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1. Retinylidene chromophore hydrolysis from mammalian visual and non-visual opsins.

Author

Hong, John, Salom, David, Choi, Elliot, Du, Samuel, Tworak, Aleksander, Smidak, Roman, Gao, Fangyuan, Solano, Yasmeen, Zhang, Jianye, Kiser, Philip, and Palczewski, Krzysztof

Subjects
11-cis-retinal, all-trans-retinal, chromophore, retinal hydrolysis, visual cycle
Abstract

Rhodopsin (Rho) and cone opsins are essential for detection of light. They respond via photoisomerization, converting their Schiff-base-adducted 11-cis-retinylidene chromophores to the all-trans configuration, eliciting conformational changes to activate opsin signaling. Subsequent Schiff-base hydrolysis releases all-trans-retinal, initiating two important cycles that maintain continuous vision-the Rho photocycle and visual cycle pathway. Schiff-base hydrolysis has been thoroughly studied with photoactivated Rho but not with cone opsins. Using established methodology, we directly measured the formation of Schiff-base between retinal chromophores with mammalian visual and nonvisual opsins of the eye. Next, we determined the rate of light-induced chromophore hydrolysis. We found that retinal hydrolysis from photoactivated cone opsins was markedly faster than from photoactivated Rho. Bovine retinal G protein-coupled receptor (bRGR) displayed rapid hydrolysis of its 11-cis-retinylidene photoproduct to quickly supply 11-cis-retinal and re-bind all-trans-retinal. Hydrolysis within bRGR in native retinal pigment epithelium microsomal membranes was >6-times faster than that of bRGR purified in detergent micelles. N-terminal-targeted antibodies significantly slowed bRGR hydrolysis, while C-terminal antibodies had no effect. Our study highlights the much faster photocycle of cone opsins relative to Rho and the crucial role of RGR in chromophore recycling in daylight. By contrast, in our experimental conditions, bovine peropsin did not form pigment in the presence of all-trans-retinal nor with any mono-cis retinal isomers, leaving uncertain the role of this opsin as a light sensor.

Published
2024

2. Structural basis for the allosteric modulation of rhodopsin by nanobody binding to its extracellular domain.

Author

Wu, Arum, Salom, David, Hong, John, Tworak, Aleksander, Watanabe, Kohei, Pardon, Els, Steyaert, Jan, Kandori, Hideki, Katayama, Kota, Kiser, Philip, and Palczewski, Krzysztof

Subjects
Animals, Rhodopsin, Single-Domain Antibodies, Camelids, New World, Ear Auricle, Gene Library
Abstract

Rhodopsin is a prototypical G protein-coupled receptor (GPCR) critical for vertebrate vision. Research on GPCR signaling states has been facilitated using llama-derived nanobodies (Nbs), some of which bind to the intracellular surface to allosterically modulate the receptor. Extracellularly binding allosteric nanobodies have also been investigated, but the structural basis for their activity has not been resolved to date. Here, we report a library of Nbs that bind to the extracellular surface of rhodopsin and allosterically modulate the thermodynamics of its activation process. Crystal structures of Nb2 in complex with native rhodopsin reveal a mechanism of allosteric modulation involving extracellular loop 2 and native glycans. Nb2 binding suppresses Schiff base deprotonation and hydrolysis and prevents intracellular outward movement of helices five and six - a universal activation event for GPCRs. Nb2 also mitigates protein misfolding in a disease-associated mutant rhodopsin. Our data show the power of nanobodies to modulate the photoactivation of rhodopsin and potentially serve as therapeutic agents for disease-associated rhodopsin misfolding.

Published
2023

3. Investigating the Role of Rhodopsin F45L Mutation in Mouse Rod Photoreceptor Signaling and Survival

Author

Poria, Deepak, Kolesnikov, Alexander V, Lee, Tae Jun, Salom, David, Palczewski, Krzysztof, and Kefalov, Vladimir J

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Neurosciences, Eye Disease and Disorders of Vision, 2.1 Biological and endogenous factors, Aetiology, Mice, Animals, Rhodopsin, Retinal Rod Photoreceptor Cells, Retina, Mutation, Dark Adaptation, electroretinogram, phototransduction, retinal degeneration, rhodopsin, rods
Abstract

Rhodopsin is the critical receptor molecule which enables vertebrate rod photoreceptor cells to detect a single photon of light and initiate a cascade of molecular events leading to visual perception. Recently, it has been suggested that the F45L mutation in the transmembrane helix of rhodopsin disrupts its dimerization in vitro To determine whether this mutation of rhodopsin affects its signaling properties in vivo, we generated knock-in mice expressing the rhodopsin F45L mutant. We then examined the function of rods in the mutant mice versus wild-type controls, using in vivo electroretinography and transretinal and single cell suction recordings, combined with morphologic analysis and spectrophotometry. Although we did not evaluate the effect of the F45L mutation on the state of dimerization of the rhodopsin in vivo, our results revealed that F45L-mutant mice exhibit normal retinal morphology, normal rod responses as measured both in vivo and ex vivo, and normal rod dark adaptation. We conclude that the F45L mutation does not affect the signaling properties of rhodopsin in its natural setting.

Published
2023

4. Ultrafast spectra and kinetics of human green-cone visual pigment at room temperature

Author

Dhankhar, Dinesh, Salom, David, Palczewski, Krzysztof, and Rentzepis, Peter M

Subjects
Biomedical and Clinical Sciences, Ophthalmology and Optometry, Neurosciences, Eye Disease and Disorders of Vision, Humans, Animals, Cattle, Rhodopsin, Cone Opsins, Kinetics, Temperature, Rod Opsins, Opsins, Color Vision, Retinal Cone Photoreceptor Cells, visual cycle, phototransduction, green cone-opsins, rhodopsin, 11-cis-retinal
Abstract

Rhodopsin is the pigment that enables night vision, whereas cone opsins are the pigments responsible for color vision in bright-light conditions. Despite their importance for vision, cone opsins are poorly characterized at the molecular level compared to rhodopsin. Spectra and kinetics of the intermediate states of human green-cone visual pigment (mid-wavelength sensitive, or MWS opsin) were measured and compared with the intermediates and kinetics of bovine rhodopsin. All the major intermediates of the MWS opsin were recorded in the picosecond to millisecond time range. Several intermediates in MWS opsin appear to have characteristics similar to the intermediates of bovine rhodopsin; however, there are some marked differences. One of the most striking differences is in their kinetics, where the kinetics of the MWS opsin intermediates are slower compared to those of the bovine rhodopsin intermediates.

Published
2023

5. Chromophore hydrolysis and release from photoactivated rhodopsin in native membranes.

Author

Hong, John, Salom, David, Kochman, Michał, Kubas, Adam, Kiser, Philip, and Palczewski, Krzysztof

Subjects
chromophore, eye, photoreceptors, retinoids, rhodopsin, Rhodopsin, Retinaldehyde, Vitamin A, Hydrolysis, NADP
Abstract

For sustained vision, photoactivated rhodopsin (Rho*) must undergo hydrolysis and release of all-trans-retinal, producing substrate for the visual cycle and apo-opsin available for regeneration with 11-cis-retinal. The kinetics of this hydrolysis has yet to be described for rhodopsin in its native membrane environment. We developed a method consisting of simultaneous denaturation and chromophore trapping by isopropanol/borohydride, followed by exhaustive protein digestion, complete extraction, and liquid chromatography-mass spectrometry. Using our method, we tracked Rho* hydrolysis, the subsequent formation of N-retinylidene-phosphatidylethanolamine (N-ret-PE) adducts with the released all-trans-retinal, and the reduction of all-trans-retinal to all-trans-retinol. We found that hydrolysis occurred faster in native membranes than in detergent micelles typically used to study membrane proteins. The activation energy of the hydrolysis in native membranes was determined to be 17.7 ± 2.4 kcal/mol. Our data support the interpretation that metarhodopsin II, the signaling state of rhodopsin, is the primary species undergoing hydrolysis and release of its all-trans-retinal. In the absence of NADPH, free all-trans-retinal reacts with phosphatidylethanolamine (PE), forming a substantial amount of N-ret-PE (∼40% of total all-trans-retinal at physiological pH), at a rate that is an order of magnitude faster than Rho* hydrolysis. However, N-ret-PE formation was highly attenuated by NADPH-dependent reduction of all-trans-retinal to all-trans-retinol. Neither N-ret-PE formation nor all-trans-retinal reduction affected the rate of hydrolysis of Rho*. Our study provides a comprehensive picture of the hydrolysis of Rho* and the release of all-trans-retinal and its reentry into the visual cycle, a process in which alteration can lead to severe retinopathies.

Published
2022

6. Capturing a rhodopsin receptor signalling cascade across a native membrane

Author

Chen, Siyun, Getter, Tamar, Salom, David, Wu, Di, Quetschlich, Daniel, Chorev, Dror S, Palczewski, Krzysztof, and Robinson, Carol V

Subjects
Biochemistry and Cell Biology, Chemical Sciences, Biological Sciences, Neurosciences, Eye Disease and Disorders of Vision, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Isomerism, Lipid Metabolism, Opsins, Optic Disk, Phosphatidylcholines, Protein Conformation, Receptors, G-Protein-Coupled, Rhodopsin, Transducin, General Science & Technology
Abstract

G protein-coupled receptors (GPCRs) are cell-surface receptors that respond to various stimuli to induce signalling pathways across cell membranes. Recent progress has yielded atomic structures of key intermediates1,2 and roles for lipids in signalling3,4. However, capturing signalling events of a wild-type receptor in real time, across a native membrane to its downstream effectors, has remained elusive. Here we probe the archetypal class A GPCR, rhodopsin, directly from fragments of native disc membranes using mass spectrometry. We monitor real-time photoconversion of dark-adapted rhodopsin to opsin, delineating retinal isomerization and hydrolysis steps, and further showing that the reaction is significantly slower in its native membrane than in detergent micelles. Considering the lipids ejected with rhodopsin, we demonstrate that opsin can be regenerated in membranes through photoisomerized retinal-lipid conjugates, and we provide evidence for increased association of rhodopsin with unsaturated long-chain phosphatidylcholine during signalling. Capturing the secondary steps of the signalling cascade, we monitor light activation of transducin (Gt) through loss of GDP to generate an intermediate apo-trimeric G protein, and observe Gαt•GTP subunits interacting with PDE6 to hydrolyse cyclic GMP. We also show how rhodopsin-targeting compounds either stimulate or dampen signalling through rhodopsin-opsin and transducin signalling pathways. Our results not only reveal the effect of native lipids on rhodopsin signalling and regeneration but also enable us to propose a paradigm for GPCR drug discovery in native membrane environments.

Published
2022

7. Nano-scale resolution of native retinal rod disk membranes reveals differences in lipid composition.

Author

Sander, Christopher, Sears, Avery, Pinto, Antonio, Choi, Elliot, Kahremany, Shirin, Gao, Fangyuan, Salom, David, Jin, Hui, Pardon, Els, Suh, Susie, Dong, Zhiqian, Steyaert, Jan, Saghatelian, Alan, Skowronska-Krawczyk, Dorota, Kiser, Philip, and Palczewski, Krzysztof

Subjects
ATP-Binding Cassette Transporters, Alcohol Oxidoreductases, Animals, Cattle, Cell Membrane, Eye Proteins, Lipidomics, Membrane Lipids, Membrane Proteins, Mice, Inbred BALB C, Mice, Knockout, Microscopy, Electron, Transmission, Nanotechnology, Peripherins, Retinal Rod Photoreceptor Cells, Rhodopsin, Single-Domain Antibodies, Tetraspanins
Abstract

Photoreceptors rely on distinct membrane compartments to support their specialized function. Unlike protein localization, identification of critical differences in membrane content has not yet been expanded to lipids, due to the difficulty of isolating domain-specific samples. We have overcome this by using SMA to coimmunopurify membrane proteins and their native lipids from two regions of photoreceptor ROS disks. Each samples copurified lipids were subjected to untargeted lipidomic and fatty acid analysis. Extensive differences between center (rhodopsin) and rim (ABCA4 and PRPH2/ROM1) samples included a lower PC to PE ratio and increased LC- and VLC-PUFAs in the center relative to the rim region, which was enriched in shorter, saturated FAs. The comparatively few differences between the two rim samples likely reflect specific protein-lipid interactions. High-resolution profiling of the ROS disk lipid composition gives new insights into how intricate membrane structure and protein activity are balanced within the ROS, and provides a model for future studies of other complex cellular structures.

Published
2021

8. Photic generation of 11-cis-retinal in bovine retinal pigment epithelium

Author

Zhang, Jianye, Choi, Elliot H, Tworak, Aleksander, Salom, David, Leinonen, Henri, Sander, Christopher L, Hoang, Thanh V, Handa, James T, Blackshaw, Seth, Palczewska, Grazyna, Kiser, Philip D, and Palczewski, Krzysztof

Subjects
Biomedical and Clinical Sciences, Ophthalmology and Optometry, Neurosciences, Eye Disease and Disorders of Vision, Eye, Animals, Cattle, Eye Proteins, Humans, Mice, Models, Molecular, Molecular Structure, RNA-Seq, Receptors, G-Protein-Coupled, Retinal Pigment Epithelium, Retinaldehyde, Stereoisomerism, enzymatic photoisomerization, 11-cis-retinal, 13-cis-retinal, visual chromophore, RPE-retinal G protein-coupled receptor, retinal pigment epithelium-specific 65 kDa protein, visible light, cellular retinaldehyde-binding protein, rhodopsin, cone opsin, G-protein–coupled receptor, retina, retinoid-binding protein, retinol, Chemical Sciences, Biological Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences
Abstract

Photoisomerization of the 11-cis-retinal chromophore of rod and cone visual pigments to an all-trans-configuration is the initiating event for vision in vertebrates. The regeneration of 11-cis-retinal, necessary for sustained visual function, is an endergonic process normally conducted by specialized enzyme systems. However, 11-cis-retinal also can be formed through reverse photoisomerization from all-trans-retinal. A nonvisual opsin known as retinal pigment epithelium (RPE)-retinal G-protein-coupled receptor (RGR) was previously shown to mediate visual chromophore regeneration in photic conditions, but conflicting results have cast doubt on its role as a photoisomerase. Here, we describe high-level production of 11-cis-retinal from RPE membranes stimulated by illumination at a narrow band of wavelengths. This activity was associated with RGR and enhanced by cellular retinaldehyde-binding protein (CRALBP), which binds the 11-cis-retinal produced by RGR and prevents its re-isomerization to all-trans-retinal. The activity was recapitulated with cells heterologously expressing RGR and with purified recombinant RGR. Using an RGR variant, K255A, we confirmed that a Schiff base linkage at Lys-255 is critical for substrate binding and isomerization. Single-cell RNA-Seq analysis of the retina and RPE tissue confirmed that RGR is expressed in human and bovine RPE and Müller glia, whereas mouse RGR is expressed in RPE but not in Müller glia. These results provide key insights into the mechanisms of physiological retinoid photoisomerization and suggest a novel mechanism by which RGR, in concert with CRALBP, regenerates the visual chromophore in the RPE under sustained light conditions.

Published
2019

9. Human red and green cone opsins are O-glycosylated at an N-terminal Ser/Thr–rich domain conserved in vertebrates

Author

Salom, David, Jin, Hui, Gerken, Thomas A, Yu, Clinton, Huang, Lan, and Palczewski, Krzysztof

Subjects
Eye Disease and Disorders of Vision, Neurosciences, Biotechnology, Animals, Cattle, Chickens, Cone Opsins, Glycosylation, HEK293 Cells, Humans, Macaca fascicularis, Protein Domains, Protein Processing, Post-Translational, Retinal Cone Photoreceptor Cells, Species Specificity, Xenopus laevis, G protein-coupled receptor, receptor, receptor structure-function, retinal metabolism, rhodopsin, Chemical Sciences, Biological Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology
Abstract

There are fundamental differences in the structures of outer segments between rod and cone photoreceptor cells in the vertebrate retina. Visual pigments are the only essential membrane proteins that differ between rod and cone outer segments, making it likely that they contribute to these structural differences. Human rhodopsin is N-glycosylated on Asn2 and Asn15, whereas human (h) red and green cone opsins (hOPSR and hOPSG, respectively) are N-glycosylated at Asn34 Here, utilizing a monoclonal antibody (7G8 mAB), we demonstrate that hOPSR and hOPSG from human retina also are O-glycosylated with full occupancy. We determined that 7G8 mAB recognizes the N-terminal sequence 21DSTQSSIF28 of hOPSR and hOPSG from extracts of human retina, but only after their O-glycans have been removed with O-glycosidase treatment, thus revealing this post-translational modification of red and green cone opsins. In addition, we show that hOPSR and hOPSG from human retina are recognized by jacalin, a lectin that binds to O-glycans, preferentially to Gal-GalNAc. Next, we confirmed the presence of O-glycans on OPSR and OPSG from several vertebrate species, including mammals, birds, and amphibians. Finally, the analysis of bovine OPSR by MS identified an O-glycan on Ser22, a residue that is semi-conserved (Ser or Thr) among vertebrate OPSR and OPSG. These results suggest that O-glycosylation is a fundamental feature of red and green cone opsins, which may be relevant to their function or to cone cell development, and that differences in this post-translational modification also could contribute to the different morphologies of rod and cone photoreceptors.

Published
2019

10. Ultrafast transient absorption spectra and kinetics of human blue cone visual pigment at room temperature.

Author

Krishnamoorthi, Arjun, Salom, David, Wu, Arum, Palczewski, Krzysztof, and Rentzepis, Peter M.

Subjects
*VISUAL pigments, *TIME-resolved spectroscopy, *ABSORPTION spectra, *RHODOPSIN, *BOS
Abstract

The ultrafast photochemical reaction mechanism, transient spectra, and transition kinetics of the human blue cone visual pigment have been recorded at room temperature. Ultrafast time-resolved absorption spectroscopy revealed the progressive formation and decay of several metastable photo-intermediates, corresponding to the Batho to Meta-II photo-intermediates previously observed with bovine rhodopsin and human green cone opsin, on the picosecond to millisecond timescales following pulsed excitation. The experimental data reveal several interesting similarities and differences between the photobleaching sequences of bovine rhodopsin, human green cone opsin, and human blue cone opsin. While Meta-II formation kinetics are comparable between bovine rhodopsin and blue cone opsin, the transition kinetics of earlier photo-intermediates and qualitative characteristics of the Meta-I to Meta-II transition are more similar for blue cone opsin and green cone opsin. Additionally, the blue cone photo-intermediate spectra exhibit a high degree of overlap with uniquely small spectral shifts. The observed variation in Meta-II formation kinetics between rod and cone visual pigments is explained based on key structural differences. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Two-photon imaging of the mammalian retina with ultrafast pulsing laser

Author

Palczewska, Grazyna, Stremplewski, Patrycjusz, Suh, Susie, Alexander, Nathan, Salom, David, Dong, Zhiqian, Ruminski, Daniel, Choi, Elliot H, Sears, Avery E, Kern, Timothy S, Wojtkowski, Maciej, and Palczewski, Krzysztof

Subjects
Biomedical and Clinical Sciences, Ophthalmology and Optometry, Bioengineering, Biomedical Imaging, Eye Disease and Disorders of Vision, Neurosciences, Eye, ATP-Binding Cassette Transporters, Alcohol Oxidoreductases, Animals, Disease Models, Animal, Female, Humans, Infrared Rays, Lasers, Male, Mice, Mice, Inbred BALB C, Mice, Knockout, Ophthalmoscopy, Optical Imaging, Photons, Retina, Retinal Diseases, cis-trans-Isomerases, Ophthalmology, Pharmacology, Biomedical and clinical sciences, Health sciences
Abstract

Noninvasive imaging of visual system components in vivo is critical for understanding the causal mechanisms of retinal diseases and for developing therapies for their treatment. However, ultraviolet light needed to excite endogenous fluorophores that participate in metabolic processes of the retina is highly attenuated by the anterior segment of the human eye. In contrast, 2-photon excitation fluorescence imaging with pulsed infrared light overcomes this obstacle. Reducing retinal exposure to laser radiation remains a major barrier in advancing this technology to studies in humans. To increase fluorescence intensity and reduce the requisite laser power, we modulated ultrashort laser pulses with high-order dispersion compensation and applied sensorless adaptive optics and custom image recovery software and observed an over 300% increase in fluorescence of endogenous retinal fluorophores when laser pulses were shortened from 75 fs to 20 fs. No functional or structural changes to the retina were detected after exposure to 2-photon excitation imaging light with 20-fs pulses. Moreover, wide bandwidth associated with short pulses enables excitation of multiple fluorophores with different absorption spectra and thus can provide information about their relative changes and intracellular distribution. These data constitute a substantial advancement for safe 2-photon fluorescence imaging of the human eye.

Published
2018

12. Increasing the Stability of Recombinant Human Green Cone Pigment.

Author

Owen, Timothy, Salom, David, Sun, Wenyu, and Palczewski, Krzysztof

Subjects
Animals, Archaeal Proteins, Carrier Proteins, Humans, Models, Molecular, Protein Conformation, Protein Stability, Pyrococcus abyssi, Recombinant Fusion Proteins, Retinaldehyde, Rod Opsins, Sf9 Cells, Temperature
Abstract

Three types of cone cells exist in the human retina, each containing a different pigment responsible for the initial step of phototransduction. These pigments are distinguished by their specific absorbance maxima: 425 nm (blue), 530 nm (green), and 560 nm (red). Each pigment contains a common chromophore, 11-cis-retinal covalently bound to an opsin protein via a Schiff base. The 11-cis-retinal protonated Schiff base has an absorbance maxima at 440 nm in methanol. Unfortunately, the chemistry that allows the same chromophore to interact with different opsin proteins to tune the absorbance of the resulting pigments to distinct λmax values is poorly understood. Rhodopsin is the only pigment with a native structure determined at high resolution. Homology models for cone pigments have been generated, but experimentally determined structures are needed for a precise understanding of spectral tuning. The principal obstacle to solving the structures of cone pigments has been their innate instability in recombinant constructs. By inserting five different thermostabilizing proteins (BRIL, T4L, PGS, RUB, and FLAV) into the recombinant green opsin sequence, constructs were created that were up to 9-fold more stable than WT. Using cellular retinaldehyde-binding protein (CRALBP), we developed a quick means of assessing the stability of the green pigment. CRALBP testing also confirmed an additional 48-fold increase in pigment stability when varying the detergent used. These results suggest an efficient protocol for routine purification and stabilization of cone pigments that could be used for high-resolution determination of their structures, as well as for other studies.

Published
2018

13. Complex binding pathways determine the regeneration of mammalian green cone opsin with a locked retinal analogue.

Author

Alexander, Nathan, Katayama, Kota, Sun, Wenyu, Salom, David, Gulati, Sahil, Zhang, Jianye, Mogi, Muneto, Palczewski, Krzysztof, and Jastrzebska, Beata

Subjects
G protein-coupled receptor (GPCR), membrane protein, photoreceptor, retinoid, rhodopsin, Animals, Humans, Models, Molecular, Opsins, Retinaldehyde, Sf9 Cells, Spodoptera
Abstract

Phototransduction is initiated when the absorption of light converts the 11-cis-retinal chromophore to its all-trans configuration in both rod and cone vertebrate photoreceptors. To sustain vision, 11-cis-retinal is continuously regenerated from its all-trans conformation through a series of enzymatic steps comprising the visual or retinoid cycle. Abnormalities in this cycle can compromise vision because of the diminished supply of 11-cis-retinal and the accumulation of toxic, constitutively active opsin. As shown previously for rod cells, attenuation of constitutively active opsin can be achieved with the unbleachable analogue, 11-cis-6-membered ring (11-cis-6mr)-retinal, which has therapeutic effects against certain degenerative retinal diseases. However, to discern the molecular mechanisms responsible for this action, pigment regeneration with this locked retinal analogue requires delineation also in cone cells. Here, we compared the regenerative properties of rod and green cone opsins with 11-cis-6mr-retinal and demonstrated that this retinal analogue could regenerate rod pigment but not green cone pigment. Based on structural modeling suggesting that Pro-205 in green cone opsin could prevent entry and binding of 11-cis-6mr-retinal, we initially mutated this residue to Ile, the corresponding residue in rhodopsin. However, this substitution did not enable green cone opsin to regenerate with 11-cis-6mr-retinal. Interestingly, deletion of 16 N-terminal amino acids in green cone opsin partially restored the binding of 11-cis-6mr-retinal. These results and our structural modeling indicate that a more complex binding pathway determines the regeneration of mammalian green cone opsin with chromophore analogues such as 11-cis-6mr-retinal.

Published
2017

14. Nutraceutical supplementation in inherited retinal dystrophies

Author

Velasco, Sheyla, primary, Olivares‐González, Lorena, additional, Morales, Silvia, additional, Valencia, Daira, additional, Esteban‐Medina, Marina, additional, Loucera, Carlos, additional, Salom, David, additional, García, Emilio González, additional, del Castillo, Jose Miguel Soriano, additional, and Rodrigo, Regina, additional

Published
2024
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16. Isotopic labeling of mammalian G protein-coupled receptors heterologously expressed in Caenorhabditis elegans.

Author

Salom, David, Cao, Pengxiu, Yuan, Yiyuan, Miyagi, Masaru, Feng, Zhaoyang, and Palczewski, Krzysztof

Subjects
Caenorhabditis elegans, G protein-coupled receptors (GPCRs), Heterologous expression, Isotopic labeling, Nuclear magnetic resonance (NMR), Rhodopsin, Animals, Animals, Genetically Modified, Caenorhabditis elegans, Cattle, Escherichia coli, Gene Expression, Isotope Labeling, Nuclear Magnetic Resonance, Biomolecular, Recombinant Proteins, Rhodopsin
Abstract

High-resolution structural determination and dynamic characterization of membrane proteins by nuclear magnetic resonance (NMR) require their isotopic labeling. Although a number of labeled eukaryotic membrane proteins have been successfully expressed in bacteria, they lack post-translational modifications and usually need to be refolded from inclusion bodies. This shortcoming of bacterial expression systems is particularly detrimental for the functional expression of G protein-coupled receptors (GPCRs), the largest family of drug targets, due to their inherent instability. In this work, we show that proteins expressed by a eukaryotic organism can be isotopically labeled and produced with a quality and quantity suitable for NMR characterization. Using our previously described expression system in Caenorhabditis elegans, we showed the feasibility of labeling proteins produced by these worms with (15)N,(13)C by providing them with isotopically labeled bacteria. (2)H labeling also was achieved by growing C. elegans in the presence of 70% heavy water. Bovine rhodopsin, simultaneously expressed in muscular and neuronal worm tissues, was employed as the test GPCR to demonstrate the viability of this approach. Although the worms cell cycle was slightly affected by the presence of heavy isotopes, the final protein yield and quality was appropriate for NMR structural characterization.

Published
2015

17. Human infrared vision is triggered by two-photon chromophore isomerization.

Author

Palczewska, Grazyna, Vinberg, Frans, Stremplewski, Patrycjusz, Bircher, Martin, Salom, David, Komar, Katarzyna, Zhang, Jianye, Cascella, Michele, Wojtkowski, Maciej, Kefalov, Vladimir, and Palczewski, Krzysztof

Subjects
multiscale modeling, rhodopsin, transretinal electrophysiology, two-photon absorption, visual pigment, Absorption, Radiation, Adult, Animals, Cattle, Computer Simulation, Electroretinography, Female, Humans, Infrared Rays, Isomerism, Lasers, Male, Mice, Photons, Photoreceptor Cells, Vertebrate, Psychophysics, Rhodopsin, Vision, Ocular
Abstract

Vision relies on photoactivation of visual pigments in rod and cone photoreceptor cells of the retina. The human eye structure and the absorption spectra of pigments limit our visual perception of light. Our visual perception is most responsive to stimulating light in the 400- to 720-nm (visible) range. First, we demonstrate by psychophysical experiments that humans can perceive infrared laser emission as visible light. Moreover, we show that mammalian photoreceptors can be directly activated by near infrared light with a sensitivity that paradoxically increases at wavelengths above 900 nm, and display quadratic dependence on laser power, indicating a nonlinear optical process. Biochemical experiments with rhodopsin, cone visual pigments, and a chromophore model compound 11-cis-retinyl-propylamine Schiff base demonstrate the direct isomerization of visual chromophore by a two-photon chromophore isomerization. Indeed, quantum mechanics modeling indicates the feasibility of this mechanism. Together, these findings clearly show that human visual perception of near infrared light occurs by two-photon isomerization of visual pigments.

Published
2014

19. The Impact of Nanobodies on G Protein–Coupled Receptor Structural Biology and Their Potential as Therapeutic Agents

Author

Salom, David, Wu, Arum, Liu, Chang C., and Palczewski, Krzysztof

Abstract

The family of human G protein–coupled receptors (GPCRs) comprises about 800 different members, with about 35% of current pharmaceutical drugs targeting GPCRs. However, GPCR structural biology, necessary for structure-guided drug design, has lagged behind that of other membrane proteins, and it was not until the year 2000 when the first crystal structure of a GPCR (rhodopsin) was solved. Starting in 2007, the determination of additional GPCR structures was facilitated by protein engineering, new crystallization techniques, complexation with antibody fragments, and other strategies. More recently, the use of camelid heavy-chain-only antibody fragments (nanobodies) as crystallographic chaperones has revolutionized the field of GPCR structural biology, aiding in the determination of more than 340 GPCR structures to date. In most cases, the GPCR structures solved as complexes with nanobodies (Nbs) have revealed the binding mode of cognate or non-natural ligands; in a few cases, the same Nb has acted as an orthosteric or allosteric modulator of GPCR signaling. In this review, we summarize the multiple ingenious strategies that have been conceived and implemented in the last decade to capitalize on the discovery of nanobodies to study GPCRs from a structural perspective.SIGNIFICANCE STATEMENTG protein–coupled receptors (GPCRs) are major pharmacological targets, and the determination of their structures at high resolution has been essential for structure-guided drug design and for insights about their functions. Single-domain antibodies (nanobodies) have greatly facilitated the structural determination of GPCRs by forming complexes directly with the receptors or indirectly through protein partners.

Published
2024
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23. NUTRARET: Effect of 2-Year Nutraceutical Supplementation on Redox Status and Visual Function of Patients With Retinitis Pigmentosa: A Randomized, Double-Blind, Placebo-Controlled Trial

Author

Olivares-González, Lorena, primary, Salom, David, additional, González-García, Emilio, additional, Hervás, David, additional, Mejía-Chiqui, Natalia, additional, Melero, Mar, additional, Velasco, Sheyla, additional, Muresan, Bianca Tabita, additional, Campillo, Isabel, additional, Vila-Clérigues, Nieves, additional, López-Briz, Eduardo, additional, Merino-Torres, Juan Francisco, additional, Millán, José María, additional, Soriano Del Castillo, José Miguel, additional, and Rodrigo, Regina, additional

Published
2022
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26. Anti-TNF-α therapy in patients with refractory uveitis due to Behçet’s disease: a 1-year follow-up study of 124 patients

Author

Calvo-Río, Vanesa, Blanco, Ricardo, Beltrán, Emma, Sánchez-Bursón, Juán, Mesquida, Marina, Adán, Alfredo, Hernandez, María Victoria, Hernandez Garfella, Marisa, Valls Pascual, Elia, Martínez-Costa, Lucía, Sellas-Fernández, Agustí, Cordero Coma, Miguel, Díaz-Llopis, Manuel, Gallego, Roberto, Salom, David, García Serrano, José L., Ortego, Norberto, Herreras, José M., Fonollosa, Alejandro, García-Aparicio, Ángel M., Maíz, Olga, Blanco, Ana, Torre, Ignacio, Fernández-Espartero, Cruz, Jovani, Vega, Peiteado-Lopez, Diana, Pato, Esperanza, Cruz, Juan, Fernández-Cid, Carlos, Aurrecoechea, Elena, García, Miriam, Caracuel, Miguel A., Montilla, Carlos, Atanes, Antonio, Hernandez, Félix Francisco, Insua, Santos, González-Suárez, Senén, Sánchez-Andrade, Amalia, Gamero, Fernando, Linares, Luis, Romero-Bueno, Fredeswinda, García, A. Javier, Almodovar, Raquel, Minguez, Enrique, Carrasco Cubero, Carmen, Olive, Alejandro, Vázquez, Julio, Ruiz Moreno, Oscar, Jiménez-Zorzo, Fernando, Manero, Javier, Muñoz Fernández, Santiago, Rueda-Gotor, Javier, and González-Gay, Miguel A.

Published
2014
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28. Structural basis for the function and inhibition of an influenza virus proton channel

Author

Stouffer, Amanda L., Acharya, Rudresh, Salom, David, Levine, Anna S., Di Costanzo, Luigi, Soto, Cinque S., Tereshko, Valentina, Nanda, Vikas, Stayrook, Steven, and DeGrado, William F.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The M2 protein from influenza A virus is a pH-activated proton channel that mediates acidification of the interior of viral particles entrapped in endosomes. M2 is the target of the [...]

Published
2008

32. Enzymatic Vitrectomy

Author

Salom, David, primary, Udaondo, Patricia, additional, Garcia-Delpech, Salvador, additional, and Díaz-Llopis, Manuel, additional

Published
2013
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36. pH-dependent tetramerization and amantadine binding of the transmembrane helix of M2 from the influenza A virus

Author

Salom, David, Hill, Blake R., Lear, James D., and DeGrado, William F.

Subjects
Influenza viruses -- Physiological aspects, Ion channels -- Physiological aspects, Hydrogen-ion concentration -- Physiological aspects, Amantadine -- Physiological aspects, Biological sciences, Chemistry
Abstract

Results indicate that M2 proton channel tetramerization and amantadine binding to the protein occurs preferentially at higher pH with the involvement of histidine amino acid residue. Data suggest that the drug competes with protons for binding to the deprotonated tetramer protein of the influenza A virus.

Published
2000

38. Total chemical synthesis of the integral membrane protein influenza A virus M2: role of its C-terminal domain in tetramer assembly

Author

Kochendoerfer, Gerd G., Salom, David, Lear, James D., Wilk-Orescan, Rosemarie, Kent, Stephen B.H., and DeGrado, William F.

Subjects
Circular dichroism -- Usage, Influenza viruses -- Research, Membrane proteins -- Research, Proteins -- Synthesis, Biological sciences, Chemistry
Abstract

The M2 protein derived from the influenza A virus was prepared by total synthesis through the utilization of native chemical ligation of unprotected peptide components. The use of circular dichroism spectroscopy on the synthesized 97-residue homotetrameric membrane protein in dodecylphosphocholine (DPC) micelles reveals that about 40 residues were in an alpha-helical secondary structure. Ultracentrifugation analysis reveal the existence of a monomer-tetramer equilibrium between the full-length protein and the peptide in the DPC micelles.

Published
1999

41. Environment- and sequence-dependent modulation of the double-stranded to single-stranded conformation transition of gramicidin A in membranes

Author

Salom, David, Perez-Paya, Enrique, Pascal, Jeanick, and Abad, Concepcion

Subjects
Membrane lipids -- Research, Gramicidins -- Research, Peptides -- Research, Membranes (Biology) -- Research, Biological sciences, Chemistry
Abstract

A study was conducted to analyze the functions of the membrane lipid composition and Trp residues on the conformation restructuring of gramicidin A, a linear hydrophobic peptide supporting an L,D-alternating sequence, along the folding pathway to its channel conformation. A cosolubilization of lipid and peptide was carried out to determine small unilamellar vesicles supporting gramicidin A or any of its analogues. Results indicated that the ds-dimer conformation of gramicidin A is unstable in membranes.

Published
1998

42. Characterization of gramicidin A in an inverted micellar environment: a combined high-performance liquid chromatographic and spectroscopic study

Author

Salom, David, Abad, Concepcion, and Braco, Lorenzo

Subjects
Gramicidins -- Research, High performance liquid chromatography -- Usage, Spectrum analysis -- Usage, Biological sciences, Chemistry
Abstract

An investigation was carried out of the conformational adaptability of gramicidin A incorporated into reverse micelles of sodium bis(2-ethylhexyl)sulfosuccinate (AOT)/isooctane/water, which is an unexplored host membrane-mimetic model system for this peptide. This system was studied using a high-performance liquid chromatographic strategy previously developed for the study of gramicidin in phospholipid vesicles and normal micelles. This method permits the separation of peptide conformational species, such as double-stranded dimers and monomers and an accurate quantification of their proportion in the micellar environment.

Published
1992

44. Successful Optimization of Adalimumab Therapy in Refractory Uveitis Due to Behçet's Disease

Author

Martín-Varillas, José Luis, primary, Calvo-Río, Vanesa, additional, Beltrán, Emma, additional, Sánchez-Bursón, Juan, additional, Mesquida, Marina, additional, Adán, Alfredo, additional, Hernandez, María Victoria, additional, Garfella, Marisa Hernández, additional, Pascual, Elia Valls, additional, Martínez-Costa, Lucía, additional, Sellas-Fernández, Agustí, additional, Cordero-Coma, Miguel, additional, Díaz-Llopis, Manuel, additional, Gallego, Roberto, additional, Salom, David, additional, Ortego, Norberto, additional, García-Serrano, José L., additional, Callejas-Rubio, José-Luis, additional, Herreras, José M., additional, García-Aparicio, Ángel, additional, Maíz, Olga, additional, Blanco, Ana, additional, Torre, Ignacio, additional, Díaz-Valle, David, additional, Pato, Esperanza, additional, Aurrecoechea, Elena, additional, Caracuel, Miguel A., additional, Gamero, Fernando, additional, Minguez, Enrique, additional, Carrasco-Cubero, Carmen, additional, Olive, Alejandro, additional, Vázquez, Julio, additional, Ruiz-Moreno, Oscar, additional, Manero, Javier, additional, Muñoz-Fernández, Santiago, additional, Martinez, Myriam Gandía, additional, Rubio-Romero, Esteban, additional, Toyos-Sáenz de Miera, F. Javier, additional, López Longo, Francisco Javier, additional, Nolla, Joan M., additional, Revenga, Marcelino, additional, González-Vela, Carmen, additional, Loricera, Javier, additional, Atienza-Mateo, Belén, additional, Demetrio-Pablo, Rosalía, additional, Hernández, José Luis, additional, González-Gay, Miguel A., additional, and Blanco, Ricardo, additional

Published
2018
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46. Heterologous expression and purification of the serotonin Type 4 receptor from transgenic mouse retina

Author

Salom, David, Nan Wu, Wenyu Sun, Zhiqian Dong, Palczewski, Krzysztof, Jordan, Steven, and Salon, John A.

Subjects
G proteins -- Chemical properties, Gene expression -- Analysis, Genetically modified mice -- Composition, Genetically modified mice -- Genetic aspects, Serotonin -- Chemical properties, Biological sciences, Chemistry
Abstract

The possibility of engineering transgenic mice that heterologously express 5HT4R in the retina's rod cells and the resulting receptor present in a pharmacologically relevant conformation is demonstrated. The findings from the expression method might be utilized to generate functional, high-quality G protein-coupled receptors (GPCR) protein.

Published
2008

47. Heterologous expression of the adenosine A1 receptor in transgenic mouse retina

Author

Ning Li, Salom, David, Li Zhang, Harris, Tim, Ballesteros, Juan A., Golczak, Marcin, Jastrzebska, Beata, Palczewski, Krzysztof, Kurahara, Carole, Juan, Todd, Jordan, Steven, and Salon, John A.

Subjects
Adenosine -- Structure, Adenosine -- Research, G proteins -- Properties, G proteins -- Research, Polymerase chain reaction -- Analysis, Xenopus -- Genetic aspects, Xenopus -- Research, Biological sciences, Chemistry
Abstract

An in vivo method is described that has used the photoreceptor system of the retina to heterologously express G protein-coupled receptors in a biochemically homologous and pharmacologically functional conformation. The localization of fully functional adenosine subtype A1 receptor protein (AA1R) in the retina's substrate, their biochemical homogeneity and pharmacological activity are presented as evidence for their successful functional expression.

Published
2007

48. Expression of functional G protein-coupled receptors in photoreceptors of transgenic Xenopus laevis

Author

Li Zhang, Salom, David, Jianhua He, Okun, Alex, Ballesteros, Juan, Palczewski, Krzysztof, and Ning Li

Subjects
Rhodopsin -- Structure, Rhodopsin -- Chemical properties, G proteins -- Research, Xenopus -- Genetic aspects, Xenopus -- Research, Biological sciences, Chemistry
Abstract

Transgenic Xenopus laevis is used to convert retina rod cells into bioreacters to successfully produce 20 models G protein-coupled receptors (GPCRs). An automated system is developed that can generate hundreds of transgenic tadpoles per day and this expression approach could be extended to other animal model systems and become a general method for the production of large numbers of GPCRs.

Published
2005

49. Endophthalmitis Caused by Listeria monocytogenes

Author

Vicente-Mas, Josep, Benitez, Rosa I., Salom, David, Abril, Vicente, Ballester, Jose E., Garcia-Deltoro, Miguel, and Ortega, Enrique

Subjects
Endophthalmitis -- Case studies -- Diagnosis -- Development and progression -- Causes of -- Drug therapy -- Health aspects, Listeria monocytogenes -- Health aspects -- Case studies, Bacteremia -- Case studies -- Development and progression -- Drug therapy -- Diagnosis -- Health aspects, Health
Abstract

Byline: Josep Vicente-Mas, MD, Rosa I. Benitez, MD, David Salom, MD, Vicente Abril, MD, PhD, Jose E. Ballester, MD, PhD, Miguel Garcia-Deltoro, MD, PhD, and Enrique Ortega, MD, PhD The [...]

Published
2007

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