Your search keyword '"Robinson PR"' showing total 85 results

1. Production in vitro of Paracetamol from Phenacetin and [2H]Acetanilide: A Study with Stable Isotopes

Author

Baty Jd and Robinson Pr

Subjects

chemistry.chemical_compound, Chemistry, Phenacetin, Stable isotope ratio, medicine, Organic chemistry, Biochemistry, Acetanilide, medicine.drug

Published

1977

2. Networking between community health programs: a case study outlining the effectiveness, barriers and enablers

Author

Grills Nathan J, Robinson Priscilla, and Phillip Maneesh

Subjects

Public aspects of medicine, RA1-1270

Abstract

Abstract Background In India, since the 1990s, there has been a burgeoning of NGOs involved in providing primary health care. This has resulted in a complex NGO-Government interface which is difficult for lone NGOs to navigate. The Uttarakhand Cluster, India, links such small community health programs together to build NGO capacity, increase visibility and better link to the government schemes and the formal healthcare system. This research, undertaken between 1998 and 2011, aims to examine barriers and facilitators to such linking, or clustering, and the effectiveness of this clustering approach. Methods Interviews, indicator surveys and participant observation were used to document the process and explore the enablers, the barriers and the effectiveness of networks improving community health. Results The analysis revealed that when activating, framing, mobilising and synthesizing the Uttarakhand Cluster, key brokers and network players were important in bridging between organisations. The ties (or relationships) that held the cluster together included homophily around common faith, common friendships and geographical location and common mission. Self interest whereby members sought funds, visibility, credibility, increased capacity and access to trainings was also a commonly identified motivating factor for networking. Barriers to network synthesizing included lack of funding, poor communication, limited time and lack of human resources. Risk aversion and mistrust remained significant barriers to overcome for such a network. Conclusions In conclusion, specific enabling factors allowed the clustering approach to be effective at increasing access to resources, creating collaborative opportunities and increasing visibility, credibility and confidence of the cluster members. These findings add to knowledge regarding social network formation and collaboration, and such knowledge will assist in the conceptualisation, formation and success of potential health networks in India and other developing world countries.

Published

2012

3. 'Communicate to vaccinate' (COMMVAC). building evidence for improving communication about childhood vaccinations in low- and middle-income countries: protocol for a programme of research

Author

Lewin Simon, Hill Sophie, Abdullahi Leyla H, de Castro Freire Sara, Bosch-Capblanch Xavier, Glenton Claire, Hussey Gregory D, Jones Catherine M, Kaufman Jessica, Lin Vivian, Mahomed Hassan, Rhoda Linda, Robinson Priscilla, Waggie Zainab, Willis Natalie, and Wiysonge Charles S

Subjects

Medicine (General), R5-920

Abstract

Abstract Background Effective provider-parent communication can improve childhood vaccination uptake and strengthen immunisation services in low- and middle-income countries (LMICs). Building capacity to improve communication strategies has been neglected. Rigorous research exists but is not readily found or applicable to LMICs, making it difficult for policy makers to use it to inform vaccination policies and practice. The aim of this project is to build research knowledge and capacity to use evidence-based strategies for improving communication about childhood vaccinations with parents and communities in LMICs. Methods and design This project is a mixed methods study with six sub-studies. In sub-study one, we will develop a systematic map of provider-parent communication interventions for childhood vaccinations by screening and extracting data from relevant literature. This map will inform sub-study two, in which we will develop a taxonomy of interventions to improve provider-parent communication around childhood vaccination. In sub-study three, the taxonomy will be populated with trial citations to create an evidence map, which will also identify how evidence is linked to communication barriers regarding vaccination. In the project's fourth sub-study, we will present the interventions map, taxonomy, and evidence map to international stakeholders to identify high-priority topics for systematic reviews of interventions to improve parent-provider communication for childhood vaccination. We will produce systematic reviews of the effects of high-priority interventions in the fifth sub-study. In the sixth and final sub-study of the project, evidence from the systematic reviews will be translated into accessible formats and messages for dissemination to LMICs. Discussion This project combines evidence mapping, conceptual and taxonomy development, priority setting, systematic reviews, and knowledge transfer. It will build and share concepts, terms, evidence, and resources to aid the development of communication strategies for effective vaccination programmes in LMICs.

Published

2011

4. Hallux valgus and hallux rigidus: a comparison of impact on health-related quality of life in patients presenting to foot surgeons in Australia

Author

Landorf Karl B, Gilheany Mark F, and Robinson Priscilla

Subjects

Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Hallux valgus and hallux rigidus are common foot conditions that lead to a deterioration in health status. Patients with significant pain or deformity from these conditions frequently resort to surgery. In this project, the foot health status of patients with hallux valgus and hallux rigidus presenting to foot surgeons in Australia was compared. Methods Foot health status was measured in 120 participants using the Foot Health Status Questionnaire (FHSQ), a validated 0 – 100 point health status instrument. All participants had presented for surgical advice regarding hallux valgus/rigidus. The mean age of participants was 48.0 years (SD ± 14.3, range 19 – 79). Results In the sample, 68% of participants were diagnosed with hallux valgus and 32% with hallux rigidus. Participants with hallux rigidus had greater levels of pain and functional limitation compared with hallux valgus. The mean difference for pain was 13.8 points (95% CI 4.6 to 22.9) and the mean difference for function was 15.0 points (95% CI 5.3 to 24.7). Both conditions result in similarly negative levels of impact on shoe fit and overall foot health. Conclusion This study found measurable differences in foot health status between hallux valgus and hallux rigidus in participants presenting for surgical consultation. While both appear to have a negative impact on health status, hallux rigidus has a more significant impact.

Published

2008

5. Formulation and validation of probioticated foxtail millet laddu as a source of antioxidant for biological system using response surface methodology.

Author

Subbaiyan R, Ganesan A, Varadharajan V, Jeyachandran PR, and Thangavel H

Subjects

Antioxidants, Lactobacillus, Lactobacillus acidophilus, Setaria Plant, Probiotics

Abstract

Probiotics play a critical role in supporting a healthy gut microbiome, which significantly impacts overall health and well-being. While there has been an increase in the availability of probiotic foods in recent years, there may still be limited options and accessibility in certain regions. This study focused on formulating a traditional Indian sweet called laddu enriched with millet and Lactobacillus acidophilus. The formulation of laddu ingredients was optimized using Design Expert software to create an optimal product for testing. The probiotic Lactobacillus acidophilus culture was incorporated into the laddu in three forms: lyophilized, microencapsulated powder, and natural curd. The probiotic foxtail laddu was selected based on specific criteria such as color, odor, and texture. The nutritional analysis revealed that the laddu contained approximately 64.46 g of carbohydrates, 15.13 g of protein, and 5.06 g of fat per 100 g of laddu. A microbial count analysis was performed over a two-month storage period to assess the viability of the incorporated Lactobacillus acidophilus. The results showed that the lyophilized and microencapsulated culture demonstrated good viability, with counts of 6.10 ± 0.09 log CFU/g and 7.43 ± 0.02 log CFU/g, respectively, when stored at 4 °C. In comparison, storage at room temperature resulted in counts of 5.41 ± 0.08 log CFU/g and 6.97 ± 0.02 log CFU/g at the end of the storage period. Based on the findings, the probiotic millet laddu developed in this study has the potential to be a value-added food product that can enhance the overall health of consumers. Incorporating probiotics into traditional food items like laddu offers a convenient and enjoyable way to promote gut health and improve the product's nutritional value., (© 2023. The Author(s) under exclusive licence to Sociedade Brasileira de Microbiologia.)

Published

2024

6. NaHCO3 loading causes increased arterial pressure and kidney damage in rats with chronic kidney disease.

Author

Mannon EC, Muller PR, Sun J, Bush WB, Coleman A, Ocasio H, Polichnowski AJ, Brands MW, and O'Connor PM

Subjects

Humans, Rats, Animals, Sodium Bicarbonate pharmacology, Sodium Bicarbonate therapeutic use, Sodium Chloride metabolism, Sodium Chloride pharmacology, Arterial Pressure, Kidney metabolism, Blood Pressure, Sodium Chloride, Dietary pharmacology, Hypertension, Renal Insufficiency, Chronic metabolism

Abstract

Sodium bicarbonate (NaHCO3) is commonly utilized as a therapeutic to treat metabolic acidosis in people with chronic kidney disease (CKD). While increased dietary sodium chloride (NaCl) is known to promote volume retention and increase blood pressure, the effects of NaHCO3 loading on blood pressure and volume retention in CKD remain unclear. In the present study, we compared the effects of NaCl and NaHCO3 loading on volume retention, blood pressure, and kidney injury in both 2/3 and 5/6 nephrectomy remnant kidney rats, a well-established rodent model of CKD. We tested the hypothesis that NaCl loading promotes greater volume retention and increases in blood pressure than equimolar NaHCO3. Blood pressure was measured 24 h daily using radio telemetry. NaCl and NaHCO3 were administered in drinking water ad libitum or infused via indwelling catheters. Rats were housed in metabolic cages to determine volume retention. Our data indicate that both NaHCO3 and NaCl promote hypertension and volume retention in remnant kidney rats, with salt-sensitivity increasing with greater renal mass reduction. Importantly, while NaHCO3 intake was less pro-hypertensive than equimolar NaCl intake, NaHCO3 was not benign. NaHCO3 loading significantly elevated blood pressure and promoted volume retention in rats with CKD when compared with control rats receiving tap water. Our findings provide important insight into the effects of sodium loading with NaHCO3 in CKD and indicate that NaHCO3 loading in patients with CKD is unlikely to be benign., (© 2024 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society.)

Published

2024

7. Improving equity of services for sexually transmitted infections through community pharmacies: A scoping review.

Author

Gonzalez PR, Black EK, Trenaman S, and Wilby KJ

Abstract

Background: Pharmacists have the potential to improve care for marginalized populations. Stigmatized and racialized groups may not find traditional health services accessible in other settings. Research focused on health care access for these populations is fundamental in understanding how to improve health equity., Objectives: This scoping review aimed to determine how health equity is addressed within services offered through community pharmacies for sexually transmitted infections (STIs)., Methods: This scoping review was conducted following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension for Scoping Reviews Checklist. A comprehensive search strategy was developed with an academic librarian to capture studies containing search terms related to each of the following 3 topics: STIs, pharmacy, and underserved groups. PubMed and Embase were both searched up to July 2023 and search results were uploaded to the screening software Covidence. Two researchers independently screened titles, abstracts, and full texts. Articles were included if they reported evaluation of a pharmacy-based sexual health service and addressed health equity in service design or implementation., Results: A total of 8 articles were identified that described services implemented for underserved groups. Four populations were identified: injection drug users, men who have sex with men, racial minorities, and those with low socioeconomic status. Equity was addressed through 2 mechanisms: location-based implementation of services in areas of high target population density or through specific targeting of marginalized populations in recruitment and promotion. All studies involved interventions for the prevention or testing services rather than assessment and treatment., Conclusions: Equity is not being readily addressed in pharmacy-based services for STIs yet evidence exists that considering equity in the design and implementation of services may improve reach to underserved populations., Competing Interests: Disclosure The authors declare no relevant conflicts of interest or financial relationships., (Copyright © 2023 American Pharmacists Association®. Published by Elsevier Inc. All rights reserved.)

Published

2024

8. Proteomic Analysis of Female Synovial Fluid to Identify Novel Biomarkers for Osteoarthritis.

Author

Muller PR, Lee TJ, Zhi W, Kumar S, Vyavahare S, Sharma A, Kumar V, Isales CM, Hunter M, and Fulzele S

Abstract

Osteoarthritis (OA) is a highly prevalent degenerative joint condition that disproportionately affects females. The pathophysiology of the disease is not well understood, which makes diagnosis and treatment difficult. Given the physical connection of synovial fluid (SF) with articular tissues, the SF's composition can reflect relevant biological modifications, and has therefore been a focus of research. Previously, we demonstrated that extracellular vesicles isolated from the synovial fluid of OA patients carry different cargo (protein and miRNA) in a sex-specific manner. Given the increased prevalence and severity of OA in females, this study aims to identify differential protein content within the synovial fluid of female OA and non-osteoarthritic (non-OA) patients. We found that several proteins were differentially expressed in osteoarthritic females compared with age-matched controls. Presenilin, Coagulation Factor X, Lysine-Specific Demethylase 2B, Tenascin C, Leucine-Rich Repeat-Containing Protein 17 fragments, and T-Complex Protein 1 were negatively regulated in the OA group, with PGD Synthase, Tubulointerstitial Nephritis Antigen, and Nuclear Receptor Binding SET Domain Protein 1 positively regulated in the OA group. Database for Annotation, Visualization, and Integrated Discovery (DAVID) and QuickGO analyses established these proteins as significantly involved in many biological, cellular, and molecular processes. In conclusion, the protein content of female synovial fluid is altered in OA patients, which is likely to provide insights into gender-specific pathophysiology.

Published

2023

9. Mental effort in the assessment of critical reflection: Implications for assessment quality and scoring.

Author

Gonzalez PR, Paravattil B, and Wilby KJ

Subjects

Humans, Reproducibility of Results, Clinical Competence, Educational Measurement methods

Abstract

Introduction: Critical reflection is a mainstay in the training of health professionals, yet assessment of reflection is commonly described as difficult, taxing, and resulting in inconsistent scoring across assessors. At the same time, there is evidence from experiential and simulation settings that assessors' mental effort may explain assessor variability, which could be a target for simplifications in assessment design. Assessors' mental effort for assessment of reflection is currently unknown. This study aimed to determine reliability of rubric scoring of critical reflection, variation in pass-fail rates, and the relationship between reflection scores and assessors' perceived mental effort., Methods: Eleven assessors were recruited to assess six reflection assignments using a published rubric. Mental effort was measured using the Paas scale for each assignment assessed and was correlated with rubric scores for each assignment., Results: Findings showed inconsistency in scoring between assessors, resulting in varying pass rates for each assignment (55-100%). All assignments demonstrated negative correlations between rubric scores and perceived mental effort (r = -0.115 to -0.649)., Conclusions: Findings support the notion that more work should be done to optimize assessment of critical reflection. Future studies should focus on disentangling the influence on mental effort of scoring tools, assignment structures, and writing quality., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

10. Melanopsin phototransduction: beyond canonical cascades.

Author

Contreras E, Nobleman AP, Robinson PR, and Schmidt TM

Subjects

Animals, Mice, Rats, Retina, Retinal Ganglion Cells, Light Signal Transduction, Rod Opsins

Abstract

Melanopsin is a visual pigment that is expressed in a small subset of intrinsically photosensitive retinal ganglion cells (ipRGCs). It is involved in regulating non-image forming visual behaviors, such as circadian photoentrainment and the pupillary light reflex, while also playing a role in many aspects of image-forming vision, such as contrast sensitivity. Melanopsin was initially discovered in the melanophores of the skin of the frog Xenopus, and subsequently found in a subset of ganglion cells in rat, mouse and primate retinas. ipRGCs were initially thought to be a single retinal ganglion cell population, and melanopsin was thought to activate a single, invertebrate-like Gq/transient receptor potential canonical (TRPC)-based phototransduction cascade within these cells. However, in the 20 years since the discovery of melanopsin, our knowledge of this visual pigment and ipRGCs has expanded dramatically. Six ipRGC subtypes have now been identified in the mouse, each with unique morphological, physiological and functional properties. Multiple subtypes have also been identified in other species, suggesting that this cell type diversity is a general feature of the ipRGC system. This diversity has led to a renewed interest in melanopsin phototransduction that may not follow the canonical Gq/TRPC cascade in the mouse or in the plethora of other organisms that express the melanopsin photopigment. In this Review, we discuss recent findings and discoveries that have challenged the prevailing view of melanopsin phototransduction as a single pathway that influences solely non-image forming functions., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published

2021

11. Spectral tuning and deactivation kinetics of marine mammal melanopsins.

Author

Fasick JI, Algrain H, Samuels C, Mahadevan P, Schweikert LE, Naffaa ZJ, and Robinson PR

Subjects

Amino Acid Sequence, Animals, Aquatic Organisms genetics, Aquatic Organisms metabolism, Caniformia genetics, Caniformia metabolism, Carnivora genetics, Cetacea genetics, Kinetics, Models, Molecular, Phylogeny, Rod Opsins chemistry, Rod Opsins genetics, Sequence Alignment, Sirenia genetics, Carnivora metabolism, Cetacea metabolism, Rod Opsins metabolism, Sirenia metabolism

Abstract

In mammals, the photopigment melanopsin (Opn4) is found in a subset of retinal ganglion cells that serve light detection for circadian photoentrainment and pupil constriction (i.e., mydriasis). For a given species, the efficiency of photoentrainment and length of time that mydriasis occurs is determined by the spectral sensitivity and deactivation kinetics of melanopsin, respectively, and to date, neither of these properties have been described in marine mammals. Previous work has indicated that the absorbance maxima (λmax) of marine mammal rhodopsins (Rh1) have diversified to match the available light spectra at foraging depths. However, similar to the melanopsin λmax of terrestrial mammals (~480 nm), the melanopsins of marine mammals may be conserved, with λmax values tuned to the spectrum of solar irradiance at the water's surface. Here, we investigated the Opn4 pigments of 17 marine mammal species inhabiting diverse photic environments including the Infraorder Cetacea, as well as the Orders Sirenia and Carnivora. Both genomic and cDNA sequences were used to deduce amino acid sequences to identify substitutions most likely involved in spectral tuning and deactivation kinetics of the Opn4 pigments. Our results show that there appears to be no amino acid substitutions in marine mammal Opn4 opsins that would result in any significant change in λmax values relative to their terrestrial counterparts. We also found some marine mammal species to lack several phosphorylation sites in the carboxyl terminal domain of their Opn4 pigments that result in significantly slower deactivation kinetics, and thus longer mydriasis, compared to terrestrial controls. This finding was restricted to cetacean species previously found to lack cone photoreceptor opsins, a condition known as rod monochromacy. These results suggest that the rod monochromat whales rely on extended pupillary constriction to prevent photobleaching of the highly photosensitive all-rod retina when moving between photopic and scotopic conditions., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

12. Decreased parenchymal arteriolar tone uncouples vessel-to-neuronal communication in a mouse model of vascular cognitive impairment.

Author

Kim KJ, Diaz JR, Presa JL, Muller PR, Brands MW, Khan MB, Hess DC, Althammer F, Stern JE, and Filosa JA

Subjects

Animals, Arterioles, Communication, Mice, Neurons, Cerebrovascular Circulation, Cognitive Dysfunction

Abstract

Chronic hypoperfusion is a key contributor to cognitive decline and neurodegenerative conditions, but the cellular mechanisms remain ill-defined. Using a multidisciplinary approach, we sought to elucidate chronic hypoperfusion-evoked functional changes at the neurovascular unit. We used bilateral common carotid artery stenosis (BCAS), a well-established model of vascular cognitive impairment, combined with an ex vivo preparation that allows pressurization of parenchymal arterioles in a brain slice. Our results demonstrate that mild (~ 30%), chronic hypoperfusion significantly altered the functional integrity of the cortical neurovascular unit. Although pial cerebral perfusion recovered over time, parenchymal arterioles progressively lost tone, exhibiting significant reductions by day 28 post-surgery. We provide supportive evidence for reduced adenosine 1 receptor-mediated vasoconstriction as a potential mechanism in the adaptive response underlying the reduced baseline tone in parenchymal arterioles. In addition, we show that in response to the neuromodulator adenosine, the action potential frequency of cortical pyramidal neurons was significantly reduced in all groups. However, a significant decrease in adenosine-induced hyperpolarization was observed in BCAS 14 days. At the microvascular level, constriction-induced inhibition of pyramidal neurons was significantly compromised in BCAS mice. Collectively, these results suggest that BCAS uncouples vessel-to-neuron communication-vasculo-neuronal coupling-a potential early event in cognitive decline.

Published

2021

13. The retinal pigments of the whale shark (Rhincodon typus) and their role in visual foraging ecology-CORRIGENDUM.

Author

Fasick JI, Algrain H, Serba KM, and Robinson PR

Published

2020

14. Response to Kuraku et al., 2020.

Author

Fasick JI and Robinson PR

Subjects

Animals, Ecology, Retinal Pigments, Sharks

Published

2020

15. Protein Phosphatase 2A and Clathrin-Mediated Endocytosis Facilitate Robust Melanopsin Light Responses and Resensitization.

Author

Valdez-Lopez JC, Gebreegziabher M, Bailey RJ, Flores J, Awotunde O, Burnett T, and Robinson PR

Subjects

Animals, Calcium Signaling physiology, HEK293 Cells, Humans, Mice, Mice, Inbred C57BL, Microscopy, Confocal, Photic Stimulation, Plasmids, RNA, Messenger genetics, Real-Time Polymerase Chain Reaction, Retinal Ganglion Cells radiation effects, Transfection, Vision, Ocular physiology, Clathrin physiology, Endocytosis physiology, Gene Expression Regulation physiology, Protein Phosphatase 2 physiology, Retinal Ganglion Cells metabolism, Rod Opsins metabolism

Abstract

Purpose: Intrinsically photosensitive retinal ganglion cells (ipRGCs) that express the visual pigment melanopsin regulate non-image-forming visual tasks, such as circadian photoentrainment and pupil constriction, as well as contrast detection for image formation. Sustained ipRGC function throughout the day is, therefore, of great importance. Melanopsin is a bistable rhabdomeric-type (R-type) visual pigment, which is thought to use light to regenerate its chromophore from all-trans-retinal back to 11-cis-retinal and does not depend on constant chromophore supply to the extent required by visual pigment in rod and cone photoreceptors. Like the majority of photopigments and G-protein-coupled receptors (GPCRs), melanopsin deactivation requires C-terminal phosphorylation and subsequent β-arrestin binding. We hypothesize that melanopsin utilizes canonical GPCR resensitization mechanisms, including dephosphorylation and endocytosis, during the light, and together, they provide a mechanism for prolonged light responses., Methods: Here, we examined expression of protein phosphatases from a variety of subfamilies by RT-PCR and immunohistochemical analyses of the mouse retina. The expression of protein phosphatase 2A (PP2A) in ipRGCs was assessed. We also examine the role of phosphatase and endocytic activity in sustaining melanopsin signaling using transiently-transfected HEK293 cells., Results: Our analyses suggest that melanopsin-mediated light responses can be rapidly and extensively enhanced by PP2A activity. Light-activated melanopsin undergoes endocytosis in a clathrin-dependent manner. This endocytic activity enhances light responses upon repeated stimulation, implicating a role for endocytic activity in resensitization., Conclusions: Thus, we propose that melanopsin phototransduction is maintained by utilizing canonical GPCR resensitization mechanisms rather than reliance on chromophore replenishment from supporting cells.

Published

2020

16. The C-Terminus and Third Cytoplasmic Loop Cooperatively Activate Mouse Melanopsin Phototransduction.

Author

Valdez-Lopez JC, Petr ST, Donohue MP, Bailey RJ, Gebreeziabher M, Cameron EG, Wolf JB, Szalai VA, and Robinson PR

Subjects

Animals, Light, Mice, Phosphorylation, Retinal Ganglion Cells metabolism, Light Signal Transduction, Rod Opsins genetics, Rod Opsins metabolism

Abstract

Melanopsin, an atypical vertebrate visual pigment, mediates non-image-forming light responses including circadian photoentrainment and pupillary light reflexes and contrast detection for image formation. Melanopsin-expressing intrinsically photosensitive retinal ganglion cells are characterized by sluggish activation and deactivation of their light responses. The molecular determinants of mouse melanopsin's deactivation have been characterized (i.e., C-terminal phosphorylation and β-arrestin binding), but a detailed analysis of melanopsin's activation is lacking. We propose that an extended third cytoplasmic loop is adjacent to the proximal C-terminal region of mouse melanopsin in the inactive conformation, which is stabilized by the ionic interaction of these two regions. This model is supported by site-directed spin labeling and electron paramagnetic resonance spectroscopy of melanopsin, the results of which suggests a high degree of steric freedom at the third cytoplasmic loop, which is increased upon C-terminus truncation, supporting the idea that these two regions are close in three-dimensional space in wild-type melanopsin. To test for a functionally critical C-terminal conformation, calcium imaging of melanopsin mutants including a proximal C-terminus truncation (at residue 365) and proline mutation of this proximal region (H377P, L380P, Y382P) delayed melanopsin's activation rate. Mutation of all potential phosphorylation sites, including a highly conserved tyrosine residue (Y382), into alanines also delayed the activation rate. A comparison of mouse melanopsin with armadillo melanopsin-which has substitutions of various potential phosphorylation sites and a substitution of the conserved tyrosine-indicates that substitution of these potential phosphorylation sites and the tyrosine residue result in dramatically slower activation kinetics, a finding that also supports the role of phosphorylation in signaling activation. We therefore propose that melanopsin's C-terminus is proximal to intracellular loop 3, and C-terminal phosphorylation permits the ionic interaction between these two regions, thus forming a stable structural conformation that is critical for initiating G-protein signaling., (Copyright © 2020 Biophysical Society. All rights reserved.)

Published

2020

17. Melanopsin Carboxy-terminus phosphorylation plasticity and bulk negative charge, not strict site specificity, achieves phototransduction deactivation.

Author

Valdez-Lopez JC, Gulati S, Ortiz EA, Palczewski K, and Robinson PR

Subjects

HEK293 Cells, Humans, Models, Molecular, Mutagenesis, Site-Directed, Mutation, Phosphorylation physiology, Protein Binding, Receptor, Angiotensin, Type 1 genetics, Receptor, Angiotensin, Type 1 metabolism, Receptors, Adrenergic, beta-2 genetics, Receptors, Adrenergic, beta-2 metabolism, Recombinant Fusion Proteins genetics, Rod Opsins chemistry, Rod Opsins genetics, Serine genetics, Serine metabolism, Threonine genetics, Threonine metabolism, beta-Arrestin 1 chemistry, Light Signal Transduction physiology, Recombinant Fusion Proteins metabolism, Rod Opsins metabolism, beta-Arrestin 1 metabolism

Abstract

Melanopsin is a visual pigment expressed in a small subset of ganglion cells in the mammalian retina known as intrinsically photosensitive retinal ganglion cells (ipRGCs) and is implicated in regulating non-image forming functions such as circadian photoentrainment and pupil constriction and contrast sensitivity in image formation. Mouse melanopsin's Carboxy-terminus (C-terminus) possesses 38 serine and threonine residues, which can potentially serve as phosphorylation sites for a G-protein Receptor Kinase (GRK) and be involved in the deactivation of signal transduction. Previous studies suggest that S388, T389, S391, S392, S394, S395 on the proximal region of the C-terminus of mouse melanopsin are necessary for melanopsin deactivation. We expressed a series of mouse melanopsin C-terminal mutants in HEK293 cells and using calcium imaging, and we found that the necessary cluster of six serine and threonine residues, while being critical, are insufficient for proper melanopsin deactivation. Interestingly, the additional six serine and threonine residues adjacent to the required six sites, in either proximal or distal direction, are capable of restoring wild-type deactivation of melanopsin. These findings suggest an element of plasticity in the molecular basis of melanopsin phosphorylation and deactivation. In addition, C-terminal chimeric mutants and molecular modeling studies support the idea that the initial steps of deactivation and β-arrestin binding are centered around these critical phosphorylation sites (S388-S395). The degree of functional versatility described in this study, along with ipRGC biophysical heterogeneity and the possible use of multiple signal transduction cascades, might contribute to the diverse ipRGC light responses for use in non-image and image forming behaviors, even though all six sub types of ipRGCs express the same melanopsin gene OPN4., Competing Interests: The authors declare that they have no conflicts of interest with the contents of this article. Affiliation with Gatan Inc. presents no conflict of interest with the contents of this article; it is the current affiliation of author SG. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2020

18. Correction to: Radical scavenging and antiproliferative effect of novel phenolic derivatives isolated from Nerium indicum against human breast cancer cell line (MCF-7)-an in silico and in vitro approach.

Author

Arunachalam T, Khader SZA, Syed Zameer Ahmed S, Vetrivel M, Syed Ameen ST, Ameer Khadharu IS, Prabhu P, Jayachandran PR, and M Sabu D

Abstract

The correct presentation of the Author names are shown in this paper.

Published

2020

19. Radical scavenging and antiproliferative effect of novel phenolic derivatives isolated from Nerium indicum against human breast cancer cell line (MCF-7)-an in silico and in vitro approach.

Author

Arunachalam T, Khader SZA, Syed Zameer Ahmed S, Vetrivel M, Syed Ameen ST, Ameer Khadharu IS, Prabhu P, Jayachandran PR, and Sabu DM

Subjects

Apoptosis drug effects, Cell Proliferation drug effects, Humans, MCF-7 Cells, Phenols pharmacology, Antineoplastic Agents pharmacology, Breast Neoplasms drug therapy, Nerium

Abstract

Multiple drug resistance and increased side effects due to allopathic drugs has warned scientific community with a global alarm to identify molecules from natural sources to combat diseases with minimum or no side effects. The present investigation was aimed to identify and isolate secondary metabolites from traditionally used Nerium indicum using conventional column chromatography which led to the isolation of two compounds, C-I (fractions NB4f1) and C-II (fractions NC13b1). Further characterized, it is elucidated using spectral data and identified as N-(4-hydroxy-phenyl)-2-methoxy-2-phenyl-acetamide, molecular formula C 15 H 15 NO 3 , and molecular weight 257.3 (C-I) and N-(4-hydroxy-phenyl)-2-phenyl-N-phenylacetyl-acetamide, molecular formula C 22 H 19 NO 3 , and molecular weight 345.4 (C-II). Further, the isolated compounds were investigated using in silico approach by Autodock tool with four different proteins specific for cancer and in vitro assessed cell proliferation, and apoptosis against human breast cancer MCF 7 cell line. The results of the in silico model demonstrated potent binding affinity of both compounds with the proteins representing that the isolated molecules could be a drug of choice for cancer. Further, the isolated compounds revealed significant inhibition of cell proliferation (IC 50 values 21 μg/mL for C-I, 19 μg/mL for C-II) with induced apoptosis with nuclear condensation effect on the MCF 7 cells in in vitro condition even at very low concentration. Compound treatment to MCF-7 cell line represented bright fetches indicating condensed chromatins and higher level of nuclear fragmentation with DAPI staining, indicating higher cell death due to induced apoptosis and confirmed using flow cytometry analysis representing inhibition of cell proliferation at S phase. Graphical abstract.

Published

2020

20. The retinal pigments of the whale shark ( Rhincodon typus ) and their role in visual foraging ecology.

Author

Fasick JI, Algrain H, Serba KM, and Robinson PR

Subjects

Animals, Cone Opsins physiology, Optical Phenomena, Retinal Cone Photoreceptor Cells physiology, Rhodopsin physiology, Sharks physiology

Abstract

The spectral tuning properties of the whale shark (Rhincodon typus) rod (rhodopsin or Rh1) and long-wavelength-sensitive (LWS) cone visual pigments were examined to determine whether these retinal pigments have adapted to the broadband light spectrum available for surface foraging or to the narrowband blue-shifted light spectrum available at depth. Recently published whale shark genomes have identified orthologous genes for both the whale shark Rh1 and LWS cone opsins suggesting a duplex retina. Here, the whale shark Rh1 and LWS cone opsin sequences were examined to identify amino acid residues critical for spectral tuning. Surprisingly, the predicted absorbance maximum (λmax) for both the whale shark Rh1 and LWS visual pigments is near 500 nm. Although Rh1 λmax values near 500 nm are typical of terrestrial vertebrates, as well as surface foraging fish, it is uncommon for a vertebrate LWS cone pigment to be so greatly blue-shifted. We propose that the spectral tuning properties of both the whale shark Rh1 and LWS cone pigments are most likely adaptations to the broadband light spectrum available at the surface. Whale shark melanopsin (Opn4) deactivation kinetics was examined to better understand the underlying molecular mechanisms of the pupillary light reflex. Results show that the deactivation rate of whale shark Opn4 is similar to the Opn4 deactivation rate from vertebrates possessing duplex retinae and is significantly faster than the Opn4 deactivation rate from an aquatic rod monochromat lacking functional cone photoreceptors. The rapid deactivation rate of whale shark Opn4 is consistent with a functional cone class and would provide the animal with an exponential increase in the number of photons required for photoreceptor signaling when transitioning from photopic to scotopic light conditions, as is the case when diving.

Published

2019

21. C-terminal phosphorylation regulates the kinetics of a subset of melanopsin-mediated behaviors in mice.

Author

Somasundaram P, Wyrick GR, Fernandez DC, Ghahari A, Pinhal CM, Simmonds Richardson M, Rupp AC, Cui L, Wu Z, Brown RL, Badea TC, Hattar S, and Robinson PR

Subjects

Animals, Circadian Rhythm genetics, Kinetics, Light, Light Signal Transduction physiology, Mice, Patch-Clamp Techniques, Phosphorylation genetics, Photoreceptor Cells, Vertebrate metabolism, Photoreceptor Cells, Vertebrate physiology, Reflex, Pupillary genetics, Reflex, Pupillary physiology, Retina metabolism, Retina physiology, Retinal Ganglion Cells physiology, Rod Opsins chemistry, Rod Opsins genetics, Synapses genetics, Synapses metabolism, Vision, Ocular genetics, Vision, Ocular physiology, Behavior, Animal, Light Signal Transduction genetics, Retinal Ganglion Cells metabolism, Rod Opsins metabolism

Abstract

Intrinsically photosensitive retinal ganglion cells (ipRGCs) express the photopigment melanopsin and mediate several non-image-forming visual functions, including circadian photoentrainment and the pupillary light reflex (PLR). ipRGCs act as autonomous photoreceptors via the intrinsic melanopsin-based phototransduction pathway and as a relay for rod/cone input via synaptically driven responses. Under low light intensities, where only synaptically driven rod/cone input activates ipRGCs, the duration of the ipRGC response will be determined by the termination kinetics of the rod/cone circuits. Little is known, however, about the termination kinetics of the intrinsic melanopsin-based phototransduction pathway and its contribution to several melanopsin-mediated behaviors. Here, we show that C-terminal phosphorylation of melanopsin determines the recovery kinetics of the intrinsic melanopsin-based photoresponse in ipRGCs, the duration of the PLR, and the speed of reentrainment. In contrast, circadian phase alignment and direct effects of light on activity (masking) are not influenced by C-terminal phosphorylation of melanopsin. Electrophysiological measurements demonstrate that expression of a virally encoded melanopsin lacking all C-terminal phosphorylation sites (C terminus phosphonull) leads to a prolonged intrinsic light response. In addition, mice expressing the C terminus phosphonull in ipRGCs reentrain faster to a delayed light/dark cycle compared with mice expressing virally encoded WT melanopsin; however, the phase angle of entrainment and masking were indistinguishable. Importantly, a sustained PLR in the phosphonull animals is only observed at brighter light intensities that activate melanopsin phototransduction, but not at dimmer light intensities that activate only the rod/cone pathway. Taken together, our results highlight how the kinetics of the melanopsin photoresponse differentially regulate distinct light-mediated behaviors.

Published

2017

22. A visual circuit uses complementary mechanisms to support transient and sustained pupil constriction.

Author

Keenan WT, Rupp AC, Ross RA, Somasundaram P, Hiriyanna S, Wu Z, Badea TC, Robinson PR, Lowell BB, and Hattar SS

Subjects

Glutamic Acid metabolism, Neurotransmitter Agents metabolism, Pituitary Adenylate Cyclase-Activating Polypeptide metabolism, Light, Photoreceptor Cells physiology, Photoreceptor Cells radiation effects, Pupil physiology, Retinal Ganglion Cells physiology, Retinal Ganglion Cells radiation effects

Abstract

Rapid and stable control of pupil size in response to light is critical for vision, but the neural coding mechanisms remain unclear. Here, we investigated the neural basis of pupil control by monitoring pupil size across time while manipulating each photoreceptor input or neurotransmitter output of intrinsically photosensitive retinal ganglion cells (ipRGCs), a critical relay in the control of pupil size. We show that transient and sustained pupil responses are mediated by distinct photoreceptors and neurotransmitters. Transient responses utilize input from rod photoreceptors and output by the classical neurotransmitter glutamate, but adapt within minutes. In contrast, sustained responses are dominated by non-conventional signaling mechanisms: melanopsin phototransduction in ipRGCs and output by the neuropeptide PACAP, which provide stable pupil maintenance across the day. These results highlight a temporal switch in the coding mechanisms of a neural circuit to support proper behavioral dynamics., Competing Interests: The authors declare that no competing interests exist.

Published

2016

23. Promoting faculty professionalism: a case-based approach.

Author

Dieter PM, Hudak NM, and Robinson PR

Abstract

Introduction: Professionalism is a key attribute for health professionals. Yet, it is unknown how much faculty development is directed toward skills and behaviours of faculty professionalism. Faculty professionalism includes boundaries in teacher-student relationships, self-reflection, assuring one's own fitness for duty, and maintaining confidentiality when appropriate., Methods: For five years, we have incorporated faculty professionalism as a routine agenda item for the monthly Physician Assistant Programme faculty meetings, allowing faculty members to introduce issues they are comfortable sharing or have questions about. We also have case discussions of faculty professionalism within faculty meetings every three months., Results: Faculty professionalism is important in the daily work lives of faculty members and including this as part of routine agendas verifies its importance. A faculty survey showed that a majority look forward to the quarterly faculty professionalism case discussions. These have included attempted influence in the admissions process, student/faculty social boundaries, civic professionalism, students requesting medical advice, and self-disclosure., Conclusion: A preventive approach works better than a reactionary approach to faculty missteps in professionalism. Routine discussion of faculty professionalism normalizes the topic and is helpful to both new and experienced faculty members. We recommend incorporation of faculty professionalism as a regular agenda item in faculty meetings.

Published

2015

24. β-Arrestin-dependent deactivation of mouse melanopsin.

Author

Cameron EG and Robinson PR

Subjects

Animals, Arrestins genetics, Blotting, Western, Cells, Cultured, HEK293 Cells, Humans, Immunoprecipitation, Mice, Mice, Inbred C57BL, Phosphorylation, Photic Stimulation methods, Polymerase Chain Reaction, Retinal Ganglion Cells radiation effects, Signal Transduction, beta-Arrestin 1, beta-Arrestin 2, beta-Arrestins, Arrestins metabolism, Light, Retinal Ganglion Cells metabolism, Rod Opsins antagonists & inhibitors, Rod Opsins physiology

Abstract

In mammals, the expression of the unusual visual pigment, melanopsin, is restricted to a small subset of intrinsically photosensitive retinal ganglion cells (ipRGCs), whose signaling regulate numerous non-visual functions including sleep, circadian photoentrainment and pupillary constriction. IpRGCs exhibit attenuated electrical responses following sequential and prolonged light exposures indicative of an adaptational response. The molecular mechanisms underlying deactivation and adaptation in ipRGCs however, have yet to be fully elucidated. The role of melanopsin phosphorylation and β-arrestin binding in this adaptive process is suggested by the phosphorylation-dependent reduction of melanopsin signaling in vitro and the ubiquitous expression of β-arrestin in the retina. These observations, along with the conspicuous absence of visual arrestin in ipRGCs, suggest that a β-arrestin terminates melanopsin signaling. Here, we describe a light- and phosphorylation- dependent reduction in melanopsin signaling mediated by both β-arrestin 1 and β-arrestin 2. Using an in vitro calcium imaging assay, we demonstrate that increasing the cellular concentration of β-arrestin 1 and β-arrestin 2 significantly increases the rate of deactivation of light-activated melanopsin in HEK293 cells. Furthermore, we show that this response is dependent on melanopsin carboxyl-tail phosphorylation. Crosslinking and co-immunoprecipitation experiments confirm β-arrestin 1 and β-arrestin 2 bind to melanopsin in a light- and phosphorylation- dependent manner. These data are further supported by proximity ligation assays (PLA), which demonstrate a melanopsin/β-arrestin interaction in HEK293 cells and ipRGCs. Together, these results suggest that melanopsin signaling is terminated in a light- and phosphorylation-dependent manner through the binding of a β-arrestin within the retina.

Published

2014

25. Characterization of visual pigments, oil droplets, lens and cornea in the whooping crane Grus americana.

Author

Porter ML, Kingston AC, McCready R, Cameron EG, Hofmann CM, Suarez L, Olsen GH, Cronin TW, and Robinson PR

Subjects

Animals, Birds genetics, Birds metabolism, Cornea physiology, Cornea radiation effects, Lens, Crystalline physiology, Lens, Crystalline radiation effects, Microspectrophotometry, Ultraviolet Rays, Birds physiology, Lipid Droplets metabolism, Ocular Physiological Phenomena, Opsins analysis, Retina chemistry

Abstract

Vision has been investigated in many species of birds, but few studies have considered the visual systems of large birds and the particular implications of large eyes and long-life spans on visual system capabilities. To address these issues we investigated the visual system of the whooping crane Grus americana (Gruiformes, Gruidae), which is one of only two North American crane species. It is a large, long-lived bird in which UV sensitivity might be reduced by chromatic aberration and entrance of UV radiation into the eye could be detrimental to retinal tissues. To investigate the whooping crane visual system we used microspectrophotometry to determine the absorbance spectra of retinal oil droplets and to investigate whether the ocular media (i.e. the lens and cornea) absorb UV radiation. In vitro expression and reconstitution was used to determine the absorbance spectra of rod and cone visual pigments. The rod visual pigments had wavelengths of peak absorbance (λmax) at 500 nm, whereas the cone visual pigment λmax values were determined to be 404 nm (SWS1), 450 nm (SWS2), 499 nm (RH2) and 561 nm (LWS), similar to other characterized bird visual pigment absorbance values. The oil droplet cut-off wavelength (λcut) values similarly fell within ranges recorded in other avian species: 576 nm (R-type), 522 nm (Y-type), 506 nm (P-type) and 448 nm (C-type). We confirm that G. americana has a violet-sensitive visual system; however, as a consequence of the λmax of the SWS1 visual pigment (404 nm), it might also have some UV sensitivity., (© 2014. Published by The Company of Biologists Ltd.)

Published

2014

26. Identification of critical phosphorylation sites on the carboxy tail of melanopsin.

Author

Blasic JR Jr, Matos-Cruz V, Ujla D, Cameron EG, Hattar S, Halpern ME, and Robinson PR

Subjects

Amino Acid Sequence, Animals, HEK293 Cells, Humans, Kinetics, Light, Mice, Molecular Sequence Data, Multigene Family, Mutation, Phosphorylation, Protein Structure, Tertiary, Rod Opsins genetics, Zebrafish Proteins genetics, Rod Opsins metabolism, Zebrafish Proteins metabolism

Abstract

Light-activated opsins undergo carboxy-terminal phosphorylation, which contributes to the deactivation of their photoresponse. The photopigment melanopsin possesses an unusually long carboxy tail containing 37 serine and threonine sites that are potential sites for phosphorylation by a G-protein dependent kinase (GRK). Here, we show that a small cluster of six to seven sites is sufficient for deactivation of light-activated mouse melanopsin. Surprisingly, these sites are distinct from those that regulate deactivation of rhodopsin. In zebrafish, there are five different melanopsin genes that encode proteins with distinct carboxy-terminal domains. Naturally occurring changes in the same cluster of phosphorylatable amino acids provides diversity in the deactivation kinetics of the zebrafish proteins. These results suggest that variation in phosphorylation sites provides flexibility in the duration and kinetics of melanopsin-mediated light responses.

Published

2014

27. Applied magnetic field design for the field reversed configuration compression heating experiment.

Author

Domonkos MT, Amdahl D, Camacho JF, Coffey SK, Degnan JH, Delaney R, Frese M, Gale D, Grabowski TC, Gribble R, Intrator TP, McCullough J, Montano N, Robinson PR, and Wurden G

Abstract

Detailed calculations of the formation, guide, and mirror applied magnetic fields in the FRC compression-heating experiment (FRCHX) were conducted using a commercially available generalized finite element solver, COMSOL Multiphysics(®). In FRCHX, an applied magnetic field forms, translates, and finally captures the FRC in the liner region sufficiently long to enable compression. Large single turn coils generate the fast magnetic fields necessary for FRC formation. Solenoidal coils produce the magnetic field for translation and capture of the FRC prior to liner implosion. Due to the limited FRC lifetime, liner implosion is initiated before the FRC is injected, and the magnetic flux that diffuses into the liner is compressed. Two-dimensional axisymmetric magnetohydrodynamic simulations using MACH2 were used to specify optimal magnetic field characteristics, and this paper describes the simulations conducted to design magnetic field coils and compression hardware for FRCHX. This paper presents the vacuum solution for the magnetic field.

Published

2013

28. Cerebral and muscle MRI abnormalities in myotonic dystrophy.

Author

Franc DT, Muetzel RL, Robinson PR, Rodriguez CP, Dalton JC, Naughton CE, Mueller BA, Wozniak JR, Lim KO, and Day JW

Subjects

Adult, Diffusion Tensor Imaging, Humans, Magnetic Resonance Imaging, Middle Aged, Nerve Fibers, Myelinated pathology, Nerve Fibers, Unmyelinated pathology, Cerebral Cortex pathology, Muscle, Skeletal pathology, Myotonic Dystrophy pathology

Abstract

Pathophysiological mechanisms underlying the clinically devastating CNS features of myotonic dystrophy (DM) remain more enigmatic and controversial than do the muscle abnormalities of this common form of muscular dystrophy. To better define CNS and cranial muscle changes in DM, we used quantitative volumetric and diffusion tensor MRI methods to measure cerebral and masticatory muscle differences between controls (n=5) and adults with either congenital (n=5) or adult onset (n=5) myotonic dystrophy type 1 and myotonic dystrophy type 2 (n=5). Muscle volumes were diminished in DM1 and strongly correlated with reduced white matter integrity and gray matter volume. Moreover, correlation of reduced fractional anisotropy (white matter integrity) and gray matter volume in both DM1 and DM2 suggests that these abnormalities may share a common underlying pathophysiological mechanism. Further quantitative temporal and spatial characterization of these features will help delineate developmental and progressive neurological components of DM, and help determine the causative molecular and cellular mechanisms., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

29. Light-dependent phosphorylation of the carboxy tail of mouse melanopsin.

Author

Blasic JR Jr, Lane Brown R, and Robinson PR

Subjects

Animals, Calcium Signaling, G-Protein-Coupled Receptor Kinase 2 antagonists & inhibitors, G-Protein-Coupled Receptor Kinase 2 genetics, G-Protein-Coupled Receptor Kinase 2 metabolism, G-Protein-Coupled Receptor Kinase 3 antagonists & inhibitors, G-Protein-Coupled Receptor Kinase 3 genetics, G-Protein-Coupled Receptor Kinase 3 metabolism, HEK293 Cells, Humans, In Vitro Techniques, Light, Mice, Mice, Inbred C57BL, Mutagenesis, Site-Directed, Phosphorylation, RNA Interference, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Recombinant Proteins radiation effects, Retina chemistry, Retina metabolism, Retina radiation effects, Retinal Ganglion Cells metabolism, Rod Opsins metabolism, Vision, Ocular, Rod Opsins chemistry, Rod Opsins radiation effects

Abstract

Melanopsin-based phototransduction is involved in non-image forming light responses including circadian entrainment, pupil constriction, suppression of pineal melatonin synthesis, and direct photic regulation of sleep in vertebrates. Given that the functions of melanopsin involve the measurement and summation of total environmental luminance, there would appear to be no need for the rapid deactivation typical of other G-protein coupled receptors. In this study, however, we demonstrate that heterologously expressed mouse melanopsin is phosphorylated in a light-dependent manner, and that this phosphorylation is involved in regulating the rate of G-protein activation and the lifetime of melanopsin's active state. Furthermore, we provide evidence for light-dependent phosphorylation of melanopsin in the mouse retina using an in situ proximity ligation assay. Finally, we demonstrate that melanopsin preferentially interacts with the GRK2/3 family of G-protein coupled receptor kinases through co-immunoprecipitation assays. Based on the complement of G-protein receptor kinases present in the melanopsin-expressing retinal ganglion cells, GRK2 emerges as the best candidate for melanopsin's cognate GRK.

Published

2012

30. Spectral tuning and evolution of primate short-wavelength-sensitive visual pigments.

Author

Carvalho LS, Davies WL, Robinson PR, and Hunt DM

Subjects

Animals, Color Vision, Humans, Light, Primates physiology, Retinal Pigments genetics, Ultraviolet Rays, Evolution, Molecular, Retinal Pigments chemistry, Strepsirhini physiology

Abstract

The peak sensitivities (λ(max)) of the short-wavelength-sensitive-1 (SWS1) pigments in mammals range from the ultraviolet (UV) (360-400 nm) to the violet (400-450 nm) regions of the spectrum. In most cases, a UV or violet peak is determined by the residue present at site 86, with Phe conferring UV sensitivity (UVS) and either Ser, Tyr or Val causing a shift to violet wavelengths. In primates, however, the tuning mechanism of violet-sensitive (VS) pigments would appear to differ. In this study, we examine the tuning mechanisms of prosimian SWS1 pigments. One species, the aye-aye, possesses a pigment with Phe86 but in vitro spectral analysis reveals a VS rather than a UVS pigment. Other residues (Cys, Ser and Val) at site 86 in prosimians also gave VS pigments. Substitution at site 86 is not, therefore, the primary mechanism for the tuning of VS pigments in primates, and phylogenetic analysis indicates that substitutions at site 86 have occurred at least five times in primate evolution. The sole potential tuning site that is conserved in all primate VS pigments is Pro93, which when substituted by Thr (as found in mammalian UVS pigments) in the aye-aye pigment shifted the peak absorbance into the UV region with a λ(max) value at 371 nm. We, therefore, conclude that the tuning of VS pigments in primates depends on Pro93, not Tyr86 as in other mammals. However, it remains uncertain whether the initial event that gave rise to the VS pigment in the ancestral primate was achieved by a Thr93Pro or a Phe86Tyr substitution.

Published

2012

31. Shedding new light on opsin evolution.

Author

Porter ML, Blasic JR, Bok MJ, Cameron EG, Pringle T, Cronin TW, and Robinson PR

Subjects

Amino Acids chemistry, Amino Acids metabolism, Animals, GTP-Binding Proteins metabolism, Invertebrates metabolism, Light Signal Transduction, Opsins chemistry, Opsins classification, Opsins metabolism, Phylogeny, Vertebrates metabolism, Evolution, Molecular, Invertebrates genetics, Opsins genetics, Vertebrates genetics

Abstract

Opsin proteins are essential molecules in mediating the ability of animals to detect and use light for diverse biological functions. Therefore, understanding the evolutionary history of opsins is key to understanding the evolution of light detection and photoreception in animals. As genomic data have appeared and rapidly expanded in quantity, it has become possible to analyse opsins that functionally and histologically are less well characterized, and thus to examine opsin evolution strictly from a genetic perspective. We have incorporated these new data into a large-scale, genome-based analysis of opsin evolution. We use an extensive phylogeny of currently known opsin sequence diversity as a foundation for examining the evolutionary distributions of key functional features within the opsin clade. This new analysis illustrates the lability of opsin protein-expression patterns, site-specific functionality (i.e. counterion position) and G-protein binding interactions. Further, it demonstrates the limitations of current model organisms, and highlights the need for further characterization of many of the opsin sequence groups with unknown function.

Published

2012

32. Phosphorylation of mouse melanopsin by protein kinase A.

Author

Blasic JR Jr, Brown RL, and Robinson PR

Subjects

Animals, Cyclic AMP-Dependent Protein Kinases genetics, Dopamine pharmacology, Gene Expression Regulation drug effects, Gene Expression Regulation radiation effects, HEK293 Cells, Humans, Light, Light Signal Transduction drug effects, Light Signal Transduction radiation effects, Mice, Models, Molecular, Mutagenesis, Site-Directed, Phosphorylation, Phylogeny, Protein Structure, Secondary, Protein Structure, Tertiary, Retinal Ganglion Cells cytology, Retinal Ganglion Cells drug effects, Retinal Ganglion Cells radiation effects, Rod Opsins classification, Rod Opsins genetics, Serine genetics, Serine metabolism, Threonine genetics, Threonine metabolism, Transfection, Cyclic AMP-Dependent Protein Kinases metabolism, Retinal Ganglion Cells enzymology, Rod Opsins metabolism

Abstract

The visual pigment melanopsin is expressed in intrinsically photosensitive retinal ganglion cells (ipRGCs) in the mammalian retina, where it is involved in non-image forming light responses including circadian photoentrainment, pupil constriction, suppression of pineal melatonin synthesis, and direct photic regulation of sleep. It has recently been shown that the melanopsin-based light response in ipRGCs is attenuated by the neurotransmitter dopamine. Here, we use a heterologous expression system to demonstrate that mouse melanopsin can be phosphorylated by protein kinase A, and that phosphorylation can inhibit melanopsin signaling in HEK cells. Site-directed mutagenesis experiments revealed that this inhibitory effect is primarily mediated by phosphorylation of sites T186 and S287 located in the second and third intracellular loops of melanopsin, respectively. Furthermore, we show that this phosphorylation can occur in vivo using an in situ proximity-dependent ligation assay (PLA). Based on these data, we suggest that the attenuation of the melanopsin-based light response by dopamine is mediated by direct PKA phosphorylation of melanopsin, rather than phosphorylation of a downstream component of the signaling cascade.

Published

2012

33. Unexpected diversity and photoperiod dependence of the zebrafish melanopsin system.

Author

Matos-Cruz V, Blasic J, Nickle B, Robinson PR, Hattar S, and Halpern ME

Subjects

Animals, Gene Expression Regulation, Larva genetics, Larva metabolism, Phylogeny, Pineal Gland metabolism, Retina metabolism, Retinal Ganglion Cells metabolism, Rod Opsins classification, Rod Opsins genetics, Zebrafish genetics, Zebrafish Proteins classification, Zebrafish Proteins genetics, Photoperiod, Rod Opsins metabolism, Zebrafish metabolism, Zebrafish Proteins metabolism

Abstract

Animals have evolved specialized photoreceptors in the retina and in extraocular tissues that allow them to measure light changes in their environment. In mammals, the retina is the only structure that detects light and relays this information to the brain. The classical photoreceptors, rods and cones, are responsible for vision through activation of rhodopsin and cone opsins. Melanopsin, another photopigment first discovered in Xenopus melanophores (Opn4x), is expressed in a small subset of retinal ganglion cells (RGCs) in the mammalian retina, where it mediates non-image forming functions such as circadian photoentrainment and sleep. While mammals have a single melanopsin gene (opn4), zebrafish show remarkable diversity with two opn4x-related and three opn4-related genes expressed in distinct patterns in multiple neuronal cell types of the developing retina, including bipolar interneurons. The intronless opn4.1 gene is transcribed in photoreceptors as well as in horizontal cells and produces functional photopigment. Four genes are also expressed in the zebrafish embryonic brain, but not in the photoreceptive pineal gland. We discovered that photoperiod length influences expression of two of the opn4-related genes in retinal layers involved in signaling light information to RGCs. Moreover, both genes are expressed in a robust diurnal rhythm but with different phases in relation to the light-dark cycle. The results suggest that melanopsin has an expanded role in modulating the retinal circuitry of fish.

Published

2011

34. The molecular genetics and evolution of colour and polarization vision in stomatopod crustaceans.

Author

Cronin TW, Porter ML, Bok MJ, Wolf JB, and Robinson PR

Subjects

Animals, Color Vision physiology, Crustacea classification, Crustacea physiology, Genetic Variation, In Situ Hybridization methods, Opsins genetics, Photoreceptor Cells, Invertebrate physiology, Phylogeny, Visual Perception genetics, Visual Perception physiology, Color Vision genetics, Crustacea genetics, Evolution, Molecular

Abstract

Stomatopod crustaceans have the most complex assemblage of visual receptor classes known; retinas of many species are thought to express up to 16 different visual pigments. Physiological studies indicate that stomatopods contain up to six distinct middle-wavelength-sensitive (MWS) photoreceptor classes, suggesting that no more than six different MWS opsin gene copies exist per species. However, we previously reported the unexpected expression of 6-15 different MWS genes in retinas of each of five stomatopod species (Visual Neurosci 26: 255-266, 2009). Here, we present a review of the results reported in this publication, plus new results that shed light on the origins of the diverse colour and polarization visual capabilities of stomatopod crustaceans. Using in situ hybridization of opsins in photoreceptor cells, we obtained new results that support the hypothesis of an ancient functional division separating spatial and polarizational vision from colour vision in the stomatopods. Since evolutionary trace analysis indicates that stomatopod MWS opsins have diverged both with respect to spectral tuning and to cytoplasmic interactions, we have now further analyzed these data in an attempt to uncover the origins, diversity and potential specializations among clades for specific visual functions. The presence of many clusters of highly similar transcripts suggests exuberant opsin gene duplication has occurred in the stomatopods, together with more conservative, ancient gene duplication events within the stem crustacean lineage. Phylogenetic analysis of opsin relatedness suggests that opsins specialized for colour vision have diverged from those devoted to polarization vision, and possibly motion and spatial vision., (© 2010 The Authors, Ophthalmic and Physiological Optics © 2010 The College of Optometrists.)

Published

2010

35. Molecular diversity of visual pigments in Stomatopoda (Crustacea).

Author

Porter ML, Bok MJ, Robinson PR, and Cronin TW

Subjects

Amino Acid Sequence, Animals, Gene Duplication, Molecular Sequence Data, Opsins metabolism, Phylogeny, Retina metabolism, Crustacea genetics, Evolution, Molecular, Opsins genetics

Abstract

Stomatopod crustaceans possess apposition compound eyes that contain more photoreceptor types than any other animal described. While the anatomy and physiology of this complexity have been studied for more than two decades, few studies have investigated the molecular aspects underlying the stomatopod visual complexity. Based on previous studies of the structure and function of the different types of photoreceptors, stomatopod retinas are hypothesized to contain up to 16 different visual pigments, with 6 of these having sensitivity to middle or long wavelengths of light. We investigated stomatopod middle- and long-wavelength-sensitive opsin genes from five species with the hypothesis that each species investigated would express up to six different opsin genes. In order to understand the evolution of this class of stomatopod opsins, we examined the complement of expressed transcripts in the retinas of species representing a broad taxonomic range (four families and three superfamilies). A total of 54 unique retinal opsins were isolated, resulting in 6-15 different expressed transcripts in each species. Phylogenetically, these transcripts form six distinct clades, grouping with other crustacean opsins and sister to insect long-wavelength visual pigments. Within these stomatopod opsin groups, intra- and interspecific clusters of highly similar transcripts suggest that there has been rampant recent gene duplication. Some of the observed molecular diversity is also due to ancient gene duplication events within the stem crustacean lineage. Using evolutionary trace analysis, 10 amino acid sites were identified as functionally divergent among the six stomatopod opsin clades. These sites form tight clusters in two regions of the opsin protein known to be functionally important: six in the chromophore-binding pocket and four at the cytoplasmic surface in loops II and III. These two clusters of sites indicate that stomatopod opsins have diverged with respect to both spectral tuning and signal transduction.

Published

2009

36. Photochemistry of retinal chromophore in mouse melanopsin.

Author

Walker MT, Brown RL, Cronin TW, and Robinson PR

Subjects

Animals, Cell Separation, Chromatography, High Pressure Liquid, Gene Expression Regulation, Immunohistochemistry, Immunomagnetic Separation, Mice, Retina cytology, Retinal Ganglion Cells cytology, Retinal Ganglion Cells metabolism, Rod Opsins genetics, Spectrum Analysis, Photochemistry, Retina metabolism, Rod Opsins metabolism

Abstract

In mammals, melanopsin is exclusively expressed in intrinsically photosensitive retinal ganglion cells (ipRGCs), which play an important role in circadian photoentrainment and other nonimage-forming functions. These ipRGCs reside in the inner retina, far removed from the pigment epithelium, which synthesizes the 11-cis retinal chromophore used by rod and cone photoreceptors to regenerate opsin for light detection. There has been considerable interest in the identification of the melanopsin chromophore and in understanding the process of photopigment regeneration in photoreceptors that are not in proximity to the classical visual cycle. We have devised an immuno-magnetic purification protocol that allows melanopsin-expressing retinal ganglion cells to be isolated and collected from multiple mouse retinas. Using this technique, we have demonstrated that native melanopsin in vivo exclusively binds 11-cis retinal in the dark and that illumination causes isomerization to the all-trans isoform. Furthermore, spectral analysis of the melanopsin photoproduct shows the formation of a protonated metarhodopsin with a maximum absorbance between 520 and 540 nm. These results indicate that even if melanopsin functions as a bistable photopigment with photo-regenerative activity native melanopsin must also use some other light-independent retinoid regeneration mechanism to return to the dark state, where all of the retinal is observed to be in the 11-cis form.

Published

2008

37. The opsins of the vertebrate retina: insights from structural, biochemical, and evolutionary studies.

Author

Nickle B and Robinson PR

Subjects

Amino Acid Sequence, Animals, Humans, Models, Molecular, Molecular Sequence Data, Photobiology, Phylogeny, Protein Conformation, Retina physiology, Retinal Cone Photoreceptor Cells chemistry, Retinal Rod Photoreceptor Cells chemistry, Rod Opsins classification, Rod Opsins physiology, Evolution, Molecular, Retina chemistry, Rod Opsins chemistry, Rod Opsins genetics

Abstract

The vertebrate retina contains several classes of visual pigments responsible for such diverse functions as image- and nonimage-forming vision, the entrainment of circadian cycles, and the pupilary light response. With vision being vital to the survival of many species, the elucidation of the structural and biochemical properties of visual pigments has been the focus of a large body of research that has led to rapid advances in the field of photoreception. In this review, the current understanding of the structure, function, biochemistry, and evolution of the opsins that make up the photopigments in the vertebrate retina will be reviewed. These include the rod and cone opsins, melanopsin, RGR, peropsin, and VA-opsin. The goal is to highlight important questions that have been answered and to define some of the remaining questions in the field that will provide future directions for research.

Published

2007

38. Arrestin residues involved in the functional binding of arrestin to phosphorylated, photolyzed rhodopsin.

Author

Ascano MT, Smith WC, Gregurick SK, and Robinson PR

Subjects

Animals, Arrestin drug effects, Arrestin genetics, Binding, Competitive, Cattle, Mutagenesis, Site-Directed, Mutation, Phosphorylation, Photolysis, Rhodopsin chemistry, Rod Cell Outer Segment metabolism, Trypsin pharmacology, Arrestin metabolism, Rhodopsin metabolism

Abstract

Purpose: The purpose of our study was to determine whether arrestin residues previously predicted by computational modeling to interact with an aspartic acid substituted rhodopsin tail are actually involved in interactions with phospho-residues on the rhodopsin cytoplasmic tail., Methods: We generated arrestin mutants with altered charges at predicted positions. These mutants were then tested for the ability to inhibit rhodopsin using both direct binding assays, as well as functional assays involving transducin inhibition assays., Results: Our results demonstrate that the computer-predicted residues are indeed involved in both the ability of the low-affinity state of arrestin to bind to rhodopsin as well as the ability of arrestin to be induced into a higher-affinity state in a phospho-residue-dependent manner., Conclusions: Our results also suggest that positions K14, K15, R29, H301, and K300 on arrestin interact with the phosphorylated carboxyl tail of rhodopsin and that this translates to the efficient activation of arrestin.

Published

2006

39. The visual pigments of the West Indian manatee (Trichechus manatus).

Author

Newman LA and Robinson PR

Subjects

Amino Acid Sequence, Animals, Cattle metabolism, Color Perception physiology, Elephants metabolism, Molecular Sequence Data, Polymerase Chain Reaction methods, Retinal Cone Photoreceptor Cells metabolism, Retinal Pigments genetics, Sequence Alignment, Species Specificity, Retinal Pigments metabolism, Trichechus manatus metabolism

Abstract

Manatees are unique among the fully aquatic marine mammals in that they are herbivorous creatures, with hunting strategies restricted to grazing on sea-grasses. Since the other groups of (carnivorous) marine mammals have been found to possess various visual system adaptations to their unique visual environments, it was of interest to investigate the visual capability of the manatee. Previous work, both behavioral (Griebel & Schmid, 1996), and ultrastructural (Cohen, Tucker, & Odell, 1982; unpublished work cited by Griebel & Peichl, 2003), has suggested that manatees have the dichromatic color vision typical of diurnal mammals. This study uses molecular techniques to investigate the cone visual pigments of the manatee. The aim was to clone and sequence cone opsins from the retina, and, if possible, express and reconstitute functional visual pigments to perform spectral analysis. Both LWS and SWS cone opsins were cloned and sequenced from manatee retinae, which, upon expression and spectral analysis, had lambda(max) values of 555 and 410 nm, respectively. The expression of both the LWS and SWS cone opsin in the manatee retina is unique as both pinnipeds and cetaceans only express a cone LWS opsin.

Published

2006

40. Evolution of the cichlid visual palette through ontogenetic subfunctionalization of the opsin gene arrays.

Author

Spady TC, Parry JW, Robinson PR, Hunt DM, Bowmaker JK, and Carleton KL

Subjects

Animals, Cell Line, Cichlids embryology, Humans, Molecular Sequence Data, Phylogeny, Rod Opsins metabolism, Rod Opsins physiology, Sequence Analysis, DNA, Species Specificity, Spectrum Analysis, Transfection, Cichlids genetics, Evolution, Molecular, Fishes genetics, Retinal Cone Photoreceptor Cells metabolism, Rod Opsins genetics

Abstract

The evolution of cone opsin genes is characterized by a dynamic process of gene birth and death through gene duplication and loss. However, the forces governing the retention and death of opsin genes are poorly understood. African cichlid fishes have a range of ecologies, differing in habitat and foraging style, which make them ideal for examining the selective forces acting on the opsin gene family. In this work, we present data on the riverine cichlid, Oreochromis niloticus, which is an ancestral outgroup to the cichlid adaptive radiations in the Great African lakes. We identify 7 cone opsin genes with several instances of gene duplication. We also characterize the spectral sensitivities of these genes through reconstitution of visual pigments. Peak absorbances demonstrate that each tilapia cone opsin gene codes for a spectrally distinct visual pigment: SWS1 (360 nm), SWS2b (423 nm), SWS2a (456 nm), Rh2b (472 nm), Rh2a beta (518 nm), Rh2a alpha (528 nm), and LWS (561 nm). Furthermore, quantitative reverse transcription polymerase chain reaction at 3 ontogenetic time points demonstrates that although only 4 genes (SWS2a, Rh2a alpha and beta, and LWS) are expressed in adults, mRNAs for the other genes are all expressed during ontogeny. Therefore, subfunctionalization through differential ontogenetic expression may be a key mechanism for preservation of opsin genes. The distinct peak absorbances of these preserved opsin genes provide a palette from which selection creates the diverse visual sensitivities found among the cichlid species of the lacustrine adaptive radiations.

Published

2006

41. Vertebrate opsins belonging to different classes vary in constitutively active properties resulting from salt-bridge mutations.

Author

Nickle B, Wilkie SE, Cowing JA, Hunt DM, and Robinson PR

Subjects

Amino Acid Sequence, Animals, COS Cells, Cattle, Chlorocebus aethiops, Humans, Molecular Sequence Data, Rod Opsins genetics, Transducin metabolism, Zebrafish, Mutation, Rod Opsins physiology

Abstract

Vertebrate opsins are classified into one of five classes on the basis of amino acid similarity. These classes are short wavelength sensitive 1 and 2 (SWS1, SWS2), medium/long wavelength sensitive (M/LWS), and rod opsin like 1 and 2 (RH1, RH2). In bovine rod opsin (RH1), two critical amino acids form a salt bridge in the apoprotein that maintains the opsin in an inactive state. These residues are K296, which functions as the chromophore binding site, and E113, which functions as the counterion to the protonated Schiff base. Corresponding residues in each of the other vertebrate opsin classes are believed to play similar roles. Previous reports have demonstrated that mutations in these critical residues result in constitutive activation of transducin by RH1 class opsins in the absence of chromophore. Additionally, recent reports have shown that an E113Q mutation in SWS1 opsin is constitutively active. Here we ask if the other classes of vertebrate opsins maintain activation characteristics similar to that of bovine RH1 opsin. We approach this question by making the corresponding substitutions which disrupt the K296/E113 salt bridge in opsins belonging to the other vertebrate opsin classes. The mutant opsins are tested for their ability to constitutively activate bovine transducin. We demonstrate that mutations disrupting this key salt bridge produce constitutive activation in all classes. However, the mutant opsins differ in their ability to be quenched in the dark state by the addition of chromophore as well as in their level of constitutive activation. The differences in constitutive activation profiles suggest that structural differences exist among the opsin classes that may translate into a difference in activation properties.

Published

2006

42. Differential phosphorylation of the rhodopsin cytoplasmic tail mediates the binding of arrestin and its splice variant, p44.

Author

Ascano M and Robinson PR

Subjects

Alternative Splicing, Amino Acid Substitution, Animals, Cattle, Computer Simulation, Genetic Variation, Guanosine 5'-O-(3-Thiotriphosphate) metabolism, Phosphorylation, Rhodopsin genetics, Arrestin genetics, Arrestin metabolism, Rhodopsin metabolism

Abstract

Deactivation of the vertebrate photopigment rhodopsin is achieved through a two-step process. Rhodopsin is first phosphorylated by rhodopsin kinase and subsequently deactivated by the binding of the regulatory protein arrestin or its splice variant, p44. Although much is known about the overall differences between arrestin and p44 binding to different rhodopsin species (photolyzed versus unphotolyzed and/or phosphorylated versus unphosphorylated), the exact role of p44 during phototransduction remains to be fully elucidated. Our current study addresses this question by identifying structural differences between arrestin and p44 and characterizing the interaction between the negatively charged rhodopsin tail and either p44 or arrestin. Our results demonstrate that arrestin and p44 bind differently to different phosphorylated rhodopsin species and that this may be due to a structural difference between p44's and arrestin's basal states. This difference offers a potential regulatory mechanism that could regulate p44 and arrestin binding and, as a result, regulate the kinetics of the rod's light response.

Published

2006

43. Cone visual pigments of aquatic mammals.

Author

Newman LA and Robinson PR

Subjects

Amino Acid Sequence, Animals, DNA genetics, Molecular Sequence Data, Mutagenesis, Site-Directed, Retinal Pigments biosynthesis, Retinal Pigments genetics, Reverse Transcriptase Polymerase Chain Reaction, Rod Opsins genetics, Rod Opsins metabolism, Rod Opsins physiology, Species Specificity, Caniformia physiology, Cetacea physiology, Retinal Pigments physiology, Trichechus physiology

Abstract

It has long been hypothesized that the visual systems of animals are evolutionarily adapted to their visual environment. The entrance many millions of years ago of mammals into the sea gave these new aquatic mammals completely novel visual surroundings with respect to light availability and predominant wavelengths. This study examines the cone opsins of marine mammals, hypothesizing, based on previous studies [Fasick et al. (1998) and Levenson & Dizon (2003)], that the deep-dwelling marine mammals would not have color vision because the pressure to maintain color vision in the dark monochromatic ocean environment has been relaxed. Short-wavelength-sensitive (SWS) and long-wavelength-sensitive (LWS) cone opsin genes from two orders (Cetacea and Sirenia) and an additional suborder (Pinnipedia) of aquatic mammals were amplified from genomic DNA (for SWS) and cDNA (for LWS) by PCR, cloned, and sequenced. All animals studied from the order Cetacea have SWS pseudogenes, whereas a representative from the order Sirenia has an intact SWS gene, for which the corresponding mRNA was found in the retina. One of the pinnipeds studied (harp seal) has an SWS pseudogene, while another species (harbor seal) appeared to have an intact SWS gene. However, no SWS cone opsin mRNA was found in the harbor seal retina, suggesting a promoter or splice site mutation preventing transcription of the gene. The LWS opsins from the different species were expressed in mammalian cells and reconstituted with the 11-cis-retinal chromophore in order to determine maximal absorption wavelengths (lambda(max)) for each. The deeper dwelling Cetacean species had blue shifted lambda(max) values compared to shallower-dwelling aquatic species. Taken together, these findings support the hypothesis that in the monochromatic oceanic habitat, the pressure to maintain color vision has been relaxed and mutations are retained in the SWS genes, resulting in pseudogenes. Additionally, LWS opsins are retained in the retina and, in deeper-dwelling animals, are blue shifted in lambda(max).

Published

2005

44. Melanopsin--shedding light on the elusive circadian photopigment.

Author

Brown RL and Robinson PR

Subjects

Amino Acid Sequence, Animals, Biological Clocks physiology, Cell Line, Guanosine 5'-O-(3-Thiotriphosphate) metabolism, Humans, Molecular Sequence Data, Photoreceptor Cells metabolism, Protein Structure, Secondary, Retinal Ganglion Cells cytology, Retinal Ganglion Cells metabolism, Rod Opsins chemistry, Rod Opsins genetics, Suprachiasmatic Nucleus cytology, Suprachiasmatic Nucleus metabolism, Circadian Rhythm physiology, Photoperiod, Rod Opsins metabolism

Abstract

Circadian photoentrainment is the process by which the brain's internal clock becomes synchronized with the daily external cycle of light and dark. In mammals, this process is mediated exclusively by a novel class of retinal ganglion cells that send axonal projections to the suprachiasmatic nuclei (SCN), the region of the brain that houses the circadian pacemaker. In contrast to their counterparts that mediate image-forming vision, SCN-projecting RGCs are intrinsically sensitive to light, independent of synaptic input from rod and cone photoreceptors. The recent discovery of these photosensitive RGCs has challenged the long-standing dogma of retinal physiology that rod and cone photoreceptors are the only retinal cells that respond directly to light and has explained the perplexing finding that mice lacking rod and cone photoreceptors can still reliably entrain their circadian rhythms to light. These SCN-projecting RGCs selectively express melanopsin, a novel opsin-like protein that has been proposed as a likely candidate for the photopigment in these cells. Research in the past three years has revealed that disruption of the melanopsin gene impairs circadian photo- entrainment, as well as other nonvisual responses to light such as the pupillary light reflex. Until recently, however, there was no direct demonstration that melanopsin formed a functional photopigment capable of catalyzing G-protein activation in a light-dependent manner. Our laboratory has recently succeeded in expressing melanopsin in a heterologous tissue culture system and reconstituting a pigment with the 11-cis-retinal chromophore. In a reconstituted biochemical system, the reconstituted melanopsin was capable of activating transducin, the G-protein of rod photoreceptors, in a light-dependent manner. The absorbance spectrum of this heterologously expressed melanopsin, however, does not match that predicted by previous behavioral and electophysiological studies. Although melanopsin is clearly the leading candidate for the elusive photopigment of the circadian system, further research is needed to resolve the mystery posed by its absorbance spectrum and to fully elucidate its role in circadian photoentrainment.

Published

2004

45. Melanopsin forms a functional short-wavelength photopigment.

Author

Newman LA, Walker MT, Brown RL, Cronin TW, and Robinson PR

Subjects

Amino Acid Sequence, Animals, COS Cells, Cattle, Chlorocebus aethiops, Light, Mice, Molecular Sequence Data, Mutagenesis, Site-Directed, Photoperiod, Retinal Ganglion Cells chemistry, Retinal Ganglion Cells physiology, Rod Opsins genetics, Signal Transduction genetics, Signal Transduction physiology, Spectrophotometry, Transducin chemistry, Transducin metabolism, Transfection, cis-trans-Isomerases chemistry, cis-trans-Isomerases genetics, cis-trans-Isomerases physiology, Rod Opsins isolation & purification, Rod Opsins physiology

Abstract

Recently, melanopsin has emerged as the leading candidate for the elusive photopigment of the mammalian circadian system. This novel opsin-like protein is expressed in retinal ganglion cells that form the retinohypothalamic tract, a neuronal connection between the retina and the suprachiasmatic nucleus. These hypothalamic structures contain the circadian pacemaker, which generates daily rhythms in physiology and behavior. In mammals, proper synchronization of these rhythms to the environmental light-dark cycle requires retinal input. Surprisingly, rod and cone photoreceptors are not required. Instead, the melanopsin-containing ganglion cells are intrinsically sensitive to light, perhaps responding via a melanopsin-based signaling pathway. To test this hypothesis, we have characterized melanopsin following heterologous expression in COS cells. We found that melanopsin absorbed maximally at 424 nm after reconstitution with 11-cis-retinal. Furthermore, melanopsin activated the photoreceptor G-protein, transducin, in a light-dependent manner. In agreement with the measured absorbance spectrum, melanopsin was most efficiently excited by blue light (420-440 nm). In contrast, published action spectra suggest that the photopigment underlying the intrinsic light sensitivity of SCN-projecting RGCs has an absorption maximum near 484 nm. In summary, our experiments constitute the first direct demonstration that melanopsin forms a photopigment capable of activating a G-protein, but its spectral properties are not consistent with the action spectrum for circadian entrainment.

Published

2003

46. The molecular mechanism for the spectral shifts between vertebrate ultraviolet- and violet-sensitive cone visual pigments.

Author

Cowing JA, Poopalasundaram S, Wilkie SE, Robinson PR, Bowmaker JK, and Hunt DM

Subjects

Animals, Biological Evolution, Cattle, DNA, Complementary metabolism, Genetic Vectors, Goldfish, Models, Molecular, Mutagenesis, Site-Directed, Mutation, Phenylalanine chemistry, Phylogeny, Protein Conformation, Sequence Homology, Amino Acid, Spectrophotometry, Swine, Tyrosine chemistry, Retinal Pigments chemistry, Retinal Pigments physiology, Rod Opsins chemistry, Ultraviolet Rays

Abstract

The short-wave-sensitive (SWS) visual pigments of vertebrate cone photoreceptors are divided into two classes on the basis of molecular identity, SWS1 and SWS2. Only the SWS1 class are present in mammals. The SWS1 pigments can be further subdivided into violet-sensitive (VS), with lambda(max) (the peak of maximal absorbance) values generally between 400 and 430 nm, and ultraviolet-sensitive (UVS), with a lambda(max)<380 nm. Phylogenetic evidence indicates that the ancestral pigment was UVS and that VS pigments have evolved separately from UVS pigments in the different vertebrate lineages. In this study, we have examined the mechanism of evolution of VS pigments in the mammalian lineage leading to present day ungulates (cow and pig). Amino acid sequence comparisons of the UVS pigments of teleost fish, amphibia, reptiles and rodents show that site 86 is invariably occupied by Phe but is replaced in bovine and porcine VS pigments by Tyr. Using site-directed mutagenesis of goldfish UVS opsin, we have shown that a Phe-86-->Tyr substitution is sufficient by itself to shift the lambda(max) of the goldfish pigment from a wild-type value of 360 nm to around 420 nm, and the reverse substitution of Tyr-86-Phe into bovine VS opsin produces a similar shift in the opposite direction. The substitution of this single amino acid is sufficient to account therefore for the evolution of bovine and porcine VS pigments. The replacement of Phe with polar Tyr at site 86 is consistent with the stabilization of Schiff-base protonation in VS pigments and the absence of protonation in UVS pigments.

Published

2002

47. Activation of arrestin: requirement of phosphorylation as the negative charge on residues in synthetic peptides from the carboxyl-terminal region of rhodopsin.

Author

McDowell JH, Robinson PR, Miller RL, Brannock MT, Arendt A, Smith WC, and Hargrave PA

Subjects

3',5'-Cyclic-GMP Phosphodiesterases metabolism, Animals, Aspartic Acid metabolism, Cattle, Cyclic GMP metabolism, Cysteic Acid metabolism, Electrophoresis, Polyacrylamide Gel, Glutamic Acid metabolism, Phosphorylation, Rod Cell Outer Segment metabolism, Sulfhydryl Compounds metabolism, Vision, Ocular, Arrestin metabolism, Peptide Fragments metabolism, Rhodopsin metabolism

Abstract

Purpose: To determine whether substitution of the potential phosphorylation sites of bovine rhodopsin's carboxyl-terminal region with the acidic residues aspartic acid, glutamic acid, or cysteic acid promotes the activation of arrestin., Methods: Three peptide analogues of the 19-residue carboxyl-terminal region of rhodopsin (330-348) were synthesized: the fully phosphorylated peptide (7P-peptide), the peptide with all potential phosphorylation sites substituted with glutamic acid (7E-peptide), and the peptide with the phosphorylation sites substituted with cysteic acid (7Cya-peptide). The peptides were tested in assays in which the 7P-peptide had previously been shown to have an effect. Rhodopsin with glutamic acid (Etail) or aspartic acid (Dtail) substituted for the phosphorylation sites in rhodopsin were constructed and expressed in COS-7 cells and tested in an in vitro assay., Results: Earlier work has demonstrated that the 7P-peptide activates arrestin, showing induction of arrestin binding to light-activated unphosphorylated rhodopsin, inhibition of the light-induced phosphodiesterase (PDE) activity in rod outer segments (ROS) with excess arrestin, increase in the initial rapid proteolysis of arrestin by trypsin, and enhanced reactivity of one of arrestin's sulfhydryl groups with inhibition of the reactivity of another. None of these effects was observed in the presence of 7E-peptide or 7Cya-peptide. The 7Cya-peptide inhibited the PDE activity in ROS, but the same effect was observed both in the presence and the absence of excess arrestin. Because none of the other effects was observed with the 7Cya-peptide, the authors conclude that the 7Cya-peptide does not activate arrestin, but acts, probably nonspecifically, through some other part of the transduction system. Considerable arrestin-mediated rhodopsin inactivation was observed with both the Etail and the Dtail mutant, although these substitutions did not yield rhodopsins that were equivalent to phosphorylated rhodopsin., Conclusions: These results, taken together, suggest that the negative charge due to phosphates in the carboxyl-terminal region of rhodopsin are required for the full activation of arrestin and that acidic amino acids (carboxyl and sulfonic) do not mimic the negative charge of phosphorylated residues.

Published

2001

48. Spectral-tuning mechanisms of marine mammal rhodopsins and correlations with foraging depth.

Author

Fasick JI and Robinson PR

Subjects

Animals, Cetacea anatomy & histology, DNA Mutational Analysis methods, DNA, Complementary chemistry, DNA, Complementary genetics, Molecular Sequence Data, Mutation physiology, Retinal Rod Photoreceptor Cells cytology, Seals, Earless anatomy & histology, Sequence Homology, Amino Acid, Trichechus manatus anatomy & histology, Vision, Ocular physiology, Cetacea metabolism, Diving physiology, Feeding Behavior physiology, Retinal Rod Photoreceptor Cells metabolism, Rhodopsin genetics, Rhodopsin metabolism, Seals, Earless metabolism, Trichechus manatus metabolism

Abstract

It has been observed that deep-foraging marine mammals have visual pigments that are blue shifted in terms of their wavelength of maximal absorbance (lambda(max)) when compared to analogous pigments from terrestrial mammals. The mechanisms underlying the spectral tuning of two of these blue-shifted pigments have recently been elucidated and depend on three amino acid substitutions (83Asn, 292Ser, and 299Ser) in dolphin rhodopsin, but only one amino acid substitution (308Ser ) in the dolphin long-wavelength-sensitive pigment. The objective of this study was to investigate the molecular basis for changes in the spectral sensitivity of rod visual pigments from seven distantly related marine mammals. The results show a relationship between blue-shifted rhodopsins (lambda(max) < or = 490 nm), deep-diving foraging behavior, and the substitutions 83Asn and 292Ser. Species that forage primarily near the surface in coastal habitats have a rhodopsin with a lambda(max) similar to that of terrestrial mammals (500 nm) and possess the substitutions 83Asp and 292Ala, identical to rhodopsins from terrestrial mammals.

Published

2000

49. Spectral tuning of avian violet- and ultraviolet-sensitive visual pigments.

Author

Wilkie SE, Robinson PR, Cronin TW, Poopalasundaram S, Bowmaker JK, and Hunt DM

Subjects

Amino Acid Sequence, Animals, Birds, Cloning, Molecular, DNA, Complementary, Molecular Sequence Data, Mutagenesis, Site-Directed, Retinal Pigments genetics, Sequence Homology, Amino Acid, Species Specificity, Retinal Pigments chemistry, Spectrophotometry, Ultraviolet

Abstract

The violet- and ultraviolet-sensitive visual pigments of birds belong to the same class of pigments as the violet-sensitive (so-called blue) pigments of mammals. However, unlike the pigments from mammals and other vertebrate taxa which, depending on species, have lambda(max) values of either around 430 nm or around 370 nm, avian pigments are found with lambda(max) values spread across this range. In this paper, we present the sequences of two pigments isolated from Humbolt penguin and pigeon with intermediate lambda(max) values of 403 and 409 nm, respectively. By comparing the amino acid sequences of these pigments with the true UV pigments of budgerigar and canary and with chicken violet with a lambda(max) value of 420 nm, we have been able to identify five amino acid sites that show a pattern of substitution between species that is consistent with differences in lambda(max). Each of these substitutions has been introduced into budgerigar cDNA and expressed in vitro in COS-7 cells. Only three resulted in spectral shifts in the regenerated pigment; two had relatively small effects and may account for the spectral shifts between penguin, pigeon, and chicken whereas one, the replacement of Ser by Cys at site 90 in the UV pigments, produced a 35 nm shortwave shift that could account for the spectral shift from 403 nm in penguin to around 370 nm in budgerigar and canary.

Published

2000

50. Assays for detection of constitutively active opsins.

Author

Robinson PR

Subjects

Animals, COS Cells, Cattle, Cell Membrane metabolism, Genes, Synthetic, Kinetics, Mutagenesis, Recombinant Proteins analysis, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Retinaldehyde metabolism, Rhodopsin analysis, Rhodopsin isolation & purification, Rod Opsins analysis, Rod Opsins isolation & purification, Schiff Bases, Transducin metabolism, Transfection, Rhodopsin metabolism, Rod Opsins metabolism

Published

2000