RESUMEN
Avian literature reports the modulation of 'photoperiodic gonadal responses' by the temporal phase relation of serotonergic and dopaminergic oscillations in Japanese quail. But, the modulation of 'light colour responses' by the temporal synergism of neural oscillations is not yet known. Hence the present study was designed to investigate the interaction of the light colour (blue, red) and the phase relation of neural oscillations in the reproductive regulation of Japanese quail. Three week old male Japanese quail were divided into two groups and maintained under a long day length condition (16L:8D) and were exposed to a 30 lux intensity of blue LED (light emitting diode) (B LED) and a red LED light (R LED). At the age of 15.5weeks, quail of one subgroup of B LED were injected with serotonin precursor (5-HTP) and dopamine precursor (l-DOPA) 12hrs apart (B LED+12-hr) and those of the R LED group were injected with the same drugs (5mg/100g body weight over a period of thirteen days) but 8hrs apart (R LED+8-hr). The remaining subgroups of both the light colour groups (B LED & R LED) received normal saline twice daily and served as controls. Cloacal gland volume was recorded weekly until 35.5weeks of age when the study was terminated and reproductive parameters (testicular volume, GSI, seminiferous tubule diameter and plasma testosterone) were assessed. Results indicate that the 8-hr temporal phase relation of neural oscillations suppresses reproductive activity even during the photosensitive phase of the red light exposed quail (R LED+8-hr) compare to the R LED controls. On the other hand, the 12-hr temporal phase relation stimulates the gonadal development of the B LED+12-hr quail compared to the B LED controls which after completing one cycle entered into a regressive phase and remained sexually quiescent. These experiments suggest that the temporal phase relations of circadian neural oscillations, in addition to modulating the classical photoperiodic responses, may also modulate the gonadal responses to blue (suppressive) and red (stimulatory) light. These studies led us to conclude that the temporal phase relation of serotonergic and dopaminergic oscillations is not only an important regulator of avian reproduction but may also override the classical effects of light colours in Japanese quail.
Asunto(s)
Color , Coturnix/fisiología , Luz , Reproducción , Animales , MasculinoRESUMEN
An extensive literature is available on the photoperiodic responses of avian species but studies on light colour and wavelength from light emitting diode (LED) sources on reproduction are limited. Hence, an experiment was designed to study the effect of different colours and intensities of light on the reproductive responses of Japanese quail. Three-week old quail were exposed to five different light conditions with a long photoperiod (LD 16:8): WT (white fluorescent light 100 lux as control), W LED (white light emitting diode, 30 lux), B LED (blue LED, 30 lux), G LED (green LED, 30 lux) and R-LED (red LED, 30 lux). The cloacal gland size, an indicator of androgenic activity, was monitored weekly. The results indicated an early initiation of gonadal growth in WT quail which continued and maintained a plateau throughout the period of study. On the other hand, in general low intensity light, there was a decreased amplitude of the reproductive cycle and the quail exposed to different colour lights (green, red and blue lights) used different incubation times to initiate their gonadal growth and exhibited a gonadal cycle of a different duration up to 15.5 weeks. Thereafter, the gonad of quail of all the LED groups started developing again (including the blue LED exposed quail which remained undeveloped until this age) and attained the increased degree of growth until 26.5 weeks of age. During the second cycle, gonads of green and red light exposed quail continued to increase and maintained a plateau of development similar to WT exposed control while white and blue LED exposed quail exhibited spontaneous regression and attained complete sexual quiescence. Based on our study, it is suggested that long term exposure to blue LED light of low intensity may induce gonadal regression even under long-day conditions (LD 16:8), while exposure to green and red lights appears to maintain a constant photosensitivity after one complete gonadal cycle.
Asunto(s)
Ritmo Circadiano/efectos de la radiación , Color , Luz , Reproducción/efectos de la radiación , Estaciones del Año , Animales , Percepción de Color/fisiología , Sensibilidad de Contraste/fisiología , Masculino , Tamaño de los Órganos/efectos de la radiación , Estimulación Luminosa/métodos , Psicofísica , Codorniz , Testículo/anatomía & histología , Testosterona/sangre , Factores de TiempoRESUMEN
Specific temporal phase relations of neural oscillations are reported to regulate gonadal activity in many avian species but their interaction with photo-sexual response are still unclear. Hence in the present study, 3week old Japanese quail maintained in short days (experiment 1) received normal saline (SD control) or serotonin precursor 5-HTP and dopamine precursor l-DOPA injections at the interval of 12h (SD 12-h) for 13days. At 37week of age, one subgroup of SD 12-h received these drugs at the interval of 8-h (SD 12-h+8-h). In the second experiment, 3week old quail were injected with 5-HTP and l-DOPA 8h apart (LD 8-h) and then maintained under long days. At the age of 37weeks, one subgroup of these LD quail was retreated with 5-HTP and l-DOPA at the interval of 8h (LD 8-h+8-h). Cloacal gland volume was monitored weekly up to 45weeks of age in both experiments and other reproductive parameters were monitored at 23 and 45week of age. These results indicate that 12-h phase relation of neurotransmitter precursors not only initiates early onset of scotorefractoriness i.e., full development of gonad even under short-day length but maintains it continuously (a long lasting effect) unlike control and the 8-h relation dissipates it, making the quail scotosensitive. On the other hand, the 8-h phase relation suppresses the gonado-stimulatory effect of long days but this effect is transitory. Thus the 12-h phase relation is gonado-stimulatory under short day conditions and the 8-h relation is gonado-inhibitory even under long days, inducing scotorefractoriness and photorefractoriness, respectively, it is suggested that effects of specific temporal phase relation of circadian neural oscillations similar to photoperiodic effects, are not only mediated by HPG axis but may also modulate the classical photoperiodic responses of Japanese quail.
Asunto(s)
Coturnix/fisiología , Gónadas/fisiología , Fotoperiodo , Reproducción/fisiología , 5-Hidroxitriptófano/farmacología , Animales , Antidepresivos de Segunda Generación/farmacología , Dopamina/farmacología , Dopaminérgicos/farmacología , Gónadas/efectos de los fármacos , Levodopa/farmacología , Masculino , Reproducción/efectos de los fármacos , Estaciones del AñoRESUMEN
Specific temporal phase relation of neural oscillations appears to be the regulator of gonadal development in many seasonally breeding species. To find out the specific phase angle of two neural oscillations that triggers gonado-inhibitory or gonado-stimulatory response, and to test the internal coincidence model, sexually immature male Japanese quail were administered with the serotonin precursor, 5-hydroxytryptophan and the dopamine precursor, L-dihydroxyphenylalanine at hourly intervals of 6, 7, 8, 9, 10, 11 and 12 h (5 mg/100 g body weight/day for 12 days under continuous condition of light, LL). Thereafter all the groups were shifted to long photoperiod (LD16:8). During post-treatment period, in general, a significant suppression of gonadal activity was seen in the 7 h and 8 h quail and an increase in the 11 h and 12 h quail compared to the control and these effects were maintained until 105 days post treatment when the study was terminated. These findings suggest that, in addition to the effects of photoperiod, the gonadal development of Japanese quail may be also modulated by internal coincidence of serotonergic and dopaminergic oscillations (induced by the administration of their precursor drugs) and the gonadal response varies depending on the time interval between the administrations of two drugs on a circadian basis. These results also demonstrate inversion of gonadal response from 7/8 h (suppressive) to 11/12 h (stimulatory) phase relation of the two oscillations and suggest that similar to photoperiodic time measurement, Japanese quail may also detect changes in the phase angle of circadian oscillations to modulate its gonadal activity.
Asunto(s)
5-Hidroxitriptófano/farmacología , Ritmo Circadiano/fisiología , Coturnix/metabolismo , Dihidroxifenilalanina/farmacología , Testículo/efectos de los fármacos , Animales , Coturnix/sangre , Masculino , Fotoperiodo , Túbulos Seminíferos/anatomía & histología , Túbulos Seminíferos/efectos de los fármacos , Testículo/química , Testículo/metabolismo , Testículo/efectos de la radiación , Testosterona/sangreRESUMEN
This article is focused on the effect of specific phase relation of serotonergic and dopaminergic oscillations on the gonadal responses of different avian species. These species include (i) summer breeding birds - Red headed bunting (exhibiting post-reproductive absolute photorefractoriness) and Indian Weaver bird (which lacks absolute photorefractoriness), (ii) autumn breeding - Spotted munia and Lal munia (photoperiodic responses of which are distinctly different from that of any long day birds described thus far) and (iii) domesticated Japanese quail (which under natural day length breeds in summer, exhibits relative photorefractoriness, but breeds continuously if maintained in long photoperiod). Previous experiments have shown that daily administration of serotonin precursor 5-hydroxytryptophan and dopamine precursor L-dihydroxyphenylalanine given 8h apart during progressive phase of gonadal cycle can lead to a significant decrease in gonadal activity. However, if given at an interval of 12h it leads to an increase in gonadal activity and the effect of other intervals (0-, 4-, 16- and 20-h) were not different from control. Similar effects were observed during regressive phase of the gonadal cycle of above species except in those which display absolute photorefractory phase in their breeding cycle. This shows that, gonad of such species not only develop post-reproductive photorefractoriness but also becomes insensitive to the stimulatory effects of 5-HTP and L-DOPA when given at the interval of 12h. It is suggested that, temporal phase relation of circadian serotonergic and dopaminergic oscillations is the basis of seasonality in birds and may alter the activity of neuroendocrine-gonadal axis not only under natural day length but also under experimental/different photoperiodic conditions. These results are in agreement with the internal coincidence model of photoperiodic time measurement and indicate that birds can detect specific phase relationship between the two neural oscillations for their reproductive regulations and circadian organization is intricately involved in the regulation of seasonality.