6
views
0
recommends
+1 Recommend
1 collections
    0
    shares
      • Record: found
      • Abstract: found
      • Article: found
      Is Open Access

      La melatonina induce la síntesis y liberación de las encefalinas en el cerebro de la rata Translated title: Melatonin induces enkephalins synthesis and release in the rat brain

      research-article

      Read this article at

      Bookmark
          There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.

          Abstract

          En la actualidad se reconoce que el Sistema Endógeno Opioide (SEO) participa en la regulación y control de la homeostasis; por lo tanto se requiere que los procesos bioquímicos que dan lugar a su síntesis, liberación y unión a receptores se encuentren reguladas de manera endocrina. Diversas líneas de investigación han demostrado que la concentración y liberación presináptica de las encefalinas no permanece constante durante un ciclo de 24 horas. Por el contrario, su síntesis y liberación alcanzan su máxima concentración durante la fase de oscuridad y la mínima durante las primeras horas de la mañana. Recientemente, nuestro grupo de trabajo ha demostrado que la ausencia de melatonina (MEL), por efecto de la pinealectomía funcional, rompe el ritmo circádico y reduce significativamente la concentración de las encefalinas durante la fase de oscuridad. Si la ausencia de la hormona abate la concentración de opioides, es factible que la MEL se encuentre involucrada en la síntesis de las encefalinas. En el presente trabajo se muestran los resultados del efecto de la pinealectomía funcional sobre la concentración tisular y la liberación de los opioides, así como el efecto de la administración exógena de MEL y de su antagonista el luzindol (LZ). Diseño experimental Control Naive. Se utilizaron ratas macho de la cepa Wistar (200-250g), que permanecieron en un cuarto con un ciclo de luz y oscuridad controlada. La fase de luz duró 12 horas y comenzó a las 06:00h. A su vez, este grupo fue subdividido en: 1. Luz Continua (LC): Para abatir la concentración sérica de la hormona, se usó el modelo experimental conocido como pinealectomía funcional. 2. Luz Continua + Oscuridad: La luz abate la concentración de MEL y la exposición a la oscuridad revierte dicho efecto. Un grupo de ratas sometido a la luz continua se colocó en un cuarto con oscuridad durante cuatro y seis horas. 3. Luz continua+melatonina: Para analizar el efecto de la MEL sobre el contenido tisular de opioides, se administró una dosis de MEL (150, 300 y 600µg/Kg s.c.). 4. Luz continua+luzindol (LZ)+MEL: Si la melatonina ejerce su mecanismo de acción al unirse a sus receptores presentes en la membrana plasmática, entonces su efecto podría ser revertido por la presencia del LZ. Por lo tanto, a tres grupos de ratas sometidas a la pinealectomía funcional se les inyectó con LZ a una dosis de 187.5, 375, 750 µg/kg. s.c. Después de transcurridos 30min., los animales fueron inyectados con MEL (150µg/kg. s.c.). 5. Liberación: Se utilizaron tres grupos de ratas: a) control, b) luz continua y c) luz continua+MEL (800µg/kg. s.c.). Post mortem la amígdala fue sometida al proceso preparativo para la obtención de los sinaptosomas. Resultados Los resultados obtenidos en el presente trabajo nos muestran que la pinealectomía funcional reduce significativamente la concentración de encefalinas en todas las estructuras cerebrales analizadas. Sin embargo, el efecto es revertido tanto por la administración exógena de MEL, como por la exposición a la oscuridad. Las diferentes dosis administradas del LZ bloquearon parcialmente el efecto estimulante de la MEL sobre la síntesis de los opioides. Por último, la pinealectomía funcional redujo significativamente la liberación presináptica de encefalinas, misma que se pudo reestablecer con la administración exógena de la hormona. Discusión Las evidencias experimentales del presente trabajo sugieren que la MEL se encuentra relacionada con la síntesis y la liberación de las encefalinas. Por un lado, la pinealectomía funcional redujo significativamente el contenido tisular de encefalinas, pero el efecto fue revertido tanto con la administración exógena de la hormona como con la exposición a la oscuridad. La administración del LZ sólo fue capaz de bloquear parcialmente el efecto estimulante de la MEL sobre la síntesis de encefalinas. El efecto de la MEL sobre la liberación de opioides pone de manifiesto la relación funcional entre ambos sistemas. A menor cantidad de opioides por efecto de la pinealectomía, menor liberación presináptica y por el contrario, una vez administrada la hormona los valores de la síntesis-liberación se restablecen. Conclusión La MEL puede estar involucrada en la síntesis y la liberación de los péptidos opioides.

          Translated abstract

          Since enkephalins discovery in 1975, several opioid peptides have been included in neuroscience research. Enkephalins have been involved in the homeostasis maintenance of the organism, mostly with cellular and molecular mechanisms implicated in antinociception and narcotic responses. Moreover, enkephalins have been shown to be involved in the control of stress, regulation of cardiovascular functions, modulating primary immune responses, in addition to cellular differentiation processes. As opioid peptides appear to modulate several bioactivities and physiological responses in organisms, this posits that several modifications should occur during their synthesis, cell release, and receptor binding in target cells. At present, it has been demonstrated that the endogenous opioid system (EOS), displays a circadian rhythm, in which its tissue content, presynaptic release, and receptor's number reaches its maximal concentration during the dark phase (24:00h) and the minimal during the early morning (05:00 h). Recently, our group reported that functional pinealectomy disrupts the enkephalin circadian rhythm and significantly reduces the tissue content of opioid peptides in the rat brain. However, the effect was shown to be specific to the hour along the 24h daytime. There were no significant changes during the light period, only during the dark period (01:00h), when the enkephalin tissue content decreased in the experimental group. The effect was reverted when pinealectomized rats were injected with single doses of melatonin (MEL) (150µg/kg i.p.). If the lack of melatonin in the rat brain significantly reduced the enkephalin tissue content, and its exogenous administration re-established the enkephalin tissue levels, it is possible that the hormone is involved in the enkephalin synthesis. In this paper we provide further evidence that supports the relation between melatonin and opioid peptides synthesis and release. In addition, we studied the effect of darkness and melatonin administration in enkephalin tissue levels. Finally, we analyzed the luzindole effect as a melatonin receptor antagonist in the pinealectomized rat brain. Material and methods Subjects: Male Wistar rats were housed in a light and temperature controlled room. Water and pellet food were available ad libitum. This group was subdivided in: 1. Functional pinealectomy group (FP). Rats were housed individually during 15 days in a room with continuous light (<50lux). 2. FP rats were housed in a dark room during four or six hours. 3. FP rats were injected with melatonin (150, 300, 600µg/kg s.c.). 4. FP rats were injected with Luzindole (187.5, 375, 750µg/kg i.p.). After 30 min, the animals were injected with melatonin (150µg/kg). 5. FP rats were injected with melatonin (800µg/ kg) and subjected to the in vitro release processes. The rats were sacrificed by decapitation and the blood collected for melatonin serum determination. The brains were removed and processed for an analytical preparative procedure for the enkephalin determination by radioimmunoassay technique. The in vitro release methodology was performed as follows: tissue samples were homogenized by applying 8 strokes with a Thomas grinder system. The homogenates were centrifuged at 4,000rpm, 4°C during 10 min. Supernatants were recovered and centrifuged at 12,000rpm at 4°C for 20 min. Supernatants were discarded and pellets were resuspended in the homogeneization buffer (1:9 w/v). Samples were placed on top of a Percoll gradient density (23%, 15%, and 10%) and centrifuged at 20,000 rpm at 4°C for 25min. The synaptosomal enriched fraction (15-23%) was obtained and diluted in 1mL of Krebs buffer (mM: NaCl 119, KCl 4.6, CaCl2·2H2O 1.25, KH2PO4 0.85 MgSO4 0.84, NaHCO3 24.8, sucrose 10). Buffer was gasified with a mixture of C0(2) 95% and O2 5%, pH 7.4. 800µL aliquots were placed into plastic chambers. After 20 min of stabilization with Krebs buffer, three different superfusates were collected: 1. basal, 2. potassium [50mM], and 3. post-stimulus (Krebs buffer without potassium). Samples were collected into HCl 0.1N, boiled and subsequently loaded into Amberlite XAD-2 columns (8 × 0.7cm) for solid-phase peptide extraction. The flow rate was held constant at 0.5 mL min-1 and elution of the whole peptide fraction was carried out using a continuous gradient with absolute methanol. Eluted samples were lyophilized and resuspended in 2mL of distilled water and finally stored at -20°C for further quantification of IR-Enkephalin using standard radioimmunoassay procedures. The results showed that functional pinealectomy reduced the opioid tissue content in the different brain structures assayed. The lack of melatonin significantly decreased the enkephalin tissue content when compared to the control group. However, tissue levels of enkephalin material were completely restored after four and six hours of administration of different doses of exogenous melatonin administration to the rats. As continuous light decreases the melatonin content in the brain, darkness should be able to counteract the aforementioned effect. Our results showed that tissue levels of enkephalin material were increased over 200% and 300%, after exposing animals to a four or six-hour period of darkness, when compared to animals exposed to continuous light. Luzindole was used to abolish any melatonin activity via activation of its membrane brain receptors. Our experiments showed that different doses of the antagonist were not able to obliterate the increased content of opioid peptides induced with melatonin administration in the tested brain tissues.

          Related collections

          Most cited references76

          • Record: found
          • Abstract: found
          • Article: not found

          Identification of two related pentapeptides from the brain with potent opiate agonist activity.

          Enkephalin, a natural ligand for opiate receptors is composed of the pentapepides H-Tyr-Gly-Gly-Phe-Met-OH and H-Tyr-Gly-Gly-Phe-Leu-OH. The evidence is based on the determination of the amino acid sequence of natural enkephalin by the dansyl-Edman procedure and by mass spectrometry followed by synthesis and comparison of the natural and synthetic peptides.
            Bookmark
            • Record: found
            • Abstract: not found
            • Article: not found

            Protein measurement with the Folin phenol reagent

              Bookmark
              • Record: found
              • Abstract: not found
              • Article: not found

              Pineal melatonin: cell biology of its synthesis and of its physiological interactions.

                Bookmark

                Author and article information

                Journal
                sm
                Salud mental
                Salud Ment
                Instituto Nacional de Psiquiatría Ramón de la Fuente Muñiz (México, DF, Mexico )
                0185-3325
                April 2010
                : 33
                : 2
                : 123-131
                Affiliations
                [01] México D F. orgnameInstituto Nacional de Psiquiatría Ramón de la Fuente Muñiz orgdiv1División de Investigaciones en Neurociencias orgdiv2Laboratorio de Análisis Químicos asaicm@ 123456imp.edu.mx
                Article
                S0185-33252010000200003 S0185-3325(10)03300200003
                12fb356d-e07b-4b08-bd71-0b3db5cab606

                This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

                History
                : 06 November 2008
                : 16 October 2009
                Page count
                Figures: 0, Tables: 0, Equations: 0, References: 47, Pages: 9
                Product

                SciELO Mexico

                Categories
                Artículos originales

                liberación,síntesis,encefalinas,Melatonina,release,synthesis,opioid peptides,Melatonin

                Comments

                Comment on this article