Efecto de la glándula pineal materna en las variaciones hormonales estacionales del eje neuroendocrino-reproductor de los descendientes

Información del artículo

Background and objective

To investigate the influence of the maternal pineal gland on seasonal variations in luteinizing hormone (LH), follicle stimulating hormone (FSH) and prolactin, as well as on body weight in offspring.

Subjects and method

Female Wistar rats maintained in 12 h light/12 h dark were used. Mother rats were divided in the four seasons of the year into three groups: control, pinealectomized (PIN-X) and PIN-X plus melatonin treatment (PIN-X+MEL). Male offspring at 21, 31 and 60 days of age were studied in the four seasons of the year.

Results

Maternal PIN-X resulted in increased body weight at 21 and 31 days of age in winter and at 60 days of age in spring and summer. Maternal PIN-X altered LH developmental pattern in the prepubertal period in fall and winter but the effect of PIN-X + MEL treatment was observed only in spring and summer. Maternal PIN-X significantly Lowered FSH values at 60 days of age in summer and fall. The developmental pattern of prolactin was not affected by maternal PIN-X but a slight influence of PIN-X + MEL treatment on both hormones was observed in a seasonal dependent manner.

Conclusions

Our results suggest that during fetal development maternal melatonin may affect postnatal development of the neuroendocrinereproductive axis in a seasonal dependent manner. These considerations may help to elucidate questions related to seasonal disorders, which are becoming more and more frequent.

Key words:

Pineal gland

Seasonal variations

FSH

Prolactin

Body weight

Fundamento y objetivo

Evaluar la influencia de la glándula pineal materna en las variaciones estacionales de las hormonas luteinizante, foliculostimulante y prolactina, y el peso corporal de la descendencia.

Sujetos y método

Se utilizaron ratas hembras Wistar en régimen de luz/oscuridad (12L/12D). Las ratas madres fueron divididas en las 4 estaciones del año en 3 grupos: control, pinealectomizadas (PIN-X) y PIN-X más tratamiento con melatonina (PIN-X + MEL). Se estudiaron los machos descendientes a los 21, 31 y 60 días de edad.

Resultados

La PIN-X materna provocó valores aumentados del peso corporal a los 21 y 31 días en invierno y a los 60 días en primavera y en verano. Igualmente, afectó al patrón de desarrollo de hormona luteinizante durante el período juvenil, y de forma estacional en otoño e invierno, mientras que el efecto de PIN-X + MEL influyó en primavera y verano. La PIN-X materna desencadenó un valor significativamente menor de los valores de hormona foliculostimulante a los 60 días, en verano y otoño, pero no afectó al patrón de desarrollo de la prolactina; sin embargo, sí se observó una ligera influencia del tratamiento PIN-X + MEL dependiente de la estación para ambas hormonas.

Conclusiones

Nuestros resultados sugieren que durante el desarrollo embrionario el ritmo de melatonina materna puede influir sobre el desarrollo posnatal del eje neuroendocrino-reproductor en una forma dependiente de la estación del año. Estas consideraciones podrían ayudar a comprender cuestiones relacionadas con enfermedades estacionales presentes cada vez con mayor incidencia.

Palabras clave:

Glándula pineal

Variaciones estacionales

FSH

Prolactina

Peso corporal

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Bibliografía

[1.]

R.J. Reiter.

The pineal gland: Reproductive interactions.

Vertebrate endocrinology: fundamentals and biomedical implications, pp. 269-310

[2.]

R.J. Reiter.

The pineal gland and its hormones in the control of reproduction in mammals.

Endocr Rev, 1 (1980), pp. 109-131

http://dx.doi.org/10.1210/edrv-1-2-109 | Medline

[3.]

H. Bartsch, C. Bartsch, D. Mecke, T.H. Lippert.

Seasonality of pineal melatonin production in the rat: possible synchronization by the geomagnetic field.

Chronobiol Int, 11 (1994), pp. 21-26

Medline

[4.]

C.C. Wong, K.D. Döhler, M.J. Atkinson, H. Geerlings, R.D. Hesch, A. Von zur Mühlen.

Circannual variations in serum concentrations of pituitary, thyroid, parathyroid, gonadal and adrenal hormones in male laboratory rats.

J Endocrinol, 97 (1983), pp. 179-185

Medline

[5.]

J.F. Jarrige, H. Laurichesse, D. Boucher.

Androgenic activity in 15-day-old male rats: role of the maternal pineal gland.

Biol Reprod, 46 (1992), pp. 386-391

Medline

[6.]

B. Fernández, E. Díaz, M.D. Colmenero, B. Díaz.

Maternal pineal gland participates in prepubertal rat's ovarian oocyte development.

Anat Rec, 243 (1995), pp. 461-465

http://dx.doi.org/10.1002/ar.1092430408 | Medline

[7.]

B. Díaz, M.D. Colmenero, E. Díaz, A. Arce, A. Esquifino, B. Marín.

Effect of pinealectomy and melatonin treatment during pregnancy on the sexual development of the female and male rat offspring.

Eur J Endocrinol, 132 (1995), pp. 765-770

Medline

[8.]

I.C. McMillen, D.W. Walker.

Effects of different lighting regimes on daily hormonal and behavioural rhythms in the pregnant ewe and sheep fetus.

J Physiol, 442 (1991), pp. 465-476

Medline

[9.]

P. Vicente, A. García, E. Álvarez, S. Clemente, E. Blázquez.

Presence of melatonin in the umbilical cord blood of full-term human newborns.

J Pineal Res, 6 (1989), pp. 135-140

Medline

[10.]

D.J. Kennaway, G.E. Stamp, F.C. Goble.

Development of melatonin production in infants and the impact of prematurity.

J Clin Endocrinol Metab, 75 (1992), pp. 367-379

http://dx.doi.org/10.1210/jcem.75.2.1639937 | Medline

[11.]

S.M. Reppert, T.R. Weaver, S.A. Rivkees, E.G. Stopa.

Putative melatonin receptors in a human biological clock.

Science, 242 (1988), pp. 78-81

Medline

[12.]

D.R. Weaver, S.M. Reppert.

The Mel1a melatonin receptor gene is expressed in human suprachiasmatic nuclei.

Neuroreport, 8 (1996), pp. 109-112

Medline

[13.]

H. Yuan, Y. Lu, S.F. Pang.

Binding characteristics and regional distribution of 125I-iodomelatonin binding sites in the brain of the human fetus.

Neurosci Lett, 130 (1991), pp. 229-232

Medline

[14.]

R. Karadottir, J. Axelsson.

Melatonin secretion in SAD patients and healthy subjects matched with respect to age and sex.

Int J Circumpolar Health, 60 (2001), pp. 548-551

Medline

[15.]

S.R. Ojeda, W.S. Andrews, J.P. Advis, S. Smith-White.

Recent advances in the endocrinology of puberty.

Endocrinol Rev, 1 (1980), pp. 228-257

[16.]

J.A.F. Tresguerres, A.I. Esquifino.

Dissociation in LH and FSH regulation in a hyperprolactinaemic model: Interrelationship between gonadotropin and prolactin control.

J Endocrinol, 90 (1981), pp. 41-51

Medline

[17.]

A. Pérez-Casas, E. Villa, M.E. Bengoechea.

Simple technique of pinealectomy for rats without alterations in the hypothalamus drainage.

Congresus Anatomicus Europensis, pp. 313

[18.]

D.C. Klein.

Evidence for the placental transfer of 3-H-acetyl-melatonin.

Nat New Biol, 237 (1972), pp. 117-118

Medline

[19.]

L. Tamarkin, S.M. Reppert, D.J. Orloff, D.C. Klein, S.M. Yellon, B.D. Goldman.

Ontogeny of the pineal melatonin rhythm in the Syriam (Mesocricetus auratus) and Siberian (Phodopus sungorus) hamsters and in the rat.

Endocrinology, 107 (1980), pp. 1061-1064

http://dx.doi.org/10.1210/endo-107-4-1061 | Medline

[20.]

H. Martikainen, J. Tapanainen, O. Vakkuri, J. Leppäluoto, I. Huhtaniemi.

Circannual concentrations of melatonin, gonadotrophins, prolactin, and gonadal steroids in males in a geographical area with a large annual variation in daylight.

Acta Endocrinol (Copenh), 109 (1985), pp. 446-450

[21.]

A. Kivelä, A. Kauppila, P. Ylöstalo, O. Vakkuri, J. Leppäluoto.

Seasonal, menstrual and circadian secretions of melatonin, gonadotropins and prolactin in women.

Acta Physiol Scand, 132 (1988), pp. 321-327

http://dx.doi.org/10.1111/j.1748-1716.1988.tb08335.x | Medline

[22.]

A. Kauppila, A. Kivelä, A. Pakarinen, O. Vakkuri.

Inverse seasonal relationship between melatonin and ovarian activity in humans in a region with a strong seasonal contrast in luminosity.

J Clin Endocrinol Metab, 65 (1987), pp. 823-828

http://dx.doi.org/10.1210/jcem-65-5-823 | Medline

[23.]

U. Lang.

Melatonin and puberty.

Pineal Res Rev, 4 (1986), pp. 199-243

[24.]

B.P. Fitzgerald, L.A. Davison, C.J. McManus.

Evidence for a seasonal variation in the ability of exogenous melatonin to suppress prolactin secretion in the mare.

Domest Anim Endocrinol, 18 (2000), pp. 395-408

Medline

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