Immunohistochemical localization of chicken gonadotropin‐releasing hormones I and II (cGnRH I and II) in turkey hen brain

Millam, James R.; Faris, Patricia L.; Youngren, Orlan M.; Halawani, Mohamed E. El; Hartman, Boyd K.

doi:10.1002/cne.903330106

Cited by 80 publications

(49 citation statements)

References 47 publications

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“…However, based on its anatomical distribution, cGnRH-I appears to be the primary regulator of gonadotrophin secretion in birds (e.g. Millam et al 1993;see Ball & Hahn (1997) for a review). This system exhibits remarkable seasonal plasticity in several avian species in that there is a marked decline in the expression of the peptide after the onset of photorefractoriness (see Ball & Hahn (1997), Dawson et al (2001), MacDougall-Shackleton et al (2005) for reviews) and even a seasonal decline in the release of gonadal steroids in response to GnRH stimulation of the pituitary-gonadal axis during the breeding season (Jawor et al 2006).…”

Section: Basics Of the Environmental Regulation Of Annual Cycles In Bmentioning

confidence: 99%

Sex differences in the response to environmental cues regulating seasonal reproduction in birds

Ball

Ketterson

2007

Phil. Trans. R. Soc. B

197

161

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Although it is axiomatic that males and females differ in relation to many aspects of reproduction related to physiology, morphology and behaviour, relatively little is known about possible sex differences in the response to cues from the environment that control the timing of seasonal breeding. This review concerns the environmental regulation of seasonal reproduction in birds and how this process might differ between males and females. From an evolutionary perspective, the sexes can be expected to differ in the cues they use to time reproduction. Female reproductive fitness typically varies more as a function of fecundity selection, while male reproductive fitness varies more as a function sexual selection. Consequently, variation in the precision of the timing of egg laying is likely to have more serious fitness consequences for females than for males, while variation in the timing of recrudescence of the male testes and accompanying territory establishment and courtship are likely to have more serious fitness consequences for males. From the proximate perspective, sex differences in the control of reproduction could be regulated via the response to photoperiod or in the relative importance and action of supplementary factors (such as temperature, food supply, nesting sites and behavioural interactions) that adjust the timing of reproduction so that it is in step with local conditions. For example, there is clear evidence in several temperate zone avian species that females require both supplementary factors and long photoperiods in order for follicles to develop, while males can attain full gonadal size based on photoperiodic stimulation alone. The neuroendocrine basis of these sex differences is not well understood, though there are many candidate mechanisms in the brain as well as throughout the entire hypothalamo-pituitary-gonadal axis that might be important.

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Section: Basics Of the Environmental Regulation Of Annual Cycles In Bmentioning

confidence: 99%

Sex differences in the response to environmental cues regulating seasonal reproduction in birds

Ball

Ketterson

2007

Phil. Trans. R. Soc. B

197

161

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“…The main population of cGnRH-I-ir cell bodies in the avian brain is a bilateral cluster in the pre-optic area (POA) that extends from the anterior commissure to the supracommissural division of the organum vasculosum of the lamina terminalis. Cell bodies immunoreactive for cGnRH-II are situated in the midbrain (Juss et al 1992, Millam et al 1993. GnRH-I immunoreactive neurons typically project to the median eminence, allowing regulation of pituitary gonadotropin release.…”

Section: Introductionmentioning

confidence: 99%

Identification, localization, and regulation of passerine GnRH-I messenger RNA

Ubuka¹,

Bentley²

2009

Journal of Endocrinology

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“…While GnRH-ir cell bodies were not seen in both sections from some 291 birds, GnRH-ir fibers were always present. Although the GnRH antibody recognizes 292 both GnRH-I and -II, only GnRH-I and not GnRH-II cell bodies are present in the septo-293 preoptic area (Millam et al, 1993;van Gils et al, 1993;Sharp, 2005). Previous studies 294 have found that this region is innervated by central photoreceptors (Saldanha et al, 295 1994(Saldanha et al, 295 , 2001) and responds to photostimulation with increased fos-like immunoreactivity 296 Follett, 1995, 1997;Millam et al, 2003) Mauro et al, 1989Mauro et al, , 1992.…”

mentioning

confidence: 99%

Prior Experience with Photostimulation Enhances Photo-Induced Reproductive Response in Female House Finches

et al. 2013

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The NERC and CEH trademarks and logos ('the Trademarks') are registered trademarks of NERC in the UK and other countries, and may not be used without the prior written consent of the Trademark owner. In many vertebrates parental age is related to reproductive output with older individuals 25 often performing better (e.g., advanced timing, more offspring) than younger ones. First-26 year birds differ from older birds in that they lack previous experience with the 27 reproductively-stimulatory effects of long day lengths (photostimulation). The goal of this 28 study was to examine whether this age-related increase in reproductive output can be 29 attributed, at least in part, to previous experience with photostimulation in a 30 photoperiodic bird, the female house finch (Carpodacus mexicanus). Specifically, we 31 investigated whether previous experience with photostimulation influences the early 32 stages of reproductive development by quantifying plasma luteinizing hormone (LH), 33 plasma vitellogenin, ovarian follicle size, and immunoreactivity of hypothalamic 34 1 Prior Experience with Photostimulation Enhances Photo-Induced gonadotropin-releasing hormone (GnRH-I) and vasoactive intestinal polypeptide (VIP). 35By differentially manipulating photoperiod, we generated two groups of first-year female 36 finches: a photo-experienced group that had been through one photoperiodically-37 induced cycle of gonadal development and regression, and a photo-naïve group 38 exposed to long days since hatch. Both groups were then transferred from long to short 39 days for nine weeks, to ensure full photoperiodic responsiveness, and then 40 photostimulated for four weeks and exposed to conspecific or heterospecific male song 41 starting 90 minutes before sacrifice. Following photostimulation, although photo-42 experienced and photo-naïve groups exhibited similar surges in plasma LH 43 concentrations, circulating vitellogenin levels increased in photo-experienced, but not in 44 photo-naïve birds. After four weeks of photostimulation, egg yolk deposition was 45 observed in two of six photo-experienced birds but in none of the photo-naïve birds. 46 3 After four weeks of photostimulation and exposure to conspecific or heterospecific male 47 song, more GnRH-I-ir cells were seen in the septo-preoptic hypothalamus of photo-48 experienced than of photo-naïve birds. In contrast, there were no differences between 49 the photo-experienced and photo-naïve birds, irrespective of the song type they were 50 exposed to, in numbers of visible VIP-ir cells in the mediobasal hypothalamus. Our 51 results demonstrate that previous photo-experience enhances some of the early stages 52 of photo-induced reproductive development, and that the reproductive neuroendocrine 53 system of photo-experienced, photoperiodic birds is primed to respond rapidly to 54 reproductively-stimulatory environmental and social cues. 55

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Immunohistochemical localization of chicken gonadotropin‐releasing hormones I and II (cGnRH I and II) in turkey hen brain

Cited by 80 publications

References 47 publications

Sex differences in the response to environmental cues regulating seasonal reproduction in birds

Sex differences in the response to environmental cues regulating seasonal reproduction in birds

Identification, localization, and regulation of passerine GnRH-I messenger RNA

Prior Experience with Photostimulation Enhances Photo-Induced Reproductive Response in Female House Finches

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