Disaturated and dipolyunsaturated phospholipids in the bovine retinal rod outer segment disk membrane

Thin-layer chromatography was used to separate the major phospholipid headgroup classes of the rod outer segment disk membrane into subfractions which differ markedly in fatty acid composition. At least 18% of the rod outer segment phosphatidylcholine must contain two saturated fatty acids. Furthermore, two unsaturated fatty acids are found in at least 43% of the phosphatidylserine, 24% of the phosphatidylcholine, and 24% of the phosphatidylethanolamine. The unsaturated acids are predominantly polyunsaturated in all cases. A similar separation, but with less resolution, was achieved with silicic acid column chromatography.The temperature dependence of the polarization of the fluorescence of trans-parinaric acid (9,11,13,15-all-trans-octadecatetraenoic acid) showed that the thermal behavior of aqueous dispersions of the phosphatidylcholine subfractions was consistent with their fatty acid compositions.     

Light-enhanced cross-linking of rhodopsin in rod outer segment membranes as detected by chemical probes

Bovine rod outer segment membranes were treated with cross-linking reagents before and after light exposure. Bleached membranes showed enhanced cross-linking with difluorodinitrobenzene or methyl acetimidate compared to dark-adapted membranes. The light-induced enhancement of cross-linking may be due to increased association of rhodopsin monomers in the light and/or due to increased reactivity of amino and sulfhydryl groups of bleached rhodopsin. In some instances, the band ascribed to the rhodopsin monomer in gel electrophoresis appears as a partially resolved doublet. Treatment of bleached rod outer segment membranes with methyl acetimidate improved the resolution of the doublet into two closely migrating bands.     

Histo- and cytochemical demonstration of guanosine triphosphatase activity in the outer segments of rods in the rat retina by means of a newly developed method

Summary Guanosine triphosphatase (GTPase) activity was studied histo- and cytochemically in the rod outer segments of the rat retina by means of a newly developed method. Differences in the distribution pattern of the enzyme activity exist within the outer segment: the activity is more intense at the tip of the rod outer segments near the pigment epithelium than in their proximal portion. Ultracytochemically, the new procedure reveals the reaction product of GTPase activity partly (i) on the extradisk membrane side and (ii) on the disk membranes. This result is in contrast to the cytochemical localization of guanylate cyclase (GCLase), an enzyme also localized at the tip of the rod outer segments: GCLase activity is restricted to the intradisk membrane area of the rod outer segments. The functional role of GTPase activity in the outer segments of rods is discussed.The authors dedicate this paper to Professor K. Ogawa     

Distinct states of lipid mobility in bovine rod outer segment membranes Resolution of spin label results

Freely diffusable lipid spin labels in bovine rod outer segment disc membranes display an apparent two-component ESR spectrum. One component is markedly more immobilized than that found in fluid lipid bilayers, and is attributed to lipid interacting directly with rhodopsin. For the 14-doxyl stearic acid spin label this more immobilized component has an outer splitting of 59 G at 0°C, with a considerable temperature dependence, the effective outer splitting decreasing to 54 G at 24°C. Spin label lipid chains covalently attached to rhodopsin can also display a two-component spectrum in rod outer segment membranes. In unbleached, non-delipidated membranes the 16-doxyl stearoyl maleimide label shows an immobilized component which has an outer splitting of 59 G at 0°C and a considerable temperature dependence. This component which is not resolved at high temperatures (24–35°C), is attributed to the lipid chains interacting directly with the monomeric protein, as with the diffusable labels. In contrast, in rod outer segment membranes which have been either delipidated or extensively bleached, a strongly immobilized component is observed with the 16-doxyl maleimide label at all temperatures. This immobilized component has an outer splitting of 62–64 G at 0°C, with very little temperature dependence (61–62 G at 35°C), and is attributed to protein aggregation.     

The effect of calcium on the bilayer stability of lipids from bovine rod outer segment disk membranes

The phase behavior of bovine rod outer segment disk lipids has been investigated using freeze-fracture and ³¹P nuclear magnetic resonance (NMR) techniques. ³¹P-NMR spectra of isolated disk membranes were taken as a function of temperature between 25°C and 45°C. The ³¹P-NMR spectrum characteristic of phospholipid bilayers was observed at all temperatures both in the absence of Ca²⁺ and in the presence of 10 mM and 50 mM Ca²⁺. A similar study was performed on lipids isolated from the disk membranes. In the absence of Ca²⁺ only lamellar phase behavior was observed. In the presence of less than 10 mM Ca²⁺, however, there was a change in morphology to non-lamellar structures. Removal of the Ca²⁺ caused the system to reassume the lamellar form.     

Permeability of human erythrocyte membrane vesicles to alkali cations

The permeability of inside-out and right-side-out vesicles from erythrocyte membranes to inorganic cations was determined quantitatively. Using ⁸⁶Rb as a K analog, we have measured the rate constant of ⁸⁶Rb efflux from vesicles under equilibrium exchange conditions, using a dialysis procedure. The permeability coefficients of the vesicles to Rb are only about an order of magnitude greater than that of whole erythrocytes. Furthermore, we have measured many of the specialized transport systems known to exist in erythrocytes and have shown that glucose, sulfate, ATP-dependent Ca and ATP-dependent Na transport activities are retained by the vesicle membranes. These results suggest that inside-out and right-side-out vesicles can be used effectively to study transport properties of erythrocyte membranes.     

Differential membrane protein phosphorylation in bovine retinal rod outer segment disk membranes as a function of disk age

The outer segment portion of photoreceptor rod cells is composed of a stacked array of disk membranes. Newly formed disks are found at the base of the rod outer segment (ROS) and are relatively high in membrane cholesterol. Older disks are found at the apical tip of the ROS and are low in membrane cholesterol. Disk membranes were separated based on their membrane cholesterol content and the extent of membrane protein phosphorylation determined. Light induced phosphorylation of ROS disk membrane proteins was investigated using magic angle spinning³¹P NMR. When intact rod outer segment preparations were stimulated by light, in the presence of endogenously available kinases, membrane proteins located in disks at the base of the ROS were more heavily phosphorylated than those at the tip. SDS-gel electrophoresis of the phosphorylated disk membranes subpopulations identified a phosphoprotein species with a molecular weight of approximately 68–72 kDa that was more heavily phosphorylated in newly formed disks than in old disks. The identity of this phosphoprotein is presently under investigation. When the phosphorylation reaction was carried out in isolated disk membrane preparations with exogenously added co-factors and kinases, there was no preferential protein phosphorylation. Taken collectively, these results suggest that within the ROS there is a protein phosphorylation gradient that maybe indicative of co-factor or kinase heterogeneity.     

Activation of phosphodiesterase in frog rod outer segment by an intermediate of rhodopsin photolysis. II

Frog (Rana catesbeiana) rod outer segment membrane contains cyclic GMP phosphodiesterase (EC 3.1.4.1). Irradiation of dark-adapted rod outer segment membrane increased the enzyme activity by 5–20-fold in the presence of GTP. The phosphodiesterase in rod outer segment membrane is also activated by mixing a photo-product of 11-cis (regenerated), 9-cis or 7-cis rhodopsin which is stable at 0°C. However, neither opsin in the membrane nor all-trans retinal activates the enzyme. The phosphodiesterase in rod outer segment membrane is also activated by irradiation at ?4°C. Thus, we conclude that the phosphodiesterase is activated by a common photolysis intermediate of these rhodopsin isomers, perhaps before metarhodopsin II decays.     

Isolation of rhodopsin by the combined action of cardiotoxin and phospholipase A2 on rod outer segment membranes

Freeze-fracture electron microscopy was used to follow morphological changes induced by Naja mossambica mossambica venom V₄^II cardiotoxin in rod outer segment membrane preparations. The extent of the morphological changes depended on the purity of the cardiotoxin. Pure cardiotoxin had no detectable effect upon the preparation, but, when contaminated with venom phospholipase A₂, let to a rapid disintegration of the membrane vesicles. With trace amounts (up to about 0.5% of the cardiotoxin) of phospholipase A₂, the membrane vesicles disintegrated into smooth lamellae and particles in solution. These two components were separated by centrifugation. The pellet, which showed the presence of smooth lamellae and aggregated particles, was composed of unbleached rhodopsin, initial membrane lipids, lysolipids and cardiotoxin. The supernatant, which showed only the presence of dispersed particles, was composed of unbleached rhodopsin, lysolipids and cardiotoxin. With cardiotoxin containing larger amounts of phospholipase A₂ (more than 0.5% of the cardiotoxin), membrane vesicles were disintegrated into large aggregates of amorphous material, composed of bleached rhodopsin, initial membrane lipids, lysolipids and cardiotoxin. These results confirm our previous observation on the release of integral membrane proteins from membrane vesicles by the action of cardiotoxin containing traces of phospholipase A₂ (Gulik-Krzywicki, T., Balerna, M., Vincent, J.P. and Lazdunski, M. (1981) Biochim. Biophys. Acta 643, 101–114) and suggest its possible use for isolation and purification of integral membrane proteins.     

Evidence that a light-accelerated abrupt change in membrane characteristics of bovine rod outer segment fragments takes place at acidic pH

Changes in the turbidity of suspensions of bovine rod outer segment fragments induced by rhodopsin bleaching were measured in the presence of various concentrations of divalent cations at acidic pH (4.7–5.4). Unlike the situation at neutral pH, the turbidity of the suspensions increased drastically by bleaching at acidic pH. It was found that the extent of turbidity change became maximum at a particular concentration of divalent cations (i.e., 5 mM CaCl₂, 5 mM MgCl₂, or 5 mM mixed divalent cations). However, the turbidity increment in the presence of 5 mM MgCl₂ was greatly enhanced by the addition of a minute amount of CaCl₂. These results evidently show that the membrane characteristic is abruptly changed by bleaching at acidic pH in particular. It is also suggested that there are two kinds of binding sites for Ca ions: one is a Ca²⁺ specific site, and the other is a nonspecific site to which Mg²⁺ can also bind.     

Lipid composition of photoreceptor membranes from goldfish retinas

Isolation and biochemical characterization of goldfish retinal photoreceptor outer segment membranes are described. The lipid fraction is composed primarily of phospholipids (68 mol%) with substantial amounts of neutral lipids (32 mol%). Sterols account for only about 2 wt% of the membranes (about 9 mol% of the total lipids). The phospholipid class composition and fatty acid composition are similar to those of other vertebrate photoreceptor membranes. Two novel findings were the high levels of free fatty acids (21 mol% of the total lipids, primarily palmitic and docosahexaenoic acids) and the presence of relatively significant amounts of a C-32 diacylglycerol molecular species.     

Light-induced axial and radial shrinkage effects and changes of the refractive index in isolated bovine rod outer segments and disc vesicles

Flash-induced transients in the near-infrared scattering of bovine rod outer segments and isolated discs are investigated. Their common characteristic is the saturation at a rhodopsin bleaching of ca. 10%, which was previously described for the so-called signalP. The theory is based on the Rayleigh-Gans-approximation and on a cylindrical particle shape. This treatment is shown to be applicable in the measured angular range (in general30), in spite of the polydisperse shape of the real particles. Using the angular dependence of the relative intensity change (difference scattering curve), changes of the polarizability (refractive index) and of the particle shape can be distinguished. Model difference scattering curves are calculated for the dimensions of the rod outer segments. Static scattering measurements are used for an estimation of the average particle shape: the isolated disc samples appear to contain flat discs as well as an admixture of rod-like structures (ca. 1% of the total scattering mass); in rod outer segment preparations, a contribution of non-rodlike scattering is found which is strongly dependent on the treatment of the sample. The flash induced transients were measured using randomly oriented particles (discs and rod outer segments) and axially oriented rod outer segments. The angular dependence of the amplitude yields its difference scattering curve. On suspensions of isolated discs, which were re-loaded with the proteins extracted at low ionic strength, one single signal is observed (termedP _D, first order,=0.6–1.2 s). Using randomly oriented rod outer segments, a signal with complex millisecond kinetics (termed signalP) and a slow signal (termedP _S, first order,=5–25 s) can be distinguished kinetically. In the axially oriented rod outer segments, theP-signal splits into a fast axial (10 ms) and a slower radial component (50–100 ms). The slow signalP _S observed in ROS and the signalP _D in discs have one common physical interpretation as local changes of the polarizability, directly observed in light-scattering as a change of the refractive index. The fast signalP in ROS, however, has no detectable local component but represents a pure shrinkage effect. On the axially oriented system, this shrinkage turns out to be axial and radial with different kinetics. Only rough estimations for the relative shrinkage effects and refractive index changes can be given. One obtains for 1% rhodopsin bleaching:n/n10^–4,L/L10^–2,R/R5×10^–4. Assuming a fluid plane for the disc membrane, the planar shrinkage induced by one bleached rhodopsin is estimated from the radial shrinkage as ca. 300 å². This high value is discussed in relation to the binding of rhodopsin to the GTP-binding protein which is involved in comparable effects described by Kühn et al. (1981). According to our data, a chemical binding process in milliseconds is only indicated in the isolated disc; in the closed disc stack of the rod outer segment, only weak (fast) local interactions are consistent with the difference scattering data. A turn or lift of the GTPase would better satisfy this condition and explain the above high value for the individual shrinkage effect.Abbreviations ROS rod outer segments - RGA Rayleigh-Gans-approximation     

Determination of membrane permeability to water from osmotically induced light-scattering changes of membrane vesicles: Analysis of the method

The kinetics of osmotically induced changes in vesicular volume and internal solute concentration were analyzed for membrane vesicles containing fixed quantity of impermeable osmoticum in the lumen. The kinetic curves of the concentration and volume changes were shown to be dissimilar. The average durations of these two processes may differ by several tens of percents, depending on the extent and polarity of the initially imposed osmotic gradient. For vesicles containing identical solutes in the internal and external solutions, the problem is analyzed of how the concentration and volume changes are manifested in changes of the effective scattering cross-section of the vesicle. The light scattering changes, directed oppositely to volume changes, were found to coincide roughly with the kinetics of volume changes. The analysis shows that calculations of water permeability coefficient should be based on average duration of volume changes rather than the duration of concentration changes. The replacement in calculations of the first parameter with the second one may result in overestimation of water permeability by a factor of 1.5. This might be relevant to the reported discrepancies in water permeability values determined by the osmotic and isotope methods. Although the allowance for 1.5-fold overestimation cannot fully account for the differences observed, it significantly lowers the discrepancy between these estimates in some cases. The opposite signs of light scattering and volume changes originate from the presence of two components in the optical path of the vesicle, i.e., the membrane and the lumenal solution.     

Transbilayer distribution of phospholipids in photoreceptor membrane studied with trinitrobenzenesulfonate alone and in combination with phospholipase D

In a further study of the transbilayer distribution of phospholipids in rod disk membranes, the amino group reagent, trinitrobenzenesulfonate, and the phospholipid-hydrolyzing enzyme, phospholipase D, have been used alone and in combination.Under carefully defined conditions (1 mM trinitrobenzenesulfonate, pH 7.4, 20°C, darkness), trinitrobenzenesulfonate yields limited final levels of modification of phosphatidylethanolamine and phosphatidylserine, suggesting only minor reagent penetration and membrane disturbance under these conditions.Treatment of stacked disks with trinitrobenzenesulfonate under these conditions leads to a biphasic modification of the a aminophospholipids. Relatively fast (less than 1 h) modification of 50% phosphatidylethanolamine and 40% phosphatidylserine occurs, slowly rising (approx. 3 h) to 60 and 50%, respectively.Extensive treatment of stacked disks with phospholipase D leads to the hydrolysis of 55% phosphatidylcholine and 50% phosphatidylethanolamine, while phosphatidylserine is hardly attacked by this enzyme.Treatment of stacked disks with trinitrobenzenesulfonate after prior treatment with phospholipase D leads to no further modification than that maximally obtained with either reagent alone: about one-half of the three major phospholipid classes is accessible. Although both reagents differ greatly in molecular size, mode of action and other properties, they apparently see the same pool of phosphatidylethanolamine, their joint substrate. Considering that we start with the original right-side-out configuration, that all phospholipids can in principle be modified (no shielding) and that the membrane remains essentially intact, we conclude that the accessible lipid pool represents the outer face of the disk membranes.These results confirm our earlier conclusions from treatment with three phospholipases that the three major phospholipids are nearly symmetrically distributed over the two faces of the disk membrane.The divergence with the conclusions of other investigators is most likely explained by their use of disk membranes (disk vesicles) in which the original phospholipid distribution had not been maintained and/or of conditions under which trinitrobenzenesulfonate markedly penetrates the membrane.     

Photoreceptor calcium sensor proteins in detergent-resistant membrane rafts are regulated via binding to caveolin-1

Rod cell membranes contain cholesterol-rich detergent-resistant membrane (DRM) rafts, which accumulate visual cascade proteins as well as proteins involved in regulation of phototransduction such as rhodopsin kinase and guanylate cyclases. Caveolin-1 is the major integral component of DRMs, possessing scaffolding and regulatory activities towards various signaling proteins. In this study, photoreceptor Ca²⁺-binding proteins recoverin, NCS1, GCAP1, and GCAP2, belonging to neuronal calcium sensor (NCS) family, were recognized as novel caveolin-1 interacting partners. All four NCS proteins co-fractionate with caveolin-1 in DRMs, isolated from illuminated bovine rod outer segments. According to pull-down assay, surface plasmon resonance spectroscopy and isothermal titration calorimetry data, they are capable of high-affinity binding to either N-terminal fragment of caveolin-1 (1–101), or its short scaffolding domain (81–101) via a novel structural site. In recoverin this site is localized in C-terminal domain in proximity to the third EF-hand motif and composed of aromatic amino acids conserved among NCS proteins. Remarkably, the binding of NCS proteins to caveolin-1 occurs only in the absence of calcium, which is in agreement with higher accessibility of the caveolin-1 binding site in their Ca²⁺-free forms. Consistently, the presence of caveolin-1 produces no effect on regulatory activity of Ca²⁺-saturated recoverin or NCS1 towards rhodopsin kinase, but upregulates GCAP2, which potentiates guanylate cyclase activity being in Ca²⁺-free conformation. In addition, the interaction with caveolin-1 decreases cooperativity and augments affinity of Ca2 + binding to recoverin apparently by facilitating exposure of its myristoyl group. We suggest that at low calcium NCS proteins are compartmentalized in photoreceptor rafts via binding to caveolin-1, which may enhance their activity or ensure their faster responses on Ca²⁺-signals thereby maintaining efficient phototransduction recovery and light adaptation.     

The Permeability of Gap Junctional Aqueous Channels in Reconstituted Proteoliposomes: Original Article

Abstract

In an earlier communication (1) we have proposed a formalism which permitted a quantitative evaluation of the shrinkage and swelling of liposomes under osmotic-diffusional stress as inferred from spectrophotometric measurements. In this paper the formalism has been extended to examine the behaviour of proteoliposomes containing aqueous channels formed by intercalation of gap junctional proteins into the membrane bilayer. Subtle deviations elicited by the proteoliposomes from an idealized liposome are attributed to the heterogeneity in the preparations. With appropriate corrections spectrophotometric measurements permit a quantitative analysis of differential permeabilities of solutes.     

Structural basis of the partially open central gate in the human CNGA1/CNGB1 channel explained by additional density for calmodulin in cryo-EM map

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