Activation of bovine rod outer segment phosphatidylinositol-4,5-bisphosphate phospholipase C by calmodulin antagonists does not depend on calmodulin.

Calmodulin antagonists stimulated phosphatidylinositol-4,5-bisphosphate phospholipase C in soluble and particulate fractions of bovine rod outer segments. Antagonists tested include trifluoperazine, melittin, calmidazolium, compound 48/80, W-13 [N-(4-aminobutyl)-5-chloro-1-naphthalenesulfonamide], and W-7 [N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide]. All were effective, but W-7 was chosen for further characterization of the effect, which was most pronounced in the soluble fraction. Phospholipase C activity in the soluble fraction did not increase linearly with the quality of enzyme assayed, suggesting the presence of an endogenous inhibitor or an inhibitory self-association of the enzyme. W-7 appeared to counteract this inhibition, resulting in a linear activity-quantity relationship. Stimulation by W-7 was therefore largest when large amounts of crude enzyme were assayed and small or nil when small amounts were assayed. The effect of W-7 was also dependent on [Ca2+], with half-maximal stimulation occurring between 0.1 and 1 microM. W-7 and W-13 were much more effective than their nonchlorinated analogues W-5 and W-12 at increasing phospholipase C activity. While this pattern of effectiveness is typical of calmodulin-mediated processes, the absence of any effect by added calmodulin and the retention of W-7 sensitivity by purified CaM-free enzyme argue against regulation by CaM. Octyl glucoside, a nonionic detergent, mimicked some of the effects of CaM antagonists, suggesting that the antagonists act by interfering with protein-protein interactions. It appears likely that CaM antagonists prevent an inhibitory multimerization or aggregation of at least one form of ROS phospholipase C.     

Phosphatidyl inositol 4,5-bisphosphate-specific phospholipase C in bovine rod outer segment membranes.

Polyphosphoinositide-specific phosphodiesterase (phospholipase C) activity against phosphatidylinositol 4,5-bisphosphate has been examined in disrupted bovine retinal rod outer segments. The enzyme was strictly modulated by free calcium ion concentration and maximally activated at 10(-5) M Ca2+ (91 +/- 4 nmoles phosphatidylinositol 4,5-bisphosphate hydrolyzed/min/mg of protein). Guanine nucleotides did not affect in vitro phospholipase C activity either in the presence or absence of light, carbachol or epinephrine. The pH optimum at 10(-5) M Ca2+ in the presence of sodium deoxycholate was 6.5. The enzyme of bovine rod outer segments was concluded to be indirectly regulated by the phototransduction events.     

Phosphatidylinositol-4,5-bisphosphate phospholipase C in bovine rod outer segments

Preparations of rod outer segments from cattle retinas contained soluble and particulate phospholipase C activities which hydrolyzed phosphatidylinositol 4,5-bisphosphate (PIP2) and the other phosphoinositides. Ca2+ was required for PIP2 hydrolysis, but high (greater than 300 microM) concentrations were inhibitory. Mg2+ and spermine at low concentrations stimulated the particulate activity but inhibited the soluble. Mn2+ inhibited both. High (greater than 100 microM) concentrations of the nonhydrolyzable GTP analogue guanylyl beta,gamma-methylenediphosphonate inhibited PIP2 hydrolysis by both the soluble and particulate activities, but guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), fluoride, and cholera and pertussis toxins were without effect. Overall phospholipase C activity in ROS was unaffected by light. Evidence was found for multiple forms of the enzyme, requiring isolation and separate characterization before ruling out regulation by light or G-protein.     

Calcium ion-regulated phospholipase C activity in bovine rod outer segments

Bovine retinal rod outer segment membranes are enriched in a phosphoinositide-specific phosphodiesterase (phospholipase C) activity strictly modulated by free calcium ion concentration. The enzyme(s) was highly active on phosphatidylinositol 4,5-bisphosphate: maximal hydrolysis rate was attained at 10(-5)M Ca2+ and accounted for 91 +/- 4 nmoles hydrolyzed/min/mg of protein. The results support the notion that in vivo the enzyme(s) is regulated so as to conform to the phototransduction events.     

Calcium adenosinetriphosphatase of bovine retinal rod outer segment disks.

A Ca(2+)-pumping ATPase activity is present in bovine retinal rod outer segment purified disks. The ATPase has a high Ca2+ affinity (KM = 25 microM). Low Ca2+ (n-microM) concentrations stimulate an ATP-dependent Ca2+ uptake and the ATP hydrolysis in the absence of exogenous Mg2+. Electrophoretic analysis of disk proteins after treatment with (gamma-32P)ATP shows the existence of the enzyme-phosphate acid-stable, hydroxylamine-sensitive intermediate complex of molecular mass of about 135 kDa. The results would indicate the presence of an inwardly directed Ca(2+)-ATPase pump acting on the disk membrane, that could be involved in the regulation of cytosolic free Ca2+ levels inside ROS.     

Characterization of a truncated form of arrestin isolated from bovine rod outer segments.

The inactivation of photolyzed rhodopsin requires phosphorylation of the receptor and binding of a 48-kDa regulatory protein, arrestin. By binding to phosphorylated photolyzed rhodopsin, arrestin inhibits G protein (Gt) activation and blocks premature dephosphorylation, thereby preventing the reentry of photolyzed rhodopsin into the phototransduction pathway. In this study, we isolated a 44-kDa form of arrestin, called p44, from fresh bovine rod outer segments and characterized its structure and function. A partial primary structure of p44 was established by a combination of mass spectrometry and automated Edman degradation of proteolytic peptides. The amino acid sequence was found to be identical with arrestin, except that the C-terminal 35 residues (positions 370-404) are replaced by a single alanine. p44 appeared to be generated by alternative mRNA splicing, because intron 15 interrupts within the nucleotide codon for 369Ser in the arrestin gene. Functionally, p44 binds avidly to photolyzed or phosphorylated and photolyzed rhodopsin. As a consequence of its relatively high affinity for bleached rhodopsin, p44 blocks Gt activation. The binding characteristics of p44 set it apart from tryptic forms of arrestin (truncated at the N- and C-termini), which require phosphorylation of rhodopsin for tight binding. We propose that p44 is a novel splice variant of arrestin that could be involved in the regulation of Gt activation.     

Resolution and characterization of two forms of phosphoinositide-specific phospholipase C from bovine rod outer segments.

Two forms (I and II) of phospholipase C, specific for phosphatidyl inositol 4,5-bisphosphate, were resolved from bovine retinal rod outer segment (ROS) cytosol by DEAE-Sepharose column chromatography. The two isozymes showed reproducible differences in their catalytic properties in spite of similar substrate specificity and hydrolyzed specifically inositol 4,5-bisphosphate in a Ca(2+)-dependent fashion. In the presence of deoxycholate (DOC), pH optima were at 6.5 and 7.0 for phospholipase C I and II, respectively. Maximal phosphatidylinositol 4,5-bisphosphate hydrolysis rates were obtained at 10(-4) and 10(-5)M Ca2+ for phospholipase C I and II, respectively. Treatment with cAMP-dependent protein kinase did not alter either isozyme activity. Further purification steps were prevented by the extreme lability of the isozymes.     

Cholesterol heterogeneity in bovine rod outer segment disk membranes

Rod outer segment disk membranes have been used to study visual transduction events. Numerous studies have also focused on protein-lipid interactions in these membranes. The possible heterogeneity of the disk membrane composition has not been addressed in such studies. Freeze fracture studies (Andrews, L. D., and Cohn, A. I. (1979) J. Cell Biol. 81, 215-220; Caldwell, R., and McLaughlin, B. (1985) J. Comp. Neurol. 236, 523-537) suggest a difference in cholesterol content between newly formed and old disks. This potential heterogeneity in disk membrane composition was investigated using digitonin. Osmotically intact bovine rod outer segment disk membranes prepared by Ficoll flotation were separated based on the cholesterol content of the disks. The addition of digitonin to disk membrane suspensions in a one-to-one molar ratio with respect to cholesterol produced an increase in the density of the membranes in proportion to the amount of cholesterol present. The digitonin-treated disks were separated into subpopulations using a sucrose density gradient. Disks were shown to vary in cholesterol to phospholipid ratio from 0.30 to 0.05. The ratio of phospholipid to protein remained constant in all disk subpopulations at approximately 65 phospholipids per protein. No significant change in the fatty acid composition of the disks was observed as a function of change in cholesterol content. This work demonstrates compositional heterogeneity in disk membranes which may ultimately affect function.     

Light-activated calcium release from sonicated bovine retinal rod outer segment disks.

Calcium trapped within sonicated and resealed bovine rod outer segment disks is released upon light exposure with a stoichiometry of 0.75 +/- 0.05 calcium for each rhodopsin bleached. The amount of calcium liberated is proportional to the amount of bleaching in the range of 20 to 100% bleaching and is relatively insensitive to the internal trapped calcium concentration. The results are obtained using a flow system in which the disk membrane vesicles are adsorbed on glass particle supported by a filter. The external calcium is washed away and subsequent calcium release is monitored by collecting fractions of the effluent before, during, and after light exposure. Disks that are sonicated and allowed to reseal prior to incubation with 45Ca show no change in calcium efflux upon bleaching. The light-activated calcium release is also eliminated if disks sonicated in the presence of 45Ca are treated with a calcium ionophore prior to bleaching. The results demonstrate that the light-released calcium comes from the disks and not from the external disk surface. Lowering temperature to 3--4 degrees C surpresses the light-stimulated release, implicating a transition after the formation of metarhodopsin I in the transport process. The resluts suggest a model for the disk in which each bleached rhodopsin functions as a "one-shot carrier" to transport a single calcium ion across the membrane.     

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

Guanosine 3′,5′-cyclic monophosphate phosphodiesterase (EC 3.1.4.1) in frog rod outer segment prepared by a sucrose stepwise density gradient method was activated by light in the presence of GTP. Rhodopsin in rod outer segment was solubilized with sucrose laurylmonoester and then purified by concavanalin A-Sepharose column. Addition of photo-bleached preparation of the purified rhodopsin to the rod outer segment, which had been prepared by 43% (w/w) sucrose floatation, caused the activation of phosphodiesterase in the dark, while each component of the photo-product eluted from the column (all-trans retinal and opsin) did not. Regenerated rhodopsin prepared from 11-cis retinal and purified opsin activated phosphosdiesterase when it was bleached. From these facts it is suggested that an intermediate or a process of photolysis of rhodopsin causes activation of phosphodiesterase.     

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.     

An evaluation of purity criteria for bovine rod outer segment membranes

The purity criteria of bovine rod outer segments (ROS) purified by different procedures were evaluated. Bovine ROS were purified by flotation and/or sedimentation in a continuous concentration gradient of sucrose. The purity of the different fractions was then evaluated according to four purity criteria: (i) the A280/delta A500 ratio, (ii) the moles of phospholipid per mole of rhodopsin, (iii) the fatty acid composition, and (iv) the interfacial properties of ROS membranes. All the purity criteria, except the A280/delta A500 ratio, were found to be adequate. From our results, the A280/delta A500 ratio cannot be used alone to characterize ROS purity. Furthermore, the phospholipid-to-rhodopsin ratio appears as the best purity criterion because of its reliability, its higher sensitivity, and its ease of achievement. It is noteworthy that mechanical treatment of the retinas dramatically affects the purification of ROS.     

Molar absorptivities of bovine retina rod outer segment phospholipids in n-hexane

The molar absorptivities of the major bovine rod outer segment (ROS) phospholipids and phophatidylcholine 18:1 have been determined at four wavelengths, i.e., 193.5, 196, 200, and 205 nm. The mean standard error is 1.7% at 95% confidence level. The results obtained can therefore be used for the quantitative analysis of bovine ROS phospholipids. Compared with the existing methods, the spectrophotometric determination of these lipids presents the advantages of being rapid, direct, and very sensitive. The importance of stray light in this type of measurement is also discussed.     

Degradation of rod outer segment proteins by cathepsin D.

The degradation of proteins of the rod outer segment (ROS) fraction by partially purified cathepsin D [EC 3.4.23.5] from the retinal pigment epithelium was studied. The ROS fraction, prepared from bovine eyes by sucrose density gradient centrifugation, had little cathepsin D activity. Partially purified cathepsin D, obtained from crude extract of bovine retinal pigment epithelium using bovine serum albumin as a substrate, hydrolyzed the porteine of the ROS fraction. The rate of degradation of ROS proteins was proportional to both the enzyme concentration and the incubation time. With ROS proteins as substrate, the optimal pH of cathepsin D was about 3.5. The degradation of ROS proteins was inhibited by pepstatin.     

Photoelectric signals generated by bovine rod outer segment disk membranes attached to a lecithin bilayer.

Purified bovine rod outer segment disk membranes were attached to a lecithin bilayer membrane. After photoexcitation with a 500-nm flash delivered by a dye laser, a negative photovoltage was observed on the bilayer under normal ionic strengths (100 mM KCl), which had a rise phase of 1-3 ms at 20 degrees C. The photoresponse was obviously due to bleaching of rhodopsin as it decreased for successive flashes of light. It originated most probably during the metarhodopsin-I metarhodopsin-II (meta-I-II) transition of rhodopsin because it was pH dependent at 2 degrees C but not at 20 degrees C. At 10 mM KCl, i.e., under hypotonic conditions, a positive photovoltage with slower kinetics than at high salt was observed. As the disk membranes were merely attached to the bilayer membrane, the photovoltage was apparently due to a light-induced transmembrane potential change in the disk membranes. Possible electrogenic mechanisms underlying the photosignal will be discussed.     

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.     

Mono ADP-ribosylation of transducin catalyzed by rod outer segment extract.

Transducin is the retinal rod outer segment (ROS)-specific G protein coupling the photoexcited rhodopsin to cyclic GMP-phosphodiesterase. The alpha subunit of transducin is known to be ADP-ribosylated by bacterial toxins. We investigated the possibility that transducin is modified in vitro by an endogenous ADP-ribosyltransferase activity. By using either ROS, cytosolic extract of ROS or purified transducin in the presence of [alpha-32P]nicotinamide adenine dinucleotide (NAD+), the alpha and beta subunits of transducin were found to be radiolabeled. The labeling was decreased by snake venom phosphodiesterase I (PDE I). The modification was shown to be mono ADP-ribosylation by analyses on thin layer chromatography of the PDE I-hydrolyzed products which revealed only 5'AMP residues. In addition we report that sodium nitroprusside activates the ADP-ribosylation of transducin.