Your search keyword '"Valdez DJ"' showing total 20 results

1. Intrauterine and early-life malnutrition in rats disrupts the circadian rhythm programming of energy metabolites through adulthood.

Author

Bustamante-Valdez DJ, Fuentes-Cano MA, Gonzalez-Ruano JS, Martinez-Canabal A, Cardenas-Vazquez R, and Duran P

Subjects

Pregnancy, Female, Rats, Animals, Humans, Circadian Rhythm physiology, Insulin, Triglycerides, Diet, High-Fat adverse effects, Glucose, Mammals, Malnutrition, Prenatal Exposure Delayed Effects

Abstract

Maternal malnutrition plays a crucial role in functional development, resulting in behavioral, cognitive, and metabolic abnormalities and disturbances. "Cafeteria diet" has been linked to obesity, metabolic syndrome, diabetes, and other metabolic disruptions in the mammalian lifespan. However, there are very few reports about the effect of intrauterine and early postnatal malnutrition on the circadian rhythm programming of energy metabolites. In mammals, circadian rhythm central control is fundamental for correct interaction with the environment and physiological regulation. Exposure to malnutrition during development imprints metabolic programming throughout life on the central nervous system and peripheral systems. Lifespan studies exploring the effect of high fat/low protein diet administered during critical periods of development are scarce. The present study explored the effect of intrauterine and perinatal malnutrition induced by a high fat/low protein diet (Cafeteria Diet) on circadian and peripheral oscillators controlling glucose, insulin, and triglycerides in rats at 40 and 90 days of age. We evaluated plasma glucose and triglyceride levels in 6 Zeitgeber times, in addition to an intraperitoneal glucose tolerance test (IpTGT) and homeostasis model assessment of insulin resistance (HOMA-IR) at two time-points over 24h. Our results show that offspring of malnourished dams fed cafeteria diet present alterations in circadian rhythmicity of glucose and triglycerides associated with a change in glucose tolerance and insulin sensibility differentially regulated at the development stage and time of day. Intrauterine and early malnutrition due to a cafeteria diet produces maladaptive responses and programs energetic metabolism at several developmental stages during the lifespan., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Bustamante-Valdez et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

2. Three different seasonally expressed opsins are present in the brain of the Eared Dove, an opportunist breeder.

Author

Marchese NA, Ríos MN, Guido ME, and Valdez DJ

Subjects

Male, Animals, Hypothalamus metabolism, Brain, Gonads metabolism, Seasons, Columbidae, Opsins genetics, Opsins metabolism

Abstract

Birds living at high latitudes perceive the photoperiod through deep-brain photoreceptors (DBP) located in deep-brain neurons. During long photoperiods the information transmitted by these photoreceptors increases the activity of the hypothalamic-pituitary-gonadal (HPG) axis, leading to gonadal development. The presence of photopigments such as VA-Opsin, Opn4, Opn5 and Opn2 in brain areas implicated in reproductive behaviors has been firmly established in several avian species with seasonal breeding, whereas their existence in opportunistic breeding birds remains unconfirmed. The Eared Dove is an urban and peri-urban dove that breeds throughout the year. Males of this species do not exhibit the typical gonadal regression/recrudescence cycle, thus posing the question of what occurs upstream of the HPG axis. We addressed this issue by first studying the presence of diverse opsins located in DBP in the brains of Eared Dove males and whether these photopigments changed their expression throughout the year. We carried out an immunohistochemistry analysis on three different opsins: Opn2 (rhodopsin), Opn3 and Opn5. Our results demonstrate the discrete neuroanatomical distribution of these opsins in the brain of Eared Dove males and strongly indicate different seasonal expressions. In the anterior region of the hypothalamus, Opn2-positive cells were detected throughout the year. By contrast, Opn5 was found to be strongly and seasonally expressed during winter in the anterior and the hypothalamic region. Opn3 was also found to be significantly and seasonally expressed during winter in the hypothalamic region. We thus demonstrate for the first time that males of the Eared Dove, have three different deep-brain opsin-expressing photoreceptors with differential location/distribution in the anterior and hypothalamic region and differential seasonality. The persistence of Opn2 and the strong seasonal expression of nonvisual photopigments Opn3 and Opn5 in two areas of the avian brain, which are associated with reproduction, could be the primary distinction between seasonal and opportunistic breeders., Competing Interests: Declaration of Competing Interest The authors declare no conflicts of interest., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published

2024

3. Annual molt period and seasonal color variation in the Eared Dove´s crown.

Author

Valdez DJ and Benitez-Vieyra SM

Subjects

Animals, Male, Female, Seasons, Pigmentation, Melanins analysis, Feathers chemistry, Color, Columbidae, Molting

Abstract

Molting is an important process in which old and worn feathers are exchanged for new ones. Plumage color is determined by pigments such as carotenes, melanin and by the ultrastructure of the feather. The importance of plumage coloration has been widely studied in different groups of birds, generally at a particular time of the year. However, plumage coloration is not static and few studies have addressed the change in plumage color over time and its relationship to reproductive tasks. The Eared Dove (Zenaida auriculata, Des Murs, 1847) has a melanistic coloration with sexual dichromatism in different body regions. The Eared Dove´s crown is the most exposed body region during the bowing display. Our objective was therefore to accurately determine the molting period of the crown feathers and study the seasonal variation in their coloration in females and males. Our findings indicate a molting period of 6 months (January to June). The new feathers are undergoing changes in their coloration from July to December. During that period we apply an avian vision model then enabled us to reveal a seasonal variation in the coloration of the crown feathers in both sexes, as given by a change in the chromatic distances. The highest values in the chromatic distances towards the reproductive period are given by a change in the UV-violet component of the spectrum, indicating changes in the microstructure of the feather. This change in crown coloration towards the breeding season could be linked to reproductive behaviors., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Valdez, Benitez-Vieyra. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

4. An updated look at the mating system, parental care and androgen seasonal variations in ratites.

Author

Valdez DJ

Subjects

Animals, Birds, Female, Male, Reproduction, Seasons, Testosterone, Androgens, Palaeognathae

Abstract

Androgens modulate multiple key aspects of male reproduction, from morphology to mating behavior. Across animals the seasonal patterns of androgens are tightly linked to many of the species' life-history traits and their evolution. One popular framework to address this issue has been the Challenge Hypothesis, which proposed a testosterone-mediated trade-off between mating and parental care in males. Given the lack of empirical support, especially in birds, this hypothesis has been recently revisited (Challenge Hypothesis 2.0), integrating aspects such as male-female interactions and the diversity of reproductive systems in birds. Ratites constitute the most basal avian group (Palaeognathae: ratites together with Tinamiformes) and have certain characteristics that make them unique. They are flightless and generally have promiscuous mating systems with communal nests and male-only parental care (nest building, incubation and chick rearing). Furthermore, male testosterone concentrations remain high during the entire parental care period. Here we review the reproductive biology of ratites, integrating information on seasonal variations in parental care, social interactions and androgen levels across the group, in light of the Challenge Hypotheses and the Challenge Hypothesis 2.0 (there are no seasonal hormonal data for Tinamiformes, therefore they are not included in this review). We also discuss the constraints that could explain the lack of experimental approaches in behavioral endocrinology across ratites. I hope this review will motivate further research on this basal group of birds and further our understanding of the evolution of the mechanisms in the endocrine system that underly reproductive behavior across birds., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

5. Clinical and Biomechanical Performance of Occlusal Veneers: A Scoping Review.

Author

Ladino L, Sanjuan ME, Valdez DJ, and Eslava RA

Subjects

Ceramics, Humans, Dental Veneers, Tooth Wear

Abstract

Aim: This manuscript aims to evaluate, through a scoping review, current knowledge of the biomechanical behavior, materials, preparations, and limitations of occlusal veneers., Background: Occlusal veneers are a minimally invasive alternative for the additive restoration of posterior teeth with significant loss of the occlusal structure. This type of restoration has been emerged in recent years as an alternative to invasive treatment, which in the same way seeks to restore the structure of the posterior teeth. All this is because in recent years restorative dentistry has focused a large part of its objectives on conservative therapies., Review Results: Five electronic databases-PubMed, Cochrane, LILACS, EMBASE, and Google Scholar-were searched. Title and abstracts were independently screened by three reviewers, followed by a full-text review. A total of 42 articles met our inclusion criteria; most of these studies were in vitro ( n = 35) and other studies were clinical studies ( n = 7). These in vitro studies included 21 studies that analyzed the type of preparation and 6 studies that evaluated the limitations of occlusal veneers., Conclusion: Thicknesses between 0.7 and 1.0 mm are recommended for ceramic materials; in addition, thicknesses less than 0.7 mm are recommended to use polymeric materials. The materials used for this type of restoration are plastic- and ceramic-based materials, whose load resistance values were found to exceed 2000 N in most studies. It is recommended to carry out a minimally invasive preparation or not to carry out a dental preparation, as long as there is a peripheral enamel to make an external bevel that redirects the eccentric forces to the axis of the tooth., Clinical Significance: Restorative dentistry has moved toward conservative treatments with the least amount of dental tissue being removed. Occlusal veneers appear to be a conservative option in the reconstruction of tooth tissues lost due to tooth wear and in cases where it is necessary to restore or increase the vertical dimension.

Published

2021

6. Perinatal exposure to nicotine disrupts circadian locomotor and learning efficiency rhythms in juvenile mice.

Author

Fuentes-Cano MA, Bustamante-Valdez DJ, and Durán P

Subjects

Animals, Female, Male, Mice, Pregnancy, Circadian Rhythm drug effects, Learning drug effects, Motor Activity drug effects, Nicotine pharmacology, Nicotinic Agonists pharmacology, Prenatal Exposure Delayed Effects

Abstract

The increased rates of nicotine exposure by electronic nicotine delivery systems (vaping), ingestion, or patches during pregnancy as an alternative to the smoking of tobacco arise concerns about the neurodevelopmental, cognitive, and behavioral long-term consequences in the juvenile offspring. Nowadays, the use of electronic cigarettes as supposed a safer smoking alternative has been increased mainly in young females at reproductive age, due to the "safety" misconception. However, previous studies suggest that exposure to nicotine during pregnancy and prenatal development may lead to detrimental effects in the postnatal lifespan. Nicotine, as an alkaloid, alters the reward system acting as acetylcholine (ACh) agonist on nicotinic cholinergic receptors (nAChRs). In early brain development, the cholinergic system is also involved in neurite outgrowth, cell survival, proliferation, differentiation, neurogenesis, and many other critical processes being considered as a developmental signal marker. The nicotine noxious effect at those early stages may impact the system programming and plasticity in the long-term postnatal life. In this study, we analyze the circadian locomotor activity and learning efficiency rhythms in the juvenile male offspring of mice exposed to nicotine through pregnancy and lactation. Attenuated rhythm amplitude and relative power of the circadian component were found in the nicotine exposed offspring (pN). The acrophase (the best performance during a 24-h cycle) of learning efficiency was delayed and the long-term memory consolidation task failed after 8 days of learning experience. The aforementioned results suggest nicotine exposure in uterus modifies the circadian modulation related to the memory consolidation and locomotor systems as well as its environmental temporal synchronization.

Published

2020

7. Reproduction in the Eared Dove: An exception to the classic model of seasonal reproduction in birds?

Author

Maldonado L, Tempesti TC, Somoza GM, Peluc SI, and Valdez DJ

Subjects

Animals, Columbidae blood, Male, Testosterone blood, Columbidae physiology, Reproduction physiology, Seasons

Abstract

In avian species living at high altitudes and latitudes, reproductive events are largely controlled by photoperiod, with changes being perceived mainly through encephalic photoreceptors located in the hypothalamus. It is known that during long day periods (reproductive periods), the information transmitted by brain photoreceptors triggers the production of thyroid hormones that regulate GnRH secretion, inducing secretion of pituitary gonadotropins. As a result, gonads develop and grow and the production of gonadal sex hormones, testosterone and estradiol increases (classic gonadal cycle). During short day periods (non-reproductive periods) on the other hand, the gonads regress, and plasma gonadal steroid levels are low. By means of this mechanism, birds synchronize their physiology and reproductive behaviors with seasonal changes in the environment. However, it appears that not all avian species comply with this general reproductive pattern. For example, the Eared Dove (Zenaida auriculata), a South American opportunistic breeding columbiform, has been reported to successfully reproduce throughout the year, making it an interesting avian system for studying the endocrine basis of avian reproduction. In view of a clear lack of seasonal variability in testicular weight and size (the classic gonadal regression/recrudescence cycle) in the male Eared Dove, we examined whether their reproductive aseasonality could be the result of being in a continuous state of reproductive preparedness. Our results show that despite the absence of a marked gonadal cycle in terms of gonadal volume, plasma testosterone levels in males were minimal during autumn-winter, reaching maximum values during spring-summer. This indicates that male gonad function is not seasonal in terms of spermatogenesis but that circulating testosterone levels are correlated with photoperiod, demonstrating an exception to the classic model of reproduction in birds., Competing Interests: Declaration of Competing Interest The authors have declared that no competing interests exist., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published

2020

8. Food supplementation by an invasive fleshy-fruited shrub sustains body condition of a native frugivorous bird during winter.

Author

Rojas TN, Vergara-Tabares DL, Valdez DJ, Ponzio MF, and Peluc SI

Subjects

Animals, Cortisone blood, Introduced Species, Seasons, Songbirds blood, Body Weight, Feeding Behavior, Fruit, Plants classification, Songbirds physiology

Abstract

Birds tend to adjust their behavior and physiology to changes in food availability in their environment. Seasonal fluctuation of food resources may act as an energetic challenge, augmenting hypothalamus-pituitary-adrenal axis (HPA axis) activity, leading to an increase in corticosterone concentrations and promoting the metabolism of energy stores. Plant invasions may alter seasonal food fluctuations by providing a food supply during scarce seasons. This could attenuate the energetic challenge, reducing HPA axis activity and the metabolism of reserves. Using a system with seasonal fluctuation in food availability, we tested if fruit supplementation by the invasive fleshy-fruited Pyracantha angustifolia during the season of native fruit scarcity decreases the consumption of energy stores through activity attenuation of the HPA axis. We measured changes in body condition and circulating corticosterone (CORT) concentration in Turdus chiguanco occurring at sites both invaded and not invaded by P. angustifolia over 3 time periods that correspond to the periods prior to, during and after highest fruit production of the plant. Fruit scarcity in the ecosystem appears as an energetic challenge for T. chiguanco, given that body mass, fat score and residuals of body mass/tarsus length decreased during winter in a site not invaded by the exotic shrub. Conversely, the presence of the invasive plant seemed to attenuate the metabolism of energetic reserves, as we did not record changes in body condition in birds inhabiting the invaded site. Unexpectedly, plasma CORT concentration did not vary between sites or periods. Further evaluation is required to elucidate how enhanced body condition, resulting from the consumption of a fleshy-fruited invasive plant, affects survivorship and reproductive performance in T. chiguanco., (© 2018 International Society of Zoological Sciences, Institute of Zoology/Chinese Academy of Sciences and John Wiley & Sons Australia, Ltd.)

Published

2019

9. A Spectrophotometric Study of Plumage Color in the Eared Dove (Zenaida auriculata), the Most Abundant South American Columbiforme.

Author

Valdez DJ and Benitez-Vieyra SM

Subjects

Animals, Color, Color Perception, Colorimetry methods, Female, Male, Sex Characteristics, Sexual Behavior, Animal, Spectrophotometry, Columbidae anatomy & histology, Feathers chemistry, Pigmentation

Abstract

For birds, plumage color perception is critical in social interactions such as courtship, in both monochromatic and dichromatic species. In the Eared Dove (Zenaida auriculata), perhaps the most abundant South American Columbiforme, the plumage of males and females looks alike and both sexes share the same melanistic coloration with gray and pink tones. The aim of this study was therefore to determine whether evident sexual dichromatism exists in the plumage of the Eared Dove using a spectrophotometry technique in the avian-visible range (300-700 nm). The results of the classic colorimetric variables analysis (hue, chroma and brightness) show that males are in general brighter and have higher UV chroma values than females. The avian visual model points to differences in achromatic and chromatic levels between males and females in body regions possibly involved in sexual selection (e.g. the crown). The model also indicates chromatic or achromatic differences in body regions not subject to sexual selection such as the black spots on the wing coverts and white tail bands, both of which may be involved in intra- or inter-gender-specific communication.

Published

2016

10. β-Blockers have differential effects on the murine asthma phenotype.

Author

Thanawala VJ, Valdez DJ, Joshi R, Forkuo GS, Parra S, Knoll BJ, Bouvier M, Leff P, and Bond RA

Subjects

Allergens, Alprenolol pharmacology, Animals, Bronchoalveolar Lavage Fluid cytology, Carbazoles pharmacology, Carvedilol, Cell Count, Epinephrine deficiency, Female, Male, Mice, Knockout, Models, Biological, Mucins metabolism, Nadolol pharmacology, Ovalbumin, Phenotype, Propanolamines pharmacology, Propranolol pharmacology, Adrenergic beta-Antagonists pharmacology, Asthma immunology, Asthma metabolism, Asthma physiopathology

Abstract

Background and Purpose: Our previous studies have shown the β2 -adrenoceptor and its endogenous ligand, adrenaline, are required for development of the asthma phenotype in murine asthma models. Chronic administration of some, but not other, β-blockers attenuated the asthma phenotype and led us to hypothesize that biased signalling was the basis of their differential effects, experimentally and clinically., Experimental Approach: We used mice with no detectable systemic adrenaline (PNMT(-/-) ) and wild-type (WT) mice to study the effects of four β-blockers, alprenolol, carvedilol, propranolol and nadolol, in an ovalbumin sensitization and challenge (Ova S/C) murine model of asthma. The parameters measured were inflammatory cell infiltration, mucous metaplasia and airway hyperresponsiveness. To interpret the pharmacological action of these ligands quantitatively, we conducted computer simulations of three-state models of receptor activation., Key Results: Ova S/C PNMT(-/-) mice do not develop an asthma phenotype. Here, we showed that administration of alprenolol, carvedilol or propranolol in the absence of interference from adrenaline using Ova S/C PNMT(-/-) mice resulted in the development of an asthma phenotype, whereas nadolol had no effect. Ova S/C WT mice did develop an asthma phenotype, and administration of alprenolol, propranolol and carvedilol had no effect on the asthma phenotype. However, nadolol prevented development of the asthma phenotype in Ova S/C WT mice. Computer simulations of these four ligands were consistent with the isolated three-state receptor model., Conclusion and Implications: β-Blockers have different effects on the murine asthma phenotype that correlate with reported differences in activation or inhibition of downstream β2 -adrenoceptor signalling pathways., (© 2015 The British Pharmacological Society.)

Published

2015

11. Circadian control of the pupillary light responses in an avian model of blindness, the GUCY1* chickens.

Author

Valdez DJ, Nieto PS, Della Costa NS, Schurrer C, and Guido ME

Subjects

Animals, Chickens, Disease Models, Animal, Light Signal Transduction physiology, Photic Stimulation, Blindness physiopathology, Circadian Rhythm, Pupil physiology, Reflex, Pupillary physiology, Retinal Ganglion Cells physiology

Abstract

Purpose: The vertebrate inner retina has a subset of intrinsically photosensitive retinal ganglion cells (ipRGCs) that express the nonvisual photopigment melanopsin. The intrinsically photosensitive retinal ganglion cells send light information from the environment to the brain to control, among other parameters, the amount of energy entering the eyes through the pupillary light reflex (PLR). A daily variation in the PLR in both mice and humans has recently been shown, indicating circadian control of this response. In a previous work involving the sensitivity spectra for the PLR, we showed that blind chickens (GUCY1*) display the highest sensitivity to light of 480 nm. The aim of the present study was to evaluate the potential circadian control of PLRs in blind birds under scotopic conditions., Methods: Circadian PLR was performed on GUCY1* chickens with lights of different wavelengths (white or blue light of 475 nm) under scotopic conditions., Results: We found a significant daily variation in the PLRs of chickens exposed to white or blue light of 475 nm, with increased sensitivity at circadian time 6 during the subjective day., Conclusions: Our observations clearly point to circadian control of PLRs even in blindness, strongly indicating that both the entry of light into the eyes and its quality are differentially regulated during the day in diurnal animals., (Copyright 2015 The Association for Research in Vision and Ophthalmology, Inc.)

Published

2015

12. Seasonal changes in plasma levels of sex hormones in the greater Rhea (Rhea americana), a South American Ratite with a complex mating system.

Author

Valdez DJ, Vera Cortez M, Della Costa NS, Lèche A, Hansen C, Navarro JL, and Martella MB

Subjects

Animals, Animals, Zoo, Argentina, Chromatography, High Pressure Liquid veterinary, Female, Luminescent Measurements veterinary, Male, Models, Statistical, Rheiformes physiology, Estradiol blood, Rheiformes blood, Seasons, Sexual Behavior, Animal physiology, Testosterone blood

Abstract

Seasonal rhythm in sex hormones has been extensively studied in birds, as well as its relationship with the type of mating system. The Greater Rhea (Rhea americana), a South American ratite species, reproduces seasonally and has a complex mating system: female-defense polygyny and sequential polyandry. The present study aimed at analyzing the endocrine basis of reproduction in this species and its relationship with its mating system. We used HPLC and electrochemiluminescence techniques to identify and measure plasma testosterone and estradiol levels. Annual oscillations in sex hormones, testosterone and estradiol, in adult males and females were observed. Lower levels of these hormones were exhibited during the non reproductive season (February to July), whereas their maximum values were reached in September for males and November-December for females. These fluctuations reflect the seasonal changes in gonadal function. By contrast, no significant sex hormones oscillations were observed in juvenile males and females (negative control of seasonal changes). Greater rheas maintain high testosterone and estradiol levels throughout the reproductive period. The high testosterone levels during incubation and chick rearing did not inhibit parental behavior in males, which appears not to conform to the "Challenge Hypothesis". In females, the high estradiol levels throughout the reproductive season would be needed to sustain their long egg-laying period.

Published

2014

13. Differential regulation of feeding rhythms through a multiple-photoreceptor system in an avian model of blindness.

Author

Valdez DJ, Nieto PS, Díaz NM, Garbarino-Pico E, and Guido ME

Subjects

Animals, Avian Proteins genetics, Blindness genetics, Chickens, Circadian Rhythm physiology, Disease Models, Animal, Guanylate Cyclase genetics, Light, Mutation, Photic Stimulation, Photoreceptor Cells, Vertebrate metabolism, Photoreceptor Cells, Vertebrate radiation effects, Pineal Gland physiology, Pineal Gland radiation effects, Retina metabolism, Retina physiology, Retinal Degeneration genetics, Retinal Degeneration physiopathology, Signal Transduction genetics, Signal Transduction radiation effects, Blindness physiopathology, Feeding Behavior physiology, Photoreceptor Cells, Vertebrate physiology, Signal Transduction physiology

Abstract

All organisms have evolved photodetection systems to synchronize their physiology and behavior with the external light-dark (LD) cycles. In nonmammalian vertebrates, the retina, the pineal organ, and the deep brain can be photoreceptive. Inner retinal photoreceptors transmit photic information to the brain and regulate diverse nonvisual tasks. We previously reported that even after preventing extraretinal photoreception, blind GUCY1* chickens lacking functional visual photoreceptors could perceive light that modulates physiology and behavior. Here we investigated the contribution of different photoreceptive system components (retinal/pineal and deep brain photoreceptors) to the photic entrainment of feeding rhythms. Wild-type (WT) and GUCY1* birds with head occlusion to avoid extraocular light detection synchronized their feeding rhythms to a LD cycle with light >12 lux, whereas at lower intensities blind birds free-ran with a period of >24 h. When released to constant light, both WT and blind chickens became arrhythmic; however, after head occlusion, GUCY1* birds free-ran with a 24.5-h period. In enucleated birds, brain illumination synchronized feeding rhythms, but in pinealectomized birds only responses to high-intensity light (≥800 lux) were observed, revealing functional deep brain photoreceptors. In chickens, a multiple photoreceptive system, including retinal and extraretinal photoreceptors, differentially contributes to the synchronization of circadian feeding behavior.

Published

2013

14. Differential regulation of arylalkylamine N-acetyltransferase activity in chicken retinal ganglion cells by light and circadian clock.

Author

Valdez DJ, Garbarino-Pico E, Díaz NM, Silvestre DC, and Guido ME

Subjects

Animals, Arylalkylamine N-Acetyltransferase genetics, Blindness genetics, Blindness metabolism, Chickens genetics, Guanylate Cyclase genetics, Guanylate Cyclase metabolism, Poultry Diseases genetics, Arylalkylamine N-Acetyltransferase metabolism, Chickens metabolism, Gene Expression Regulation, Enzymologic radiation effects, Light, Retinal Ganglion Cells enzymology

Abstract

Retinal ganglion cells (RGCs) contain circadian clocks driving melatonin synthesis during the day, a subset of these cells acting as nonvisual photoreceptors sending photic information to the brain. In this work, the authors investigated the temporal and light regulation of arylalkylamine N-acetyltransferase (AA-NAT) activity, a key enzyme in melatonin synthesis. The authors first examined this activity in RGCs of wild-type chickens and compared it to that in photoreceptor cells (PRs) from animals maintained for 48 h in constant dark (DD), light (LL), or regular 12-h:12-h light-dark (LD) cycle. AA-NAT activity in RGCs displayed circadian rhythmicity, with highest levels during the subjective day in both DD and LL as well as in the light phase of the LD cycle. In contrast, AA-NAT activity in PRs exhibited the typical nocturnal peak in DD and LD, but no detectable oscillation was observed under LL, under which conditions the levels were basal at all times examined. A light pulse of 30-60 min significantly decreased AA-NAT activity in PRs during the subjective night, but had no effect on RGCs during the day or night. Intraocular injection of dopamine (50 nmol/eye) during the night to mimic the effect of light presented significant inhibition of AA-NAT activity in PRs compared to controls but had no effect on RGCs. The results clearly demonstrate that the regulation of the diurnal increase in AA-NAT activity in RGCs of chickens undergoes a different control mechanism from that observed in PRs, in which the endogenous clock, light, and dopamine exhibited differential effects.

Published

2012

15. Expression of novel opsins and intrinsic light responses in the mammalian retinal ganglion cell line RGC-5. Presence of OPN5 in the rat retina.

Author

Nieto PS, Valdez DJ, Acosta-Rodríguez VA, and Guido ME

Subjects

Animals, Blotting, Western, Calcium metabolism, Cell Line, Fura-2 analogs & derivatives, Fura-2 metabolism, Gene Expression Regulation radiation effects, HEK293 Cells, Humans, Immunohistochemistry, Opsins genetics, Photic Stimulation, Proto-Oncogene Proteins c-fos metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Wistar, Retinal Ganglion Cells cytology, Light, Opsins metabolism, Retinal Ganglion Cells metabolism, Retinal Ganglion Cells radiation effects

Abstract

The vertebrate retina is known to contain three classes of photoreceptor cells: cones and rods responsible for vision, and intrinsically photoresponsive retinal ganglion cells (RGCs) involved in diverse non-visual functions such as photic entrainment of daily rhythms and pupillary light responses. In this paper we investigated the potential intrinsic photoresponsiveness of the rat RGC line, RGC-5, by testing for the presence of visual and non-visual opsins and assessing expression of the immediate-early gene protein c-Fos and changes in intracellular Ca(2+) mobilization in response to brief light pulses. Cultured RGC-5 cells express a number of photopigment mRNAs such as retinal G protein coupled receptor (RGR), encephalopsin/panopsin (Opn3), neuropsin (Opn5) and cone opsin (Opn1mw) but not melanopsin (Opn4) or rhodopsin. Opn5 immunoreactivity was observed in RGC-5 cells and in the inner retina of rat, mainly localized in the ganglion cell layer (GCL). Furthermore, white light pulses of different intensities and durations elicited changes both in intracellular Ca(2+) levels and in the induction of c-Fos protein in RGC-5 cell cultures. The results demonstrate that RGC-5 cells expressing diverse putative functional photopigments display intrinsic photosensitivity which accounts for the photic induction of c-Fos protein and changes in intracellular Ca(2+) mobilization. The presence of Opn5 in the GCL of the rat retina suggests the existence of a novel type of photoreceptor cell.

Published

2011

16. Inner retinal circadian clocks and non-visual photoreceptors: novel players in the circadian system.

Author

Guido ME, Garbarino-Pico E, Contin MA, Valdez DJ, Nieto PS, Verra DM, Acosta-Rodriguez VA, de Zavalía N, and Rosenstein RE

Subjects

Animals, Dopamine metabolism, Humans, Melatonin metabolism, Models, Biological, Retina metabolism, Retinal Diseases pathology, Retinal Diseases physiopathology, Circadian Clocks physiology, Circadian Rhythm physiology, Photoreceptor Cells physiology, Retina cytology

Abstract

Daily and annual changes in ambient illumination serve as specific stimuli that associate light with time and regulate the physiology of the organism through the eye. The eye acts as a dual sense organ linking light and vision, and detecting light that provides specific stimuli for non-classical photoreceptors located in the inner retina. These photoreceptors convey information to the master circadian pacemaker, the hypothalamic suprachiasmatic nuclei (SCN). Responsible for sensing the light that regulates several non-visual functions (i.e. behavior, pupil reflex, sleep, and pineal melatonin production), the retina plays a key role in the temporal symphony orchestra playing the musical score of life: it is intrinsically rhythmic in its physiological and metabolic activities. We discuss here recent evidence in support of the hypothesis that retinal oscillators distributed over different cell populations may act as clocks, inducing changes in the visual and circadian system according to the time of the day. Significant progress has recently been made in identifying photoreceptors/photopigments localized in retinal ganglion cells (RGCs) that set circadian rhythms and modulate non-visual functions. Autonomous retinal and brain oscillators could have a more complex organization than previously recognized, involving a network of "RGC clock/SCN clock cross-talk". The convergence of oscillatory and photoreceptive capacities of retinal cells could deeply impact on the circadian system, which in turn may be severely impaired in different retinal pathologies. The aim of this review is to discuss the state of the art on inner retinal cell involvement in the light and temporal regulation of health and disease., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2010

17. Differential responses of the mammalian retinal ganglion cell line RGC-5 to physiological stimuli and trophic factors.

Author

Nieto PS, Acosta-Rodríguez VA, Valdez DJ, and Guido ME

Subjects

Adenosine Triphosphate pharmacology, Animals, Blotting, Western, CLOCK Proteins biosynthesis, CLOCK Proteins genetics, Calcium metabolism, Cell Death drug effects, Cell Differentiation drug effects, Cell Line, Cell Proliferation, Flow Cytometry, Glutamic Acid pharmacology, Immunohistochemistry, Microscopy, Fluorescence, Neurites drug effects, Rats, Reverse Transcriptase Polymerase Chain Reaction, Serum, Nerve Growth Factors pharmacology, Retinal Ganglion Cells drug effects, Retinal Ganglion Cells physiology

Abstract

The rat retinal ganglion cell (RGC) line RGC-5 constitutes a widely used model for studying physiological processes in retinal cells. In this paper we investigated the expression of clock and immediately early genes, and calcium mediated responses to physiological stimuli in differentiated and mitotically active RGC-5 cells. To this end, we attempted to differentiate the RGC-5 cells with a variety of effectors classically used to induce morphological differentiation. No sign of morphological differentiation was observed after 24 h of treatment with BDNF (80 ng/mL), NGF (100 ng/mL) and retinoic acid (20 ng/mL), among others. Only staurosporine (SSP) was able to promote neurite outgrowth at concentrations ranging from 53.5 to 214 nM. However, apoptotic nuclei were seen at 24 h of treatment using DNA staining, and a few cells remained at 72 h post-treatment. Concentrations of SSP lower than 214 nM were partially effective in inducing cell differentiation. Dividing RGC-5 cells express the RGC marker Thy-1 and different clock genes such as Per1, Clock and Bmal1. When characterizing the responsiveness of proliferative RGC-5 cells we found that in most of them, brief pulses of 50% FBS induced c-Fos and PER1 expression. Subsets of RGC-5 cells displayed significant changes in intracellular Ca2+ levels by ATP (100 microM) but not by glutamate (100-200 microM) stimulation. On the basis of cell morphology, size and complexity and effector responsiveness it was possible to distinguish different subpopulations within the cell line. The results demonstrate that only SSP is effective in promoting RGC-5 morphological differentiation, though the treatment provoked cell death. Proliferative cells expressing the RGC marker Thy-1 and a number of clock genes, responded differentially to diverse physiological stimuli showing a rapid c-Fos and PER1 induction by FBS stimulation, and an increase in intracellular Ca2+ by ATP., ((c) 2010 Elsevier Ltd. All rights reserved.)

Published

2010

18. A nonmammalian vertebrate model of blindness reveals functional photoreceptors in the inner retina.

Author

Valdez DJ, Nieto PS, Garbarino-Pico E, Avalle LB, Díaz-Fajreldines H, Schurrer C, Cheng KM, and Guido ME

Subjects

Animals, Behavior, Animal physiology, Chickens, Circadian Rhythm physiology, Eye Proteins physiology, Light, Models, Biological, Photic Stimulation methods, Photoreceptor Cells, Vertebrate physiology, Pupil physiology, Reflex, Pupillary physiology, Light Signal Transduction, Photoreceptor Cells, Vertebrate metabolism, Retina cytology, Retina metabolism, Vertebrates

Abstract

In mammals, photoreceptors located in the inner retina convey photic information to the brain, regulating diverse non-image-forming tasks such as pupillary light reflexes and photic synchronization (entrainment) of daily activity rhythms. In nonmammalian vertebrates, the retina, deep brain photoreceptors, and pineal organ may be photoreceptive. Here we investigated light perception in the absence of functional cone and rod photoreceptors using GUCY1* chickens, birds carrying a null mutation that causes blindness at hatch. They showed light responses in both the pupillary light reflex and the entrainment of feeding rhythms to a 12:12 h light-dark cycle. Light responses persisted even when the extraretinal photoperception was abolished, but they were lost after enucleation; this strongly indicates the essential role played by the inner retina. A sensitivity spectrum study for the pupillary reflex that combined pupil responses to different monochromatic lights of various intensities demonstrated that a single opsin/vitamin A-based photopigment peaking at 484 nm drives photic responses; the best fit (lowest sum of squares, R(2)=0.9622) was attained with an opsin:vitamin A2 template. The results are the first characterization of functional inner retinal photoreceptors participating in the regulation of non-image-forming activities in nonmammalian vertebrates.

Published

2009

19. Early maternal separation and chronic variable stress as adults differentially affect Fos expression in the anterodorsal thalami nuclei.

Author

Rivarola MA, Dalmasso C, Valdez DJ, Vivas LM, and Suárez MM

Subjects

Animals, Chronic Disease, Female, Rats, Rats, Wistar, Receptors, Glucocorticoid metabolism, Gene Expression Regulation physiology, Maternal Deprivation, Oncogene Proteins v-fos metabolism, Stress, Psychological metabolism, Thalamic Nuclei metabolism

Abstract

The present study examined the participation of the anterodorsal thalamic nuclei (ADTN) in mediating the long-term effects of early maternal separation on the stress/hypothalamic-pituitary-adrenal axis response of adult animals. The study measured Fos and glucocorticoid receptor immunoreactivity (GR-ir) in the ADTN of maternally separated female rats subsequently exposed to variable chronic stress. Maternal separation increased the number of neurons immunoreactive to Fos in the ADTN of chronically stressed adult rats. GR-ir was absent in the ADTN. Linking these results with previous endocrine evidence led the authors to propose a dual role of these nuclei. Maternal separation and chronic stress enhance the neuronal activity of the ADTN, nevertheless it is not regulated, at least directly, via GR.

Published

2008

20. Rhythms of glycerophospholipid synthesis in retinal inner nuclear layer cells.

Author

Garbarino-Pico E, Valdez DJ, Contín MA, Pasquaré SJ, Castagnet PI, Giusto NM, Caputto BL, and Guido ME

Subjects

1-Acylglycerophosphocholine O-Acyltransferase metabolism, Animals, Biological Clocks physiology, Chickens, Circadian Rhythm radiation effects, Darkness, Glycerol metabolism, Glycerophospholipids radiation effects, Lipoprotein Lipase metabolism, Neurons radiation effects, Oleic Acid metabolism, Phosphates metabolism, Phosphatidate Phosphatase metabolism, Photic Stimulation, Photoreceptor Cells, Vertebrate metabolism, Photoreceptor Cells, Vertebrate radiation effects, Retina radiation effects, Retinal Ganglion Cells metabolism, Retinal Ganglion Cells radiation effects, Circadian Rhythm physiology, Glycerophospholipids biosynthesis, Light, Neurons metabolism, Retina metabolism

Abstract

The present study demonstrates that the biosynthesis of phospholipids in the inner nuclear layer cells of the chicken retina displays daily rhythms under constant illumination conditions. The vertebrate retina contains circadian oscillators and photoreceptors (PRCs) that temporally regulate its own physiology and synchronize the whole organism to the daily environmental changes. We have previously reported that chicken photoreceptors and retinal ganglion cells (RGCs) present significant daily variations in their phospholipid biosynthesis under constant illumination conditions. Herein, we demonstrate that cell preparations highly enriched in inner nuclear layer cells also exhibit a circadian-regulated phospholipid labeling after the in vivo administration of [(32)P]phosphate or [(3)H]glycerol both in animals maintained under constant darkness or light for at least 48h. In constant darkness, there was a significant incorporation of both precursors into phospholipids with the highest levels of labeling around midday and dusk. In constant light, the labeling of (32)P-phospholipids was also significantly higher during the day and early night whereas the incorporation of [(3)H]glycerol into phospholipids, that indicates de novo biosynthesis, was greater during the day but probably reflecting a higher precursor availability at those phases. We also measured the in vitro activity of phosphatidate phosphohydrolase and diacylglycerol lipase in preparations obtained from the dark condition. The two enzymes exhibited the highest activity levels late in the day. When we assessed the in vitro incorporation of [(14)C]oleate into different lysophospholipids from samples collected at different phases in constant darkness, reaction catalyzed by lysophospholipid acyltransferases II, labeling showed a complex pattern of daily activity. Taken together, these results demonstrate that the biosynthesis of phospholipids in cells of the chicken retinal inner nuclear layer exhibits a daily rhythmicity under constant illumination conditions, which is controlled by a circadian clock.

Published

2005