1. Photoperiod & reproduction��
2. Overview Seasonal changes in physiology
The “Photo-neuroendocrine System”
Melatonin biosynthesis
Regulation by photoperiod
Melatonin target tissues
Hypothalamus, pituitary pars tuberalis
“Photorefractoriness” and circannual rhythms
3. Seasonal Rhythms
4. Seasonal Physiological Rhythms Photoperiodic regulation of seasonal physiology in lab conditions
5. Seasonal Reproduction and Prolactin / Moulting rhythms are synchronsed differently in diferent mammals
6. Timing of Seasonal Reproduction
7. Circannual Rhythms Occur in long-lived seasonal species (e.g. sheep)
Occur in constant photoperiod (i.e. endogenous control)
Equatorial species
Melatonin target tissues?
Photoperiod entrains circannual rhythms to annual cycle
8. Seasonal Changes in Gonadotrophin Releasing Hormone (GnRH) Secretion
9. The “Photo-neuroendocrine System” Pineal melatonin is a key hormonal clock output
Melatonin is synthesised and secreted at night
Rhythmic melatonin secretion is driven by a poly-synaptic output pathway from the suprachiasmatic nuclei (SCN)
Release of noradrenaline (NA) stimulates pineal
10. The Photo-neuroendocrine System: Pineal Regulation by Photoperiod
11. Melatonin Biosynthesis Synthesised from tryptophan
Key rate-limiting enzyme in melatonin biosynthesis is arylalkylamine-N-acetyltransferase (AA-NAT)
AA-NAT activity is stimulated by noradrenergic stimulation of the pineal gland (output from the SCN)
12. Species Differences in Mammalian AA-NAT Regulation
13. How does Changing Photoperiod Regulate Physiology? In mammals, Melatonin is essential for photoperiodic time measurement
Removal of pineal blocks responses
Melatonin infusion experiments have been done to determine how changing melatonin secretion controls reproductive activation
14. Timed Infusion Experiments in PinX Hamsters
15. Decoding the Melatonin Signal Importance of melatonin signal parameters investigated in pinealectomised hamsters
Carefully controlled melatonin signals imposed by timed injections/infusions
Key parameter is melatonin signal duration
Long duration melatonin: short day response
Short duration melatonin: long day response
16. Where & how does melatonin act?
17. Receptor “autoradiography”
18. Melatonin Receptors Major mammalian subtypes: MT1 and MT2 (previously Mel1a and Mel1b)
G-protein-coupled receptors
MT1 receptors implicated in seasonal neuroendocrinology
Strong expression
Absence of functional MT2 in hamsters
Melatonin receptors expressed in many neuroendocrine tissues
19. Melatonin Target Sites in the Brain Most species express melatonin receptors in multiple brain structures
Much inter-species variation
Two major candidate sites for effects on reproductive activation
1 - Mediobasal hypothalamus (MBH)
2 - Pars tuberalis (PT)
20. The Case for the MBH
21. Mediobasal Hypothalamus Lesion (hamster)
22. Mediobasal Hypothalamus Lesion (sheep)
23. Summary of Mediobasal Hypothalamus Lesion Studies Attenuate effect of photoperiod (and melatonin infusion) on reproductive status and body weight
No obvious effect on prolactin secretion
Is prolactin regulated via a separate melatonin target site (e.g. the PT)?
24. The Case for the PT
25. Receptor “autoradiography”
26. ?TSH is photoperiodically regulated in the sheep PT NB SYSTEMIC TSH LEVELS DO NOT CHANGENB SYSTEMIC TSH LEVELS DO NOT CHANGE
27. Functional TSH-receptors in the sheep neuroendocrine system
28. Photoperiodic DIO2 regulation explains springtime need for T4 in the sheep basal hypothalamus
29. ?TSH and DIO2 are both induced in first 10 days following transfer to Long Days
30. TSH rapidly induces DIO2 expression in sheep hypothalamus
33. Paul et al (2008) Phil Trans Roy SocB 363:341
Morgan & Hazlerigg (2008) J Neuroendocrinol 20:820
Hanon et al (2008) Current Biology 18:1147
Hazlerigg & Loudon (2008) Current Biology 18:R795 Selected Further Reading
