Characterization of the relations between morphology and physiological status of the pineal gland in connection with the somatic development level in turkeys reared in Romania / Caracterização das relações entre morfologia e estado fisiológico da glândula pineal em conexão com o nível de desenvolvimento somático em perus criados na România

This research started from the premises of the existence of some possible relationships between indole and pineal peptide hormones and the somatic development, with participation of hypothalamic-pituitary complex. Experimental factors, which were the subject of the present paper, influenced the dynamics of corporal mass and fodder consumption, leading to the occurrence of some important structural modifications at the level of pineal gland. The exposure of the individuals to continuous light (photic pinealectomy) produces increases in corporal mass, showing the involvement of the pineal gland in neuro-endocrine-metabolic reactions, which contributes to the maintenance of homeostatic balance, including somatic ones. Biological material was represented by a number of 50 individuals belonging to B.U.T. Big 6 hybrid, reared on soil, on a permanent litter, which could assure the expanding of knowledge area regarding the relation between rearing technology, modulation of some microclimate parameters and growing performances. Were also realised cytometric and hystometric muscular determinations.

A pesquisa começou a partir da premissa de que provavelmente existam relações entre indol e hormônios peptídicos pineal e o desenvolvimento somático, com a participação do complexo hipotálamo-hipófise. Fatores experimentais que foram objeto do presente trabalho influenciaram a dinâmica da massa corporal e o consumo de forragem, o que leva à ocorrência de algumas modificações estruturais importantes no nível da glândula pineal. A exposição dos indivíduos à luz contínua (Pinealectomia photic) leva ao aumento de massa corporal, mostrando o envolvimento da glândula pineal em reações neuroendócrino metabólicas, inclusive somáticas, que contribuem na manutenção do equilíbrio homeostático. O material biológico foi representado por um número de 50 indivíduos pertencentes a MAS Big híbrido 6, criados em solo, em uma ninhada permanente, o que poderia garantir a expansão da área de conhecimento a respeito da relação entre a tecnologia de criação, modulação de alguns parâmetros microclimáticos e performances de crescimento. Também foram realizadas por citometria e histometria determinações musculares.

Effects of melatonin and prolactin in reproduction: review of literature / Efeitos da melatonina e da prolactina na reprodução: revisão de literatura.

Summary The pineal gland is responsible for producing a hormone called melatonin (MEL), and is accepted as the gland that regulates reproduction in mammals. Prolactin (PRL) also exhibits reproductive activity in animals in response to photoperiod. It is known that the concentrations of PRL are high in the summer and reduced during winter, the opposite of what is seen with melatonin in these seasons. In placental mammals, both prolactin and melatonin affect implantation, which is considered a critical point of pregnancy, since a successful pregnancy requires the development of a synchronous interaction between the endometrium and blastocyst for placental development. It is also known that PRL levels during pregnancy are essential for the maintenance of pregnancy, because this hormone induces the corpus luteum to produce progesterone, in addition to stimulating blastocyst implantation to maintain pregnancy and form the placenta. However, melatonin levels in plasma have also been shown to increase during pregnancy, peaking at the end of this period, which suggests that this hormone plays an important role in the maintenance of pregnancy. Thus, it is clear that treatment with prolactin or melatonin interferes with the processes responsible for the development and maintenance of pregnancy.

Resumo A glândula pineal é responsável pela produção do hormônio melatonina (MEL), sendo aceita como a glândula reguladora da reprodução em mamíferos. A prolactina (PRL) também exibe atividade reprodutiva em animais, em resposta ao fotoperíodo. Sabe-se que as concentrações de PRL são elevadas durante o verão e baixam durante o inverno, ocorrendo o oposto com os níveis do hormônio melatonina nessas estações. Nos mamíferos placentários, tanto a melatonina quanto a prolactina influenciam a implantação, que é considerada o ponto crítico da gravidez, pois o sucesso da gestação requer o desenvolvimento de uma interação sincronizada entre o endométrio e o blastocisto para o desenvolvimento da placenta. Sabe- -se ainda que os níveis de PRL durante a gestação são essenciais para a manutenção da gravidez, pois esse hormônio induz o corpo lúteo a produzir progesterona, além de estimular a implantação do blastocisto, mantendo a prenhez e o desenvolvimento placentário. Em contrapartida, tem-se demonstrado também que os níveis de melatonina no plasma aumentam durante a gestação, atingindo valores elevados no fim desse período, sugerindo que esse hormônio desempenhe um importante papel na manutenção da gestação. Dessa forma, fica claro que o tratamento com prolactina ou melatonina interfere nos processos responsáveis pelo desenvolvimento e pela manutenção da gestação.

Pineal gland plays a role in gonadal development after eyelids separation in puppies / La glándula pineal juega un rol en el desarrollo gonadal luego de la separación de los párpados en cachorros

Several functional and morphological studies have been conducted on the pineal gland in many mammalian species; however, no published reports are available on the role of pineal gland on the gonadal development before and after eyelids separation in puppies. Therefore, this study aimed to trace the postnatal histo-morphological changes in the pineal gland and gonads of puppies before (2, 10 and 11 days old) and after (25, 35 and 40 days old) eyelids separation in an attempt to investigate the possible role of pineal gland on the gonadal development. In general, the differentiation of pineal cells, interstitial endocrine cells of testes and stromal ovarian cells coincides with the start of eyelids separation in puppies. Histological examination of stained pineal and gonadal slices of puppies after eyelids separation revealed a remarkable differentiation of pinealocytes and testicular interstitial endocrine cells, as well as presence of some evidence of folliculogenesis in ovary. Surprisingly, melatonin receptor (MT1) protein expression levels were significantly increased in the ovaries and testes of puppies after eyelids separation. Moreover, the mRNA and protein expression of AANAT, a rate-limiting enzyme in melatonin biosynthesis, was notably increased in the pineal gland of opened eyes puppies. Our results suggest an increase of melatonin production from the pineal gland of opened eyes puppies and this could play a vital role in the developmental changes observed in the gonads of these puppies.

Diversos estudios morfológicos y funcionales han sido realizados sobre la glándula pineal en distintas especies de mamíferos. Sin embargo, no hay informes publicados acerca del rol de la glándula pineal en el desarrollo gonadal antes y después de la separación de los párpados en cachorros. Este estudio tuvo como objetivo trazar los cambios histo-morfológicos postnatales en la glándula pineal y las gónadas de los cachorros antes (2, 10 y 11 días de edad) y después (25, 35 y 40 días de edad) de la separación de los párpados, en un intento por investigar el posible rol de la glándula pineal en el desarrollo gonadal. En general, la diferenciación de los pinealocitos, células intersticiales endocrinas de los testículos y las células estromales del ovario coincide con el inicio de la separación de los párpados en cachorros. El examen histológico de glándula pineal y los cortes gonadales de los cachorros, después de la separación de los párpados, reveló una notable diferenciación de los pinealocitos y las células intersticiales endocrinas testiculares, así como la posible evidencia de foliculogénesis en el ovario. Sorprendentemente, en el receptor de melatonina (MT1) los niveles de expresión de proteínas fueron significativamente superiores en los ovarios y los testículos de los cachorros después de la separación de los párpados. Además, el ARNm y la expresión de la proteína AANAT, una enzima limitante de la velocidad en la biosíntesis de la melatonina, aumentaron notablemente en la glándula pineal de los cachorros con los ojos abiertos. Nuestros resultados sugieren que existe un aumento de la producción de melatonina por parte de la glándula pineal en los cachorros con los ojos abiertos, lo que podría jugar un rol vital en los cambios evolutivos observados enlas gónadas de estos cachorros.

Critical time delay of the pineal melatonin rhythm in humans due to weak electromagnetic exposure.

Electromagnetic fields (EMFs) can increase free radicals, activate the stress response and alter enzyme reactions. Intracellular signalling is mediated by free radicals and enzyme kinetics is affected by radical pair recombination rates. The magnetic field component of an external EMF can delay the "recombination rate" of free radical pairs. Magnetic fields thus increase radical life-times in biological systems. Although measured in nanoseconds, this extra time increases the potential to do more damage. Melatonin regulates the body's sleep-wake cycle or circadian rhythm. The World Health Organization (WHO) has confirmed that prolonged alterations in sleep patterns suppress the body's ability to make melatonin. Considerable cancer rates have been attributed to the reduction of melatonin production as a result of jet lag and night shift work. In this study, changes in circadian rhythm and melatonin concentration are observed due to the external perturbation of chemical reaction rates. We further analyze the pineal melatonin rhythm and investigate the critical time delay or maturation time of radical pair recombination rates, exploring the impact of the mRNA degradation rate on the critical time delay. The results show that significant melatonin interruption and changes to the circadian rhythm occur due to the perturbation of chemical reaction rates, as also reported in previous studies. The results also show the influence of the mRNA degradation rate on the circadian rhythm’s critical time delay or maturation time. The results support the hypothesis that exposure to weak EMFs via melatonin disruption can adversely affect human health.

Morphologic analysis of mice’s pineal gland

The pineal gland or pineal body is an endocrine gland that constitutes an important part of the neuroendocrine system, due to the secretion of melatonin, a hormone responsible for the seasonal organization of several physiologic and behavioral events of an individual’s life. Experimental researches using animals such as rats, mice and rabbits are often found in the extensive specific literature but aspects related to the morphology of mice’s pineal gland are few. Concerning its small size, the present paper performed a microscopic analysis of serial median sagittal sections of the pineal gland of 13 (thirteen) Swiss mice. The pineal gland of Swissmice was found to be in the median plane below the splenium of the corpus callosus, superior and dorsal to the habenular commissure, and rostral to the rostral colliculi. The pineal gland is closely related to the third ventricle and presents itself with a characteristic tonsillar shape with a stalk. Two types of different cells were identified in the gland, that is, astrocytes and pinealocytes, spreading randomly all over the glandular tissue. Calcifications of the pineal gland were not found in any of the observed animals.

Rat pinealectomy: a modified direct visual approach / Pinealectomia em ratos: técnica modificada com visualização direta

PURPOSE: To report a new, direct visual approach for rat pinealectomy. METHODS: Eighty adult female rats (Rattus norvegicus albinus EPM-1 strain) were weighted and anesthetized intraperitoneally with 15 mg/kg xylazine and 30 mg/kg ketamine. The animal was fastened to a dissection table, an incision was made in the skin and the subcutaneous tissue, bringing the lambda into view. The skullcap was opened with a dental drill, bringing the cerebral hemispheres and the superior sagittal sinus into view. The pineal gland, located under the venous sinus, was removed in a single piece using tweezers. Next, the bone fragment was returned to its place and the surgical layers were sutured. RESULTS: This new technique is easy to be done, avoids bleedings and removes only the pineal gland without damage to the remaining encephalon. In addition it makes possible the achievement of a sham surgery, allowing the pineal gland to remain intact. CONCLUSION: The proposed technique intends to facilitate studies aiming to better understanding the complexity and importance of the pineal gland on reproductive and other body systems.

OBJETIVO: Apresentar nova técnica para pinealectomia em ratos. MÉTODOS: 80 ratos adultos fêmeas (Rattus norvegicus albinus) foram pesados e em seguida anestesiados por via intraperitoneal com xilazina e cetamina. Em seguida os animais foram fixados em uma prancha de cortiça e feita uma incisão na pele e no tecido subcutâneo, na região superior da cabeça, evidenciando a junção dos ossos parietais e occipital. Na região do lambda, realizou-se uma perfuração circular, na calota craniana, com o auxilio de uma broca (4 mm) acoplada a um micromotor. Nesse orifício, após a dissecação da dura-mater visibiliza-se a confluência dos seios venosos longitudinal e transverso. Com o auxilio de uma pinça curva esses seios são deslocados, ligados e identificada a glândula pineal, que pode ser removida em peça única. Em seguida, o fragmento ósseo é devolvido ao seu lugar e as camadas cirúrgicas suturadas. RESULTADOS: Esta nova técnica é fácil de ser feita, evita hemorragias e só remove a glândula pineal, sem prejuízos para o restante do encéfalo. Além disso, possibilita a realização de uma cirurgia sham, visto que a glândula pineal permanece sem alterações. CONCLUSÃO: Espera-se que a técnica proposta facilite estudos visando a uma melhor compreensão da complexidade e importância da glândula pineal sobre a reprodução e outros sistemas do organismo.

A simple model for circadian timing by mammals

Circadian timing is structured in such a way as to receive information from the external and internal environments, and its function is the timing organization of the physiological and behavioral processes in a circadian pattern. In mammals, the circadian timing system consists of a group of structures, which includes the suprachiasmatic nucleus (SCN), the intergeniculate leaflet and the pineal gland. Neuron groups working as a biological pacemaker are found in the SCN, forming a biological master clock. We present here a simple model for the circadian timing system of mammals, which is able to reproduce two fundamental characteristics of biological rhythms: the endogenous generation of pulses and synchronization with the light-dark cycle. In this model, the biological pacemaker of the SCN was modeled as a set of 1000 homogeneously distributed coupled oscillators with long-range coupling forming a spherical lattice. The characteristics of the oscillator set were defined taking into account the Kuramoto's oscillator dynamics, but we used a new method for estimating the equilibrium order parameter. Simultaneous activities of the excitatory and inhibitory synapses on the elements of the circadian timing circuit at each instant were modeled by specific equations for synaptic events. All simulation programs were written in Fortran 77, compiled and run on PC DOS computers. Our model exhibited responses in agreement with physiological patterns. The values of output frequency of the oscillator system (maximal value of 3.9 Hz) were of the order of magnitude of the firing frequencies recorded in suprachiasmatic neurons of rodents in vivo and in vitro (from 1.8 to 5.4 Hz).

Efeitos da melatonina no sistema genital feminino: breve revisão / Melatonin effects on the female genital system: a brief review

A melatonina é um hormônio produzido pela glândula pineal, cuja secreção está diretamente relacionada ao ciclo claro-escuro. É um poderoso antioxidante e tem papel fundamental na regulação do estado sono/vigília, do ritmo de vários processos fisiológicos, participando do controle do relógio biológico, inclusive nos seres humanos. Ressalta-se que há evidências da sua ação no sistema genital feminino, influenciando a função ovariana e a fertilidade. De fato, este hormônio interage com esteróides sexuais, como o estrogênio, modificando a sinalização celular e a resposta no tecido alvo. Estudos clínicos sugerem que o tratamento com a melatonina interviria com a evolução de neoplasia-dependente do estrogênio. O objetivo dessa revisão é analisar as principais ações da melatonina no sistema neuroendócrino, no ciclo sono-vigília, no sistema imunológico, no sistema cardiovascular, bem como no sistema reprodutor.

Melatonin is secreted by the pineal gland and this is linked to the day/night cycle. It is an antioxidant and plays a fundamental role in the regulation of the jet-lag stage, in several physiological reactions and in control of the biologic rhythm. Human melatonin has an important influence on the female genital system. In fact, melatonin may influence production and action of steroids, modifying cellular signalization on the target tissue. There are many evidences that the melatonin therapy may be interfering with neoplasia development, mainly of the estrogen-dependent tumor. This paper aims to analyze the actions of melatonin on the neuroendocrine, immunological and cardiovascular systems, as well as on the reproductive function.

A study of the effects of pinealectomy on intestinal cell proliferation in infant newborn rats

OBJETIVO: Estudar a taxa de proliferação celular no jejuno e nas células epiteliais das criptas do intestino grosso em ratos pinealectomizados imediatamente após o nascimento. MÉTODOS: 24 ratos machos Wistar foram divididos em dois grupos. Grupo agudo (n=12) e Grupo Crônico (n=12). Seis animais de cada grupo foram operados para remover-se a glândula pineal (Pinealectomia-PnX), e outros seis animais foram controle (sham pinealectomia-C). Os animais de ambos os grupos foram sacrificados 15 e 90 dias após a cirurgia, respectivamente. RESULTADOS: No grupo agudo, a pinealectomia dos ratos não causou alterações significativas na proliferação celular (PnX=58,77±1,77 e C=60,88±1,10 no cólon descendente / PnX=31,56±0,45 e C=31,73±0,47 no jejuno proximal) e na população celular de criptas (PnX=24,92±4,82 e C=23,60±2,48 no cólon descendente / PnX=39,92±3,49 e C=44,32±5,56 no jejuno proximal). Contudo, no grupo crônico houve aumento na proliferação celular das criptas no jejuno proximal (PnX=57,54±2,19 e C=47,19±7,3), e no cólon descendente (PnX=37,78±2,22 e C=17,92±2,28). CONCLUSAO: Como o aumento epitelial celular das criptas intestinais no grupo crônico pode ser avaliado como fator predeterminante da carcinogênese, faz-se necessário o conhecimento da interação entre esta glândula e este evento.

Air-breathing rhythm in Clarias batrachus (Linn.): modulatory role of eyes, pineal and exogenous melatonin.

Effects of enucleation followed by pinealectomy and administration of exogenous melatonin on air-breathing activity rhythm in a fresh water catfish, C. batrachus maintained at LD 12:12 and laboratary temperature during its prepratory phase, were examined. Results of cosinor analysis clearly reveal that most of the intact individuals exhibited circadian rhythm in their air-breathing activity and such rhythm persists even after enucleation followed by pinealectomy and then melatonin administration. However, the period (tau) of the activity obtained by power spectrum analysis was prominent 24 hr in most of the intact individuals, but it was increased (tau > 24 hr) after enucleation in most of the individuals. In most of the enucleated + pinealectomized individuals tau was less than 24 hr, and after receiving melatonin treatment tau was shifted to prominent 24 hr in most of the individuals. In addition, visual analysis of the actograms depicted that in intact individuals air-breathing activity is entrained with the timings of lights on/off with elevation of activity during dark period and decreased activity during light hours. However, enucleated and enucleated + pinealectomized individuals showed free run in their activity rhythm. The treatment of melatonin reestablished the entrainment of activity at least with the timing of lights off, in most of the studied individuals. Further, daily mean of the air-breathing activity was decreased in enucleated + pinealectomized individuals as compared with other studied groups (intact, enucleated, enucleated + pinealectomized + melatonin receiving). It could be speculated that there may be existence of extraretinal and extrapineal photoreceptors in C. batrachus. However, eyes play an important role in regulating air-breathing activity rhythm in such species. In addition, exogenous melatonin may also have some modulatory effect on such rhythm.

Seasonal effects of melatonin on ovary and plasma gonadotropin and vitellogenin levels in intact and pinealectomized catfish, Clarias batrachus (Linn).

Effects of daily administration of melatonin for 15 days were evaluated with respect to ovarian activities and plasma gonadotropin (GtH II) and vitellogenin (Vg) levels in intact (INT) and pinealectomized (Px) female catfish, C. batrachus, during preparatory (April), prespawning (May and June), spawning (July) and post-spawning (September) periods. Px (saline control groups) caused a stimulatory effect during preparatory (with respect to Vg synthesis and incorporation) and prespawning (with respect to Vg synthesis) periods whereas no effect was observed during spawning and post-spawning periods with respect to the reproductive parameters studied. During April, melatonin-treatment significantly decreased plasma GtH II levels and percentage of vitellogenic oocytes without any significant changes in plasma Vg levels and gonadosomatic index (GSI). During early prespawning period, in May, 50microg melatonin brought about a significant reduction in plasma GtH II levels in INT group, whereas 100microg caused a decrease in all parameters; on the other hand, in Px groups both dose levels proved to be inhibitory. In June (late prespawning period) melatonin-treatment could not bring about any change in GSI and plasma Vg levels compared to the control groups regardless of Px but plasma GtH II and mean number of yolky oocytes were significantly reduced in melatonin-treated INT group. During spawning period (July) melatonin inhibited the GSI, mean number of yolky oocytes and plasma GtH II levels without affecting plasma Vg levels. In September (post-spawning period), melatonin did inhibit both GSI and plasma GtH II levels. The results, thus, indicate that melatonin showed variable effects (inhibitory and/or no effect) to GSI, mean number of yolky oocytes and plasma Vg levels but a consistent inhibiton of plasma GtH II levels indicating that melatonin may control the reproduction by blocking the GtH II release from the pituitary via affecting the hypothalamo-hypophysial axis.

An un usual course of the Nervus Conarii in the pineal glandof the tinamid bird Crypturellus parvirostris. A case report

The pineal gland is innervated by postganglionic sympathetic nerves from the superior cervical ganglion. As theaxons enter the gland, they synapse with the pinealocytes. In this report, we describe a case in which the conarii nervewas observed crossing the distal portion of the ascending branch of the venous sinus, thus penetrating the capsule ofthe pineal gland. The nerve observed consisted of a bundle of unmyelinated axons and collagen fibers which aresurrounded by endothelial cells. This is the first report of a completely engulfed and detached conarii nerve within avenous sinus.

Morphometric analysis of the development of the ovarian follicles in pinealectomized rats

El estudio tuvo como objetivo analizar morfometricamente el area ocupada por los foliculos ováricos en ovarios de ratas pinealectomizadas. Para ello, 24 ratas albinas (Rattus norvegicus albinus), fueron divididas igualmente en los siguientes grupos: Grupo I - Ratas falsamente pinealectomizadas y mantenidas en el ciclo claro/oscuro (12/12 horas), por tres meses; Grupo II - ratas pinealectomizadas y mantenidas en el ciclo claro/oscuro (12/12 horas), por tres meses; Grupo III - ratas pinealectomizadas y mantenidas en la ausencia de luz durante tres meses; Grupo IV í ratas falsamente pinealectomizadas, y mantenidas en la ausencia de luz por tres meses. Los resultados mostraron que los grupos I y IV presentaban, respectivamente, medias de 19,00 y 25,00, mientras que los grupos II y III presentaron las mayores medias, 28,25 y 27,25, respectivamente, indicando mayor área ocupada por los folículos. Fue observada una peque¤a cantidad de cuerpos lúteos en los grupos pinealectomizados. De esta manera, concluimos que la pinealectomía puede ejercer, con el tiempo, alguna influencia en la función gonadal, lo que podrá inducir la formación de un cuadro clinico anovulatorio, y consecuentemente, el desarrollo de ovarios policísticos.

C cells in the thyroid of pinealectomized rats

PURPOSE: To study quantitatively C cells in the thyroids of non-isogenic rats to determine the possible effects of pinealectomy on the number of these cells, and consequently on the synthesis and secretion of calcitonin. METHODS: Twenty male rats of an outbred strain (200-300 g) were used in the present study. One group of 10 animals was pinealectomized 50 days prior to sacrifice. Thyroid tissue was stained for calcitonin (Dako Corporation) at a 1:1500 dilution. The number of C cells observed was expressed as number of cells/cm². Data were analyzed statistically by Mann-Whitney test. RESULTS: The number of C cells in pinealectomized and normal animals ranged from 489 to 2084 per cm² and 227 to 1584 per cm², respectively, a difference that was statistically significant (P <0.05). CONCLUSIONS: These results showed consistent differences in the number of C cells after pinealectomy when compared to controls. We believe that pinealectomy increases the number of C cells in the rat thyroid

A glândula pineal e o metabolismo de carboidratos / The pineal gland and the carbohydrate metabolism

A influência da glândula pineal sobre o metabolismo de carboidratos vem sendo investigada há décadas. Entretanto, resultados contraditórios não esclarecem, até o momento, o verdadeiro papel da melatonina sobre a homeostasia dos carboidratos. Através de estudos recentes, contribuímos de maneira ineqüívoca para a caracterização do papel da glândula pineal como moduladora do metabolismo de carboidratos. Além disso, à luz dos conhecimentos atuais, demonstramos quais passos do mecanismo de ação da insulina estão envolvidos nessa modulação. Nossos estudos revelaram que a pinealectomia promove um quadro de resistência à insulina, sem obesidade. A captação máxima de 2-deoxi-glicose, estimulada por insulina, em adipócitos isolados está diminuída, sem entretanto modificar a capacidade da insulina ligar-se ao seu receptor e estimular a fosforilação dos substratos intracelulares representados pela pp 185. Por outro lado, em vários tecidos sensíveis à insulina, observou-se uma diminuição no conteúdo da proteína transportadora de glicose GLUT4, mas diminuição no mRNA do GLUT4 apenas em alguns desses tecidos, sugerindo uma regulação tecido-específica. Adicionalmente, foi demonstrado que a regulação da glândula pineal sobre o metabolismo de carboidratos é mediado pela melatonina: o hormônio aumentou a sensibilidade à insulina de adipócitos isolados e o tratamento de reposição com melatonina restaurou o conteúdo de GLUT4 no tecido adiposo branco. Em síntese, os estudos aqui relatados evidenciam um importante papel da glândula pineal na modulação da homeostasia de carboidratos. Essa regulação é dependente da melatonina e pode ser resumida, até o presente momento, como um aumento da sensibilidade tecidual à insulina, que envolve alterações na expressão gênica do GLUT4.

Effect of pinealectomy and testosterone on gonadal regression and accessory sex organs in Indian palm squirrel, Funambulus pennanti.

Indian palm squirrel (Funambulus pennanti), is a tropical seasonal breeder presents a short gonadal regression period (October-November), concomitant with declining plasma testosterone level. If pinealectomized (Px), however, squirrels maintain full gonadal activity and plasma testosterone levels. The aim of the present study was, therefore, to determine if the Px and exogenous testosterone in intact and Px squirrels would prevent natural gonadal regression. Experiment was performed during testicular regression phase (i.e. August end to November) revealed that both the Px (60 days) and exogenous testosterone (100 micrograms/day/squirrel/30 days) prevented gonadal and accessory sex organ regression. This could be due to negative feedback by testosterone treatment which was more obvious in intact than the Px squirrels. A decline in day time plasma melatonin level after testosterone treatment was also indicative of inverse relationship between the gonadal and pineal hormones which in turn did not allow the collapse of accessory sex organs. Further, the pineal gland is under direct control of steroid hormones since receptors and aromatizing enzymes are noted in the same. Therefore, a pineal secreted melatonin stimulation of hypothalamic negative feedback centers for gonadal regression could be suggested in this tropical rodent as receptors for melatonin have been detected in above areas.

Neurobiología y farmacología clínica de la melatonina / Neurobiology and pharmacology of melatonin

La melatonina es una hormona sintetizada y liberada por la glándula pineal. La secreción comienza a aumentar alrededor de las 21.00-23.00 horas, observándose los niveles plasmáticos máximos entre las 2.00 y las 4.00 de la madrugada. Los fármacos bloqueadores de los adrenoceptores beta, los antiinflamatorio no esteroideos y los derivados benzodiacepínicos suprimen la liberación de melatonina. En cambio la zopiclona y el zopiclona y el zolpidem no interfieren en la liberación de la hormona. La melatonina es efectiva en los trastornos del sueño vinculados a una alteración del ritmo circadiano, incluyendo el jet lag, el cambio frecuente en el turno de trabajo y el trastorno de retardo de fase. También se ha mostrado eficaz en los trastornos del sueño de personas ciegas, donde la liberación de melatonina sigue un curso libre. Estudios recientes tienden a indicar que la melatonina es también efectiva en pacientes de la tercera edad con insomnio primario crónico acompañado de un descenso de los niveles endógenos de la hormona

Evolution of circadian organization in vertebrates

Circadian organization means the way in which the entire circadian system above the cellular level is put together physically and the principles and rules that determine the interactions among its component parts which produce overt rhythms of physiology and behavior. Understanding this organization and its evolution is of practical importance as well as of basic interest. The first major problem that we face is the difficulty of making sense of the apparently great diversity that we observe in circadian organization of diverse vertebrates. Some of this diversity falls neatly into place along phylogenetic lines leading to firm generalizations: i) in all vertebrates there is a "circadian axis" consisting of the retinas, the pineal gland and the suprachiasmatic nucleus (SCN), ii) in many non-mammalian vertebrates of all classes (but not in any mammals) the pineal gland is both a photoreceptor and a circadian oscillator, and iii) in all non-mammalian vertebrates (but not in any mammals) there are extraretinal (and extrapineal) circadian photoreceptors. An interesting explanation of some of these facts, especially the differences between mammals and other vertebrates, can be constructed on the assumption that early in their evolution mammals passed through a "nocturnal bottleneck". On the other hand, a good deal of the diversity among the circadian systems of vertebrates does not fall neatly into place along phylogenetic lines. In the present review we will consider how we might better understand such "phylogenetically incoherent" diversity and what sorts of new information may help to further our understanding of the evolution of circadian organization in vertebrates.

Some aspects of the pineal gland function

Rhythmic production of melatonin by the mammalian pineal gland occurs in response to noradrenergic stimulation which produces a cascade of biochemical events within the pinealocyte. Melatonin is involved in a wide range of physiological processes, including seasonal reproduction and diurnal activity rhythms. It was recently discovered that melatonin is a very potent hydroxyl radical scavenger, reinforcing its relationship with the aging process and the immune system.