2007, Number 1
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Salud Mental 2007; 30 (1)
Las bases neurales del proceso de enmascaramiento. Segunda parte
Salazar-Juárez A, Parra-Gámez L, Barbosa MS, Philippe Leff, Antón B
Language: Spanish
References: 118
Page: 56-67
PDF size: 196.85 Kb.
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REFERENCES
AGUILAR-ROBLERO R, GARCIA-HERNANDEZ F, AGUILAR R, ARANKOWSKY-SANDOVAL G, DRUCKER- COLIN R: Suprachiasmatic nucleus transplants function as an endogenous oscillator only in constant darkness. Neurosci Lett, 69(1):47-52. 1986.
AGUILAR-ROBLERO R, DRUCKER-COLIN R: The role of the suprachiasmatic nuclei in the regulation of circadian rhythms in mammals. Boletin Estudios Medicos Biológicos, 35:35-51, 1987.
ALBERS HE, LYDIC R, MOORE-EDE MC. Entrainment and masking of circadian drinking rhythms in primates: influence of light intensity. Physiol Behav, 28(2):205-11, 1982.
ARENDT J, RAVAULT JP: Suppression of melatonin secretion in Ile-de-France rams by different light intensities. J Pineal Res, 5(3):245-50. 1988.
ARENDT J: Melatonin and the Mammalian Pineal Gland. Chapman and Hall, Londres, 1995.
ASCHOFF J: Exogenous and endogenous components in circadian rhythms. Cold Spring Harb Symp Quant Biol, 25:11-28, 1960.
ASCHOFF J, VON GOETZ C: Circadian activity rhythms in squirrel monkeys: entrainment by temperature cycles. J Biol Rhythms, 1(2):91-9, 1986.
ASCHOFF J: Masking of circadian rhythms by zeitgebers as opposed to entrainment. Advances Bioscience, 73:149-161, 1988.
ASCHOFF J, VON GOETZ C: Masking of circadian activity rhythms in hamsters by darkness. J Comp Physiol [A], 162(4):559-62, 1988.
ASCHOFF J, VON GOETZ C: Masking of circadian activity rhythms in canaries by light and dark. J Biol Rhythms, 4(1):29-38, 1989.
ASCHOFF J: Masking and parametric effects of high-frequency light-dark cycles. Jpn J Physiol, 49(1):11-8, 1999.
BELENKY MA, SMERASKI CA, PROVENCIO I, SOLLARS PJ, PICKARD GE: Melanopsin retinal ganglion cells receive bipolar and amacrine cell synapses. J Comp Neurol, 460(3):380-93, 2003.
BENSHOFF HM, BRAINARD GC, ROLLAG MD, LYNCH GR: Suppression of pineal melatonin in Peromyscus leucopus by different monochromatic wavelengths of visible and near-ultraviolet light (UV-A). Brain Res, 420(2):397-402, 1987.
BINKLEY S, MOSHER K: Direct and circadian control of sparrow behavior by light and dark. Physiol Behav, 35(5):785-97, 1985.
BOER GJ, GRIFFIOEN HA, DUINDAM H, VAN DER WOUDE TP, RIETVELD WJ: Light/dark-induced effects on behavioural rhythms in suprachiasmatic nucleus lesioned rats irrespective of the presence of functional suprachiasmatic nucleus brain implants. J Interdiscipl Cycle Res, 24(2):118-136, 1993.
BORBELY AA: Effects of light on sleep and activity rhythms. Prog Neurobiol, 10(1):1-31, 1978.
BRAINARD GC, RICHARDSON BA, KING TS, REITER RJ: The influence of different light spectra on the suppression of pineal melatonin content in the Syrian hamster. Brain Res, 294(2):333-9, 1984.
CARDINALI DP, LARIN F, WURTMAN RJ: Action spectra for effects of light on hydroxyindole-o-methyl transferases in rat pineal, retina and harderian gland. Endocrinology, 91(4):877-86, 1972.
CIPOLLA-NETO J, BARTOL I, SERAPHIM PM, AFECHE SC y cols.: The effects of lesions of the thalamic intergeniculate leaflet on the pineal metabolism. Brain Res, 691(1-2):133-41, 1995.
DALY M, BEHRENDS PR, WILSON MI: Activity patterns of Kangaroo Rats- Granivores in a desert habitat. En: Activity Patterns in Smalll Mammalians. Halle S, Stenseth N (eds.). Springer-Verlang, 145-158, Berlín, 2000.
DECOURSEY PJ, KRULAS JR, MELE G, HOLLEY DC: Circadian performance of suprachiasmatic nuclei (SCN)-lesioned antelope ground squirrels in a desert enclosure. Physiol Behav, 62(5):1099-108, 1997.
DECOURSEY PJ, KRULAS JR: Behavior of SCN-lesioned chipmunks in natural habitat: a pilot study. J Biol Rhythms, 13(3):229-44, 1998.
DECOURSEY PJ, WALKER JK, SMITH SA: A circadian pacemaker in free-living chipmunks: essential for survival? J Comp Physiol [A], 186(2):169-80, 2000.
DE LA IGLESIA HO, SCHWARTZ WJ: A subpopulation of efferent neurons in the mouse suprachiasmatic nucleus is also light responsive. Neuroreport, 13(6):857-60, 2002.
DEVESON SL, ARENDT J, FORSYTH IA: Sensitivity of goats to a light pulse during the night as assessed by suppression of melatonin concentrations in the plasma. J Pineal Res, 8(2):169-77, 1990.
DOI M, YUJNOVSKY I, HIRAYAMA J, MALERBA M y cols.: Impaired light masking in dopamine D2 receptor-null mice. Nat Neurosci, 9(6):732-734, 2006.
EBIHARA S, TSUJI K: Entrainment of the circadian activity rhythm to the light cycle: effective light intensity for a Zeitgeber in the retinal degenerate C3H mouse and the normal C57BL mouse. Physiol Behav, 24(3):523-7, 1980.
EDELSTEIN K, AMIR S: Non-photic manipulations induce expression of Fos protein in the suprachiasmatic nucleus and intergeniculate leaflet in the rat. Brain Res, 690(2):254-8, 1995.
EDELSTEIN K, MROSOVSKY N: Behavioral responses to light in mice with dorsal lateral geniculate lesions. Brain Res, 918(1-2):107-12, 2001.
ERKERT HG: Der Einfluss des Mondlichtes auf die Aktivitatsperiodik nachtaktiver saugetiere. Oecologia Berlin, 14:269- 287, 1974.
ERKERT HG, GROBER J: Direct modulation of activity and body temperature of owl monkeys (Aotus lemurinus griseimembra) by low light intensities. Folia Primatol (Basel), 47(4):171-88, 1986.
FOSTER RG, PROVENCIO I, HUDSON D, FISKE S, DE GRIP W, MENAKER M: Circadian photoreception in the retinally degenerate mouse (rd/rd). J Comp Physiol [A], 169(1):39-50, 1991.
FOSTER RG. MENAKER M: Circadian photoreception in mammals and others vertebrales. En: Wetterberg L (ed.). Light and Biological R4hythms in Man. Pergamon Press, P.73-91, Oxford, 1993.
FREEDMAN MS, LUCAS RJ, SONI B, VON SCHANTZ M y cols.: Regulation of mammalian circadian behavior by non-rod, non-cone, ocular photoreceptors. Science, 284(5413):502-4, 1999.
FRY FEJ: Effects of the Environment on Animal Activity. University of Toronto Studies. Biological series. No 55. University of Toronto Press. P.1-62, Toronto, 1947.
FULLER CA, LYDIC R, SULZMAN FM, ALBERS HE y cols.: Circadian rhythm of body temperature persists after suprachiasmatic lesions in the squirrel monkey. Am J Physiol, 241(5):R385-91, 1981.
GANDER PH, MOORE-EDE MC: Light-dark masking of circadian temperature and activity rhythms in squirrel monkeys. Am J Physiol, 245(6):R927-34, 1983.
GERM M, TOMIOKA K: Circadian period modulation and masking effects induced by repetitive light pulses in locomotor rhythms of the Cricket, Gryllus bimaculatus. Zool Sci, 15:309-316, 1988.
HARRINGTON ME, RUSAK B: Photic responses of geniculo-hypothalamic tract neurons in the Syrian hamster. Vis Neurosci, 2(4):367-75, 1989.
HARRINGTON ME: The ventral lateral geniculate nucleus and the intergeniculate leaflet: interrelated structures in the visual and circadian systems. Neurosci Biobehav Rev, 21(5):705- 27, 1997.
HATTAR S, LIAO HW, TAKAO M, BERSON DM, YAU KW: Melanopsin-containing retinal ganglion cells: architecture, projections, and intrinsic photosensitivity. Science, 295(5557):1065-70, 2002.
HATTAR S, LUCAS RJ, MROSOVSKY N, THOMPSON S y cols.: Melanopsin and rod-cone photoreceptive systems account for all major accessory visual functions in mice. Nature, 424(6944):76-81, 2003.
IBUKA N, INOUYE SI, KAWAMURA H: Analysis of sleepwakefulness rhythms in male rats after suprachiasmatic nucleus lesions and ocular enucleation. Brain Res, 122(1):33-47. 1977.
ILLNEROVA H, VANECEK J: Response of rat pineal serotonin N-acetyltransferase to one min light pulse at different night times. Brain Res, 167(2):431-4, 1979.
ILLNEROVA H, VANECEK J, KRECEK J, WETTERBERG L, SAAF J: Effect of one minute exposure to light at night on rat pineal serotonin N-acetyltransferase and melatonin. J Neurochem, 32(2):673-5, 1979.
KAS MJ, EDGAR DM: A nonphotic stimulus inverts the diurnal-nocturnal phase preference in Octodon degus. J Neurosci, 19(1):328-33, 1999.
KATONA C, SMALE L: Wheel-running rhythms in Arvicanthis niloticus. Physiol Behav, 61(3):365-72, 1997.
KENNAWAY DJ, ROWE SA: Impact of light pulses on 6- sulphatoxymelatonin rhythms in rats. J Pineal Res, 16(2):65-72, 1994.
KING DP, ZHAO Y, SANGORAM AM, WILSBACHER LD y cols. Positional cloning of the mouse circadian clock gene. Cell, 89(4):641-53, 1997.
KLEIN DC, WELLER JL, MOORE RY: Melatonin metabolism: neural regulation of pineal serotonin: acetyl coenzyme A N-acetyltransferase activity. Proc Natl Acad Sci USA, 68(12):3107-10, 1971.
KLEIN DC, WELLER JL: Rapid light-induced decrease in pineal serotonin N-Acetyl transferase Activity. Science, 177(48)532-533, 1972.
KLEIN DC, MOORE RY: Pineal N-acetyltransferase and hydroxyindole-O-methyltransferase: control by the retinohypothalamic tract and the suprachiasmatic nucleus. Brain Res, 174(2):245-62, 1979.
KLEIN DC, MOORE RY, REPPERT SM: Suprachiasmatic Nuclei: The Minds Clock. Oxford University Press, Oxford, 1991.
KRAMER A, YANG FC, SNODGRASS P, LI X y cols.: Regulation of daily locomotor activity and sleep by hypothalamic EGF receptor signaling. Science, 294(5551):2511-5, 2001.
KRONAUER RE, CZEISLER CA, PILATO SF, MOORE EDE MC, WEITZMAN ED: Mathematical model of the human circadian system with two interacting oscillators. Am J Physiol, 242:R3-R17, 1982.
LEWY AJ, WEHR TA, GOODWIN FK, NEWSOME DA, MARKEY SP: Light suppresses melatonin secretion in humans. Science. 210(4475):1267-9, 1980.
LI X, GILBERT J, DAVIS FC: Disruption of masking by hypothalamic lesions in Syrian hamsters. J Comp Physiol A Neuroethol Sens Neural Behav Physiol, 191(1):23-30, 2005.
LUCAS RJ, FOSTER RG: Neither functional rod photoreceptors nor rod or cone outer segments are required for the photic inhibition of pineal melatonin. Endocrinology, 140(4):1520-4, 1999.
LUCAS RJ, FREEDMAN MS, MUNOZ M, GARCIA-FERNANDEZ JM, FOSTER RG: Regulation of the mammalian pineal by non-rod, non-cone, ocular photoreceptors. Science, 284(5413):505-7, 1999.
LUCAS RJ, HATTAR S, TAKAO M, BERSON DM, FOSTER RG, YAU KW: Diminished pupillary light reflex at high irradiances in melanopsin-knockout mice. Science, 299(5604):245-7, 2003.
MILLER AM, OBERMEYER WH, BEHAN M, BENCA RM: The superior colliculus-pretectum mediates the direct effects of light on sleep. Proc Natl Acad Sci USA, 95(15):8957-62, 1998.
MILLER AM, MILLER RB, OBERMEYER WH, BEHAN M, BENCA RM: The pretectum mediates rapid eye movement sleep regulation by light. Behav Neurosci, 113(4):755-65, 1999.
MINORS DS, WATERHOUSE JM: Masking and biological rhythms. Chronobiol Int, 6(1):1-2, 1989.
MINORS DS, WATERHOUSE JM: Masking in humans: the problem and some attempts to solve it. Chronobiol Int. 6(1):29-53, 1989.
MISTLBERGER RE: Nonphotic entrainment of circadian activity rhythms in suprachiasmatic nuclei-ablated hamsters. Behav Neurosci, 106(1):192-202, 1992.
MOORE RY, LENN NJ: A retinohypothalamic projection in the rat. J Comp Neurol, 146(1):1-14, 1972.
MOORE RY, CARD JP: Intergeniculate leaflet: an anatomically and functionally distinct subdivision of the lateral geniculate complex. J Comp Neurol, 344(3):403-30, 1994.
MOORE RY, SPEH JC, LEAK RK: Suprachiasmatic nucleus organization. Cell Tissue Res, 309(1):89-98, 2002.
MOORE-EDE MC, ZULZMAN FM, FULLER CA: The Clocks That Time Us. Harvard University Press, Cambridge, 1982.
MORIN LP: The Circadian Visual System. Brain Res Rev, 67:102-127, 1994.
MORIN LP, BLANCHARD JH: Neuropeptide Y and enkephalin immunoreactivity in retinorecipient nuclei of the hamster pretectum and thalamus. Vis Neurosci, 14(4):765-77, 1997.
MROSOVSKY N: Nonphotic enhancement of adjustment to new light-dark cycles: masking interpretation discounted. J Biol Rhythms, 4(3):365-70, 1989.
MROSOVSKY N: In praise of masking: behavioural responses of retinally degenerate mice to dim light. Chronobiol Int, 11(6):343-8, 1994.
MROSOVSKY N, HAMPTON RR: Spatial responses to light in mice with severe retinal degeneration. Neurosci Lett, 222(3):204-6, 1997.
MROSOVSKY N, FOSTER RG, SALMON PA: Thresholds for masking responses to light in three strains of retinally degenerate mice. J Comp Physiol [A], 184(4):423-8, 1999.
MROSOVSKY N: Masking: history, definitions, and measurement. Chronobiol Int, 16(4):415-29, 1999.
MROSOVSKY N, SALMON PA, FOSTER RG, MCCALL MA: Responses to light after retinal degeneration. Vision Res, 40(6):575-8, 2000.
MROSOVSKY N, LUCAS RJ, FOSTER RG: Persistence of masking responses to light in mice lacking rods and cones. J Biol Rhythms, 16(6):585-8, 2001.
MROSOVSKY N: Further characterization of the phenotype of mCry1/mCry2-deficient mice. Chronobiol Int, 18(4):613-25, 2001.
MROSOVSKY N, SALMON PA: Learned arbitrary responses to light in mice without rods or cones. Naturwissenschaften, 89(11):525-7, 2002.
MROSOVSKY N, HATTAR S: Impaired masking responses to light in melanopsin-knockout mice. Chronobiol Int, 20(6):989- 99, 2003.
MROSOVSKY N, HATTAR S: Diurnal mice (Mus musculus) and other examples of temporal niche switching. J Comp Physiol Neuroethol Sens Neural Behav Physiol, 191(11):1011-24, 2005.
MROSOVSKY N, REDLIN U, ROBERTS RB, THREADGILL DW: Masking in waved-2 mice: EGF receptor control of locomotion questioned. Chronobiol Int, 22(6):963-74, 2005.
PAGE TL: Masking in invertebrates. Chronobiol Int, 6(1):3-11, 1989.
PANDA S, SATO TK, CASTRUCCI AM, ROLLAG MD y cols.: Melanopsin (Opn4) requirement for normal light-induced circadian phase shifting. Science, 298(5601):2213-6, 2002.
PICKARD GE: Bifurcating axons of retinal ganglion cells terminate in the hypothalamic suprachiasmatic nucleus and the intergeniculate leaflet of the thalamus. Neurosci Lett, 55(2):211-7, 1985.
PICKARD GE, SOLLARS PJ, RINCHIK EM, NOLAN PM, BUCAN M: Mutagenesis and behavioral screening for altered circadian activity identifies the mouse mutant, Wheels. Brain Res, 705(1-2):255-66, 1995.
PROVENCIO I, WONG S, LEDERMAN AB, ARGAMASO SM, FOSTER RG: Visual and circadian responses to light in aged retinally degenerate mice. Vision Res, 34(14):1799-806, 1994.
PROVENCIO I, COOPER HM, FOSTER RG: Retinal projections in mice with inherited retinal degeneration: implications for circadian photoentrainment. J Comp Neurol, 395(4):417-39. 1998.
PROVENCIO I, ROLLAG MD, CASTRUCCI AM: Photoreceptive net in the mammalian retina. This mesh of cells may explain how some blind mice can still tell day from night. Nature, 415(6871):493, 2002.
RAJARATHAM SM, REDMAN JR: Social contact synchronizes free-running activity rhythms of diurnal palm squirrels. Physiol Behav, 66(1):21-6, 1999.
REDLIN U, MROSOVSKY N: Masking of locomotor activity in hamsters. J Comp Physiol [A], 184(4):429-37, 1999.
REDLIN U, MROSOVSKY N: Masking by light in hamsters with SCN lesions. J Comp Physiol [A], 184(4):439-48, 1999.
REDLIN U, VRANG N, MROSOVSKY N: Enhanced masking response to light in hamsters with IGL lesions. J Comp Physiol [A], 184(4):449-56, 1999.
REDLIN U: Neural basis and biological function of masking by light in mammals: suppression of melatonin and locomotor activity. Chronobiol Int, 18(5):737-58, 2001.
REDLIN U, COOPER HM, MROSOVSKY N: Increased masking response to light after ablation of the visual cortex in mice. Brain Res, 965(1-2):1-8, 2003.
REDLIN U, MROSOVSKY N: Nocturnal activity in a diurnal rodent (Arvicanthis niloticus): the importance of masking. J Biol Rhythms, 19(1):58-67, 2004.
REDLIN U, HATTAR S, MROSOVSKY N: The circadian Clock mutant mouse: impaired masking response to light. J Comp Physiol Neuroethol Sens Neural Behav Physiol, 191(1):51-9, 2005.
REITER RJ, HURLBUT EC, BRAINARD GC, STEINLECHNER S, RICHARDSON BA: Influence of light irradiance on hydroxyindole-O-methyltransferase activity, serotonin- N-acetyltransferase activity, and radioimmunoassayable melatonin levels in the pineal gland of the diurnally active Richardson’s ground squirrel. Brain Res, 288(1-2):151-7, 1983.
100.RENSING L: Is «masking» an appropriate term? Chronobiol Int, 6(4):297-300, 1989.
101.REPPERT SM, WEAVER DR: Coordination of circadian timing in mammals. Nature, 418(6901):935-41, 2002.
102.REPPERT SM, WEAVER DR: Molecular analysis of mammalian circadian rhythms. Annu Rev Physiol, 63:647-76, 2001.
103.RIETVELD WJ, MINORS DS, WATERHOUSE JM: Circadian rhythms and masking: an overview. Chronobiol Int, 10(4):306-12, 1993.
104.RUBY NF, BRENNAN TJ, XIE X, CAO V y cols.: Role of melanopsin in circadian responses to light. Science, 298(5601):2211-3, 2002.
105.SATINOFF E, PROSSER RA: Suprachiasmatic nuclear lesions eliminate circadian rhythms of drinking and activity, but not of body temperature, in male rats. J Biol Rhythms, 3(1):1-22, 1988.
106.SCALIA F: The termination of retinal axons in the pretectal region of mammals. J Comp Neurol, 145(2):223-57, 1972.
107.SELBY CP, THOMPSON C, SCHMITZ TM, VAN GELDER RN, SANCAR A: Functional redundancy of cryptochromes and classical photoreceptors for nonvisual ocular photoreception in mice. Proc Natl Acad Sci USA, 97(26):14697-702, 2000.
108.SHEARMAN LP, WEAVER DR; Photic induction of Period gene expression is reduced in Clock mutant mice. Neuroreport, 10(3):613-8, 1999.
109.SHEARMAN LP, SRIRAM S, WEAVER DR, MAYWOOD ES y cols.: Interacting molecular loops in the mammalian circadian clock. Science, 288(5468):1013-9, 2000.
110.SISK CL, STEPHAN FK: Central visual pathways and the distribution of sleep in 24-hr and 1-hr light-dark cycles. Physiol Behav, 29(2):231-9, 1982.
111.SONG X RUSAK B: Acute effects of light on body temperature and activity in Syrian hamsters: influence of circadian phase. Am J Physiol, 278(5):R1369-80, 2000.
SPOELSTRA K, OKLEJEWICZ M, DAAN S. Restoration of self-sustained circadian rhythmicity by the mutant clock allele in mice in constant illumination. J Biol Rhythms, 17(6):520-5, 2002.
113.STEPHAN FK, ZUCKER I: Circadian rhythms in drinking behavior and locomotor activity of rats are eliminated by hypothalamic lesions. Proc Natl Acad Sci USA, 69(6):1583-6, 1972.
114.VITATERNA MH, KING DP, CHANG AM, KORNHAUSER JM y cols.: Mutagenesis and mapping of a mouse gene, Clock, essential for circadian behavior. Science, 264(5159):719-25, 1994.
115.WATERHOUSE J, MINORS D: Masking and entrainment. Advances Bioscience, 73:163-171, 1988.
116.WATERHOUSE J, MINORS D, AKERSTEDT T, HUME K, KERKHOF G: Circadian rhythm adjustment: difficulties in assessment caused by masking. Pathol Biol (París), 44(3):205-7, 1996.
117.WATTS AG, SWANSON LW, SANCHEZ-WATTS G: Efferent projections of the suprachiasmatic nucleus: I. Studies using anterograde transport of Phaseolus vulgaris leucoagglutinin in the rat. J Comp Neurol, 258(2):204-29, 1987.
118.WATTS AG, SWANSON LW: Efferent projections of the suprachiasmatic nucleus: II. Studies using retrograde transport of fluorescent dyes and simultaneous peptide immunohistochemistry in the rat. J Comp Neurol, 258(2):230-52, 1987.
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