielded an additional fraction in which the cholinergic markers showed an enrichment with respect to homogenate and P₁. Synaptosomes isolated from this fraction exhibited the unusual ultrastructure expected from nerve endings in the outer synaptic layer of retina. The possible location of the muscarinic cholinergic transmitter system in the vertebrate retina is discussed.     

Development of muscarinic cholinergic receptor binding in the visual system of monocularly deprived and dark reared rats

In 25 day old rats monocularly deprived by unilateral eyelid suture on postnatal day 10 (MD), [³H]quinuclidinyl benzylate (³H-QNB) binding was significantly reduced in the visual cortex (VC) of both sides, but elevated in both superior colliculi (SC). Muscarinic receptor binding in the frontal cortex (FC), a non-visual brain area, in the lateral geniculate nucleus (LGN), and in the retina was not affected. In 25 day old rats raised in complete darkness from birth (DR) similar changes in³H-QNB binding were found in VC and SC. However, binding levels were also decreased in the FC and significantly increased in the retina. In adult (6 month old) MD and DR rats the differences in³H-QNB binding as compared to age-matched controls had disappeared completely in all visual brain areas studied. Detailed Scatchard analyses indicate that the alterations in the³H-QNB binding were due to changes in receptor number only.This paper is dedicated to Dr. Derek Richter on his seventy-fifth birthday.     

Binding of3H-ADTN,a dopamine agonist,to membranes of the bovine retina

The binding of³H-ADTN, a potent dopamine receptor agonist, to crude membrane preparations of bovine retina was studied, using a filtration method to isolate membrane-bound ligand. Specific binding was found to be saturable and occurred at a single binding site with an affinity constant of 7.3 nM. Binding was sodium-independent, slightly enhanced by Triton X-100 treatment, but drastically reduced by both trypsin and sodium laurylsulphate. The binding sites demonstrated a high degree of pharmacological specificity, with dopamine, apomorphine, and epinine being potent displacers of³H-ADTN. A higher degree of³H-ADTN binding was associated with subcellular fractions enriched with conventional synaptosomes rather than with fractions enriched with photoreceptor synaptosomes.     

Different specific binding sites of [3H]glycine and [3H]strychnine in synaptosomal membranes isolated from frog retina

Synaptosomal fractions were isolated from frog retina: a fraction enriched in photoreceptor terminals (P1) and a second one (P2) containing interneurons terminals. We compared the binding of [³H]glycine and [³H]strychine to membranes of these synaptosomes. The binding of both radioactive ligands was saturable and Na⁺-independent. [³H]Glycine bound to a single site in P1 and P2 synaptosomal fractions, with K_D=12 and 82 nM and B_Max=3.1 and 3.06 pmol/mg protein respectively. [³H]Strychnine bound to two sites in each one of the synaptosomal fractions. For P1 K_D values were 3.9 and 18.7 nM, and B_Max values were 1.1 and 7.1 pmol/mg protein, respecitively. Membranes from the P2 synaptosomal fraction showed K_D's of 0.6 and 48 nM and B_Max's of 0.4 and 4.5 pmol/mg. Specific [³H]glycine binding was displaced by -alanine, l-serine, d-serine and HA966, but not by strychnine 7-chlorokynurenic or 5,7-dichloro-kynurenic acids. Specific [³H]strychnine, binding was partially displaced by glycine and related aminoacids and totally displaced only by 2-NH₂-strychnine. Our results indicate the presence of high affinity binding sites for glycine and strychnine in frog retinal synaptosomal membranes. The pharmacological binding pattern indicates the presence of the strychnine sensitive glycine receptor as well as other sites. These might not include the NMDA receptor-associated glycine site.     

l-[3H]lysine binding to rat retinal membrane: II. effect of kainic acid,d,l-α-aminoadipic acid,iodoacetic acid,and modification by dark-exposure

The rat retina and the different brain regions contain membranes sites that bindl-lysine in the nanomolar range. These binding sites undergo changes in different experimental conditions, thus: I) intraocular injection of kainic acid induces a reduction of the density ofl-lysine binding sites, II)d,l--aminoadipic acid injected into the eye enhances both kinetic parameters (B _max andK _d) ofl-[³H]lysine binding sites, III) the intraperitoneal injection of iodoacetic acid decreases the sensitivity for its ligand binding sites, and IV) the exposure to darkness of the rats reducesl-[³H]lysine binding in the retina, thalamus, hypothalamus and superior colliculus, but not in the occipital cortex; such a decrease appears to be characterized, at least in the retina, by a lower sensitivity of the binding sites forl-lysine after the exposure to darkness. The results show thatl-lysine binding sites are located on kainic acid-sensitive cells and can be involved in the physiological mechanism of vision.     

Mitf functions as an in ovo regulator for cell differentiation and proliferation during development of the chick RPE

Mitf has been reported to play a crucial role in regulating the differentiation of pigment cells in homeothermal animals, i.e. the melanocytes and the retinal pigment epithelium (RPE). However, less is known about the functions of Mitf in the developing RPE. To elucidate such functions, we introduced wild-type and dominant-negative Mitf expression vectors into chick optic vesicles by electroporation. Over-expression of wild-type Mitf altered neural retina cells to become RPE-like and repressed the expression of neural retina markers in vivo. In contrast, dominant-negative Mitf inhibited pigmentation in the RPE. The percentage of BrdU-positive cells decreased during normal RPE development, which was followed by Mitf protein expression. The percentage of BrdU-positive cells decreased in the wild-type Mitf-transfected neural retina, but increased in the dominant-negative Mitf-transfected RPE. p27^kip1, one of the cyclin-dependent kinase inhibitors, begins to be expressed in the proximal region of the RPE at stage 16. Transfection of wild-type Mitf induced expression of p27^kip1, while transfection of dominant-negative Mitf inhibited p27^kip1 expression. We found that Mitf was associated with the endogenous p27^kip1 5′ flanking region. These results demonstrate for the first time “in vivo” that Mitf uniquely regulates both differentiation and cell proliferation in the developing RPE.     

l-[3H]lysine binding to rat retinal membrane: I. Quantitative determination and characterization of the binding sites

A saturable reversible binding to membranes from rat retina has been found forl-[³H]lysine. Specific binding is time, temperature and protein concentration-dependent, and shows stereospecificity. The best computer fits of the experimental data are obtalned with a receptor medel based on two independent binding sites, of which only one site with a K_d value of 229.4±14.23 nM and a B_max of 2.04 ±0.11 pmol/mg protein could be characterized satisfactorily. Several compounds included putative neurotransmitters have moderate or no affinity forl-lysine binding sites. A different pattern of distribution ofl-[³H]lysine binding sites is observed among various regions of the brain, with the highest density in the occipital cortex, and the lowest density in ponsmedulla.The existence of binding sites in rat retinal membranes forl-lysine, as well as in the areas involved in the visual pathway, suggests a role for this amino acid in the physiological mechanism of the visual function.     

Hormone action at the membrane level VI. Binding of (—)-[3H]dihydroalprenolol and (±)-[3H]isoproterenol to turkey erythrocytes and correlation with adenylate cyclase activity

The binding of (±)-[³H]isoproterenol and (—)-[³H]dihydroalprenolol to intact turkey erythrocytes was studied using a rapid centrifugation technique. The binding of both ligands is rapid, dissociable, stereospecific and inhibited by (—)-propranolol. The total number of isoproterenol binding sites is 2800 sites/ cell. This consists of a low and high affinity site both of which show stereospecific binding. The high affinity isoproterenol site has a K_d of 15.5—19.5 nM and has 600 sites/cell. The low affinity isoproterenol site has a K_d of 195 nM and has 2200 sites/cell. The binding of (—)-[³H]dihydroalprenolol shows one type of site with a K_d of 7.8 nM and has 2500 sites/cell. The agonists epinephrine, norepinephrine, soterenol and p-hydroxyphenylisoproterenol which were tested by competition for binding showed a 6—25-fold greater affinity for the high affinity site determined by (±)-[³H]isoproterenol as compared to the (—)-[³H]dihydroalprenolol binding site. However, the antagonists propranolol, practolol and metrapolol showed similar affinities for the binding sites as determined by competition of binding of either labeled isoproterenol or dihydroalprenolol. These studies indicate that isoproterenol binding can recognize two independent stereospecific β-adrenergic receptors or can recognize two different conformational states of a single receptor. Provisional calculations are made on the turnover number of adenylate cyclase under physiological conditions using intact erythrocytes. The turnover number is 4000 molecules of cyclic AMP/10 min per high affinity receptor.     

Glycine stimulation of glutamate binding to chick retinal pigment epithelium

The effect of glycine (Gly) and taurine (Tau) on the biochemical and pharmacological properties of [³H]l-glutamate ([³H] Glu) binding to membranes from primary cultures of chick retinal pigment epithelium (RPE), as well as from intact tissue during development was studied. Gly and Tau increase B_max of [³H]Glu binding to a high affinity site (K_B=300 nM) in membranes from 16 days in vitro (immature) cultures; additionally, Gly discloses a low affinity Glu-binding site (K_B=970 nM) at this stage. In membranes from 25 days in vitro (mature) cultures, the high affinity site is no longer present and Tau has no effect on Glu-binding; Gly still stimulates binding to the low affinity site by four fold, with an EC₅₀=200 M. Pharmacological profile using specific excitatory amino acid (EAA) receptor agonists and antagonists suggests that at 16 days in vitro Glu binds preferentially to metabotropic Glu receptors (mGluRs), and at 25 days in vitro to ionotropic receptors different from neuronal ones. The stimulatory effect of Gly and Tau was also observed in intact RPE, and decreased with increasing embryonic age. Glu binding was also stimulated in membranes from chick retina, but not in those from rat brain. Results support the possibility of EAA participation in several aspects of RPE physiology, including phagocytosis and cell division.Abbreviations L-Glu l-glutamate - QA quisqualate - KA kainate - NMDA N-methyl-d-aspartate - trans-ACPD (±) 1-aminocyclopentane-trans-1,3-dicarboxylic acid - D-AP5 d-2-amino-5-phosphonopentanoic acid - L-AP4 l-2-amino-4-phosphonobutyric acid - L-AP3 l-2-amino-3-phosphonopropionic acid - CNQX 6-cyano-7-nitroquinoxaline-2,3-dione - (+)MCPG (+)-methyl-4-carboxyphenyl-glycine - DHPG (RS) 3,5-dihydroxyphenyl-glycine - CPP 3-(2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid - MK-801 (+)-5-methyl-10, 11-dihydro-5H-dibenzo [a.d.] cyclohepten-5, 10-imine - PIP₂ phosphatidyl inositol bisphosphate - ED embryonic day - DIV days in vitro - RPE retinal pigment epithelium - EAA excitatory amino acids     

Glucose Metabolism in Rat Retinal Pigment Epithelium

The retinal pigment epithelium (RPE) is the major transport pathway for exchange of metabolites and ions between choroidal blood supply and the neural retina. To gain insight into the mechanisms controlling glucose metabolism in RPE and its possible relationship to retinopathy, we studied the influence of different glucose concentrations on glycogen and lactate levels and CO₂ production in RPE from normal and streptozotocin-treated diabetic rats. Incubation of normal RPE in the absence of glucose caused a decrease in lactate production and glycogen content. In normal RPE, increasing glucose concentrations from 5.6 mM to 30 mM caused a four-fold increase in glucose accumulation and CO₂ yield, as well as reduction in lactate and glycogen production. In RPE from diabetic rats glucose accumulation did not increase in the presence of high glucose substrate, but it showed a four- and a seven-fold increase in CO₂ production through the mitochondrial and pentose phosphate pathways, respectively. We found high glycogen levels in RPE which can be used as an energy reserve for RPE itself and/or neural retina. Findings further show that the RPE possesses a high oxidative capacity. The large increase in glucose shunting to the pentose phosphate pathway in diabetic retina exposed to high glucose suggests a need for reducing capacity, consistent with increased oxidative stress.     

Deficiency of thyroid hormone receptor protects retinal pigment epithelium and photoreceptors from cell death in a mouse model of age-related macular degeneration

Age-related macular degeneration (AMD) is the leading cause of vision loss in the elderly. Progressive dystrophy of the retinal pigment epithelium (RPE) and photoreceptors is the characteristic of dry AMD, and oxidative stress/damage plays a central role in the pathogenic lesion of the disease. Thyroid hormone (TH) regulates cell growth, differentiation, and metabolism, and regulates development/function of photoreceptors and RPE in the retina. Population-/patient-based studies suggest an association of high free-serum TH levels with increased risk of AMD. We recently showed that suppressing TH signaling by antithyroid treatment reduces cell damage/death of the RPE and photoreceptors in an oxidative-stress/sodium iodate (NaIO₃)-induced mouse model of AMD. This work investigated the effects of TH receptor (THR) deficiency on cell damage/death of the RPE and photoreceptors and the contribution of the receptor subtypes. Treatment with NaIO₃ induced RPE and photoreceptor cell death/necroptosis, destruction, and oxidative damage. The phenotypes were significantly diminished in Thrα1^−/−, Thrb^−/−, and Thrb2^−/− mice, compared with that in the wild-type (C57BL/6 J) mice. The involvement of the receptor subtypes varies in the RPE and retina. Deletion of Thrα1 or Thrb protected RPE, rods, and cones, whereas deletion of Thrb2 protected RPE and cones but not rods. Gene-expression analysis showed that deletion of Thrα1 or Thrb abolished/suppressed the NaIO₃-induced upregulation of the genes involved in cellular oxidative-stress responses, necroptosis/apoptosis signaling, and inflammatory responses. In addition, THR antagonist effectively protected ARPE-19 cells and hRPE cells from NaIO₃-induced cell death. This work demonstrates the involvement of THR signaling in cell damage/death of the RPE and photoreceptors after oxidative-stress challenge and the receptor-subtype contribution. Findings from this work support a role of THR signaling in the pathogenesis of AMD and the strategy of suppressing THR signaling locally in the retina for protection of the RPE/retina in dry AMD.Subject terms: Necroptosis, Cell biology     

Increased number of muscarinic binding sites in brain following chronic barbiturate treatment to rat

Rats received as their only drinking fluid a solution of sodium barbital (3.33 mg/ml) for more than 40 weeks. In two groups (A3, A12) the barbital solution was withheld and replaced by water 3 and 12 days before sacrifice. Two other groups consisted of animals drinking barbital until sacrifice (B) and untreated controls (C). Synaptosomes from different parts of the brain were incubated with radioactive quinuclidinyl benzilate (³H-QNB) (0.2 nM) for 60 min. A significantly increased number of ³H-QNB binding sites was found in the striatum and midbrain + medulla oblongata + cerebellum of rats abstinent for 3 days (A3) in comparison with controls (C). Saturation studies indicated that group A3 had significantly more receptors in the midbrain + medulla oblongata + cerebellum than group C, while there was no differences in receptor affinity.     

An [3H]oxotremorine binding method reveals regulatory changes by guanine nucleotides in cholinergic muscarinic receptors of cerebral cortex

A rapid, reliable filtration method for [³H]oxotremorine binding to membranes of the cerebral cortex that allows the direct study of regulation by guanine nucleotides of muscarinic receptors was developed. [³H]Oxotremorine binds to cerebral cortex membranes with high affinity (K _D, 1.9 nM) and low capacity (B _max, 187 pmol/g protein). These sites, which represent only about 18% of those labeled with [³H]quinuclidinyl benzilate, constitute a population of GTP-sensitive binding sites. Association and dissociation binding experiments revealed a similar value ofK _D (2.3 nM). Displacement studies with 1–4000 nM oxotremorine showed the existence of a second binding site of low affinity (K _D, 1.2 M) and large capacity (B _max, 1904 pmol/g protein). Gpp(NH)p, added in vitro, produced a striking inhibition of [³H]oxotremorine binding with an IC 50 of 0.3 M. Saturation assays, in the presence of 0.5 M Gpp(NH)p, revealed a non-competitive inhibition of the binding with little change in affinity. These results are discussed from the viewpoint of conflicting reports in the literature about guanine nucleotide regulation of muscarinic receptors in reconstituted systems and membranes from different tissues.     

Binding of β1-adrenoreceptor antagonist [3H]CGP 26505 in rat cerebral cortex and sinus atrial nodeantagonist [3H]CGP 26505 in rat cerebral cortex and sinus atrial node

Specific β₁-adrenoreceptors antagonist [³H]CGP 26505 binding was characterized in rat cerebral cortex and heart sinus atrial node. In both tissues [³H]CGP 26505 binding was maximal at 25°C, it was specific, saturable and protein concentration dependent. Scatchard analysis of saturation isotherms of specific [³H]CGP 26505 binding in cerebral cortex showed that [³H]CGP 26505 binds a single class of high affinity sites with a dissociation constant (K_D) of 1±0.3 nM and a maximal number of binding sites (B_max) of 40±2 fmol/mg of protein. In sinus atrial node, [³H]-CGP 26505 binds a single class of high affinity sites (K_D=1.9±0.4 nM, B_max=28±2 fmol/mg of protein).     

Effects of cell signaling on the development of GABA receptors in chick retina neurons

R-cognin, a cell recognition molecule, and insulin are known to play significant roles in GABAergic differentiation in the developing chick retina. In the present study, the effects of insulin and R-cognin on post-synaptic (GABAceptive) differentiation were investigated. In ovo binding of [³H]GABA and [³H]flunitrazepam ([³H]Flu) to the GABA and benzodiazepine (BZD) receptors, respectively, remained at low levels during early embryogenesis but increased sharply from mid-embryogenesis through hatching, increases which also occur in cultured neurons from early-embryonic (E7) and mid-embryonic (E11) chick retina. E7 neurons respond to insulin treatment (100 ng/ml) with increased [³H]Flu binding but no change in [³H]GABA binding. Cognin antibody (10 g/ml) treatment of E7 neurons caused no significant inhibition of the developmental increases in binding of either radioligand. Insulin in E11 cultures led to greater developmental increases in binding sites for both radioligands, but exposure to cognin antibody was without significant effect. These data, along with previous studies, indicate that GABAergic differentiation in developing chick retina is regulated, in part, by insulin and cognin-mediated cell signaling. Insulin also regulates post-synaptic (GABAceptive) differentiation whereas cognin-mediated interactions are relatively insignificant.Abbreviations BZD benzodiazepine - ChAT choline acetyltransferase - Flu flunitrazepam - GABA -aminobutyric acid - GAD glutamate decarboxylase (glutamic acid decarboxylase)     

Dopamine receptors in bovine retina : characterization of the 3H-spiroperidol binding and its use for screening dopamine receptor affinity of drugs.

³H-spiroperidol bound in a saturable, stereospecifically displaceable manner to homogenates of bovine retina. Scatchard analysis of saturation experiments showed a K_D of 1.35 nM and a density of binding sites of 107 fmoles · mg protein^?1. Stereospecifically displaceable binding was pH and temperature dependent and linear with tissue concentration. Spiroperidol, pimozide, haloperidol and d-butaclamol were the most potent compounds in drug displacement curves (8.74 > pIC₅₀ > 7.61 M). Other neuroleptics such as cisflupenthixol, fluphenazine, clozapine, chlorpromazine and pipamperone, were one order of magnitude less potent. Among dopamine agonists, apomorphine (pIC₅₀ = 7.08 ± 0.19 M) was about 50 times more potent than dopamine itself, epinine and ADTN. Serotonin, α- and ß-adrenergic receptors agonists and antagonists were inactive. These results indicate that the sites labelled by ³H-spiroperidol in retina are dopaminergic; moreover the rank order of various antagonists and agonists observed in displacement curves suggests that this preparation could also provide a useful tool to reveal the selective affinity of drugs for the CNS dopamine receptor linked to the enzyme adenylylcyclase (D₁-receptors).     

Affinity labelling of alpha-adrenoceptors in intact liver cells by [3H]phenoxybenzamine.

[³H]phenoxybenzamine of high specific activity (5.3 Ci/mmol) was synthesized and its binding to isolated, viable rat liver cells was studied. Phentolamine suppressible binding of [³H]phenoxybenzamine was irreversible and saturable (EC50: 10 nM, b_max: 200 fmol/mg wet cell weight). Competition-inhibition studies showed structural and stereoselectivity compatible with α-receptors. The IC50 of unlabelled phenoxybenzamine to reduce specific binding (9 nM) or to block adrenaline-induced phosphorylase activation in the same cells (2 nM) was similar, whereas the IC50 of agonists to suppress binding was higher than their EC50's for phosphorylase activation. The results represent the first example of labelling α-adrenoceptors in intact liver cells. The sites labelled by [³H]phenoxybenzamine mediate the block of phosphorylase activation by α-adrenoceptor antagonists. However, the relationship of these sites to receptors that mediate responses to physiological, low concentrations of catecholamines remains to be clarified.     

GABA receptor binding in bovine retina: effects of Triton X-100 and perchloric acid

In two synaptosomal fractions from bovine retina, Triton X-100 and sodium perchlorate specifically enhanced the high affinity binding of ³H-GABA to sites with pharmacological specificity similar to the GABA receptor. Maximal effects were noted at 0.05% Triton X-100 and 100 mM sodium perchlorate. In the fraction enriched in photoreceptor cell synaptosomes from the outer plexiform layer, Triton and perchlorate had similar effects in that two binding sites were observed: a higher affinity site (～20 nMK_D) and a lower affinity site (～200 nMK_D). However, in the fraction enriched in conventional sized synaptosomes primarily from the inner plexiform layer, the 20 nM site was virtually absent after Triton treatment, but was readily detectable in the presence of perchlorate. These results may suggest that ³H-GABA binding $\text{in vitro}$ is inhibited by an endogenous substance which is removed by Triton or perchlorate treatment. The difference in the sensitivity of the two fractions to Triton and perchlorate suggests that in retina this substance (whether it is a membrane peptide or GABA itself) is not uniformly distributed and/or uniformly sensitive to Triton and perchlorate.