Photoperiod, but not progesterone, has a strong impact upon the transcriptome of the medio-basal hypothalamus in female goats and ewes

Photoperiod, but not progesterone, has a strong impact upon the transcriptome of the medio-basal hypothalamus in female goats and ewes

Photoperiod is the main environmental driver of seasonal responses in organisms living at temperate and polar latitudes. Other external cues such as food and temperature, and internal cues including hormones, intervene to fine-tune phasing of physiological functions to the solar year. In mammals, th...

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Veröffentlicht in:Molecular and cellular endocrinology 2024-07, Vol.588, p.112216, Article 112216
Hauptverfasser: Dardente, Hugues, Lomet, Didier, Robert, Vincent, Lasserre, Olivier, Gonzalez, Anne-Alicia, Mialhe, Xavier, Beltramo, Massimiliano
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biological rhythms
Breeding
Datasets as Topic
Estradiol
Estrus
Estrus cycle
Female
GnRH
Goat
Goats - genetics
Hypothalamus - metabolism
Kisspeptin
Life Sciences
Melatonin
Pars tuberalis
Photoperiod
Pituitary
Progesterone
Progesterone - metabolism
Reproductive Biology
Reverse Transcriptase Polymerase Chain Reaction
Seasonality
Seasons
Sequence Analysis, RNA
Sheep
Sheep - genetics
Transcriptome
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container_issue
container_start_page 112216
container_title Molecular and cellular endocrinology
container_volume 588
creator Dardente, Hugues
Lomet, Didier
Robert, Vincent
Lasserre, Olivier
Gonzalez, Anne-Alicia
Mialhe, Xavier
Beltramo, Massimiliano
description Photoperiod is the main environmental driver of seasonal responses in organisms living at temperate and polar latitudes. Other external cues such as food and temperature, and internal cues including hormones, intervene to fine-tune phasing of physiological functions to the solar year. In mammals, the medio-basal hypothalamus (MBH) is the key integrator of these cues, which orchestrates a wide array of seasonal functions, including breeding. Here, using RNAseq and RT-qPCR, we demonstrate that molecular components of the photoperiodic response previously identified in ewes are broadly conserved in does (female goats, Capra hircus), with a common core of ∼50 genes. This core group can be defined as the “MBH seasonal trancriptome”, which includes key players of the pars tuberalis-tanycytes neuroendocrine retrograde pathway that governs intra-MBH photoperiodic switches of triiodothyronine (T3) production (Tshb, Eya3, Dio2 and SlcO1c1), the two histone methyltransferases Suv39H2 and Ezh2 and the secreted protein Vmo1. Prior data in ewes revealed that T3 and estradiol (E2), both key hormones for the proper timing of seasonal breeding, differentially impact the MBH seasonal transcriptome, and identified cellular and molecular targets through which these hormones might act. In contrast, information regarding the potential impact of progesterone (P4) upon the MBH transcriptome was nonexistent. Here, we demonstrate that P4 has no discernible transcriptional impact in either does or ewes. Taken together, our data show that does and ewes possess a common core set of photoperiod-responsive genes in the MBH and conclusively demonstrate that P4 is not a key regulator of the MBH transcriptome. •Seasonal transcriptome of the medio-basal hypothalamus (MBH) of female goat by RNAseq.•Common core of ∼50 seasonally-expressed MBH genes shared between female goat and ewe.•No obvious transcriptional impact of Progesterone in MBH of either female goat or ewe.•Progesterone in MBH impacts the estrus cycle through post-transcriptional mechanisms.
doi_str_mv 10.1016/j.mce.2024.112216
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Other external cues such as food and temperature, and internal cues including hormones, intervene to fine-tune phasing of physiological functions to the solar year. In mammals, the medio-basal hypothalamus (MBH) is the key integrator of these cues, which orchestrates a wide array of seasonal functions, including breeding. Here, using RNAseq and RT-qPCR, we demonstrate that molecular components of the photoperiodic response previously identified in ewes are broadly conserved in does (female goats, Capra hircus), with a common core of ∼50 genes. This core group can be defined as the “MBH seasonal trancriptome”, which includes key players of the pars tuberalis-tanycytes neuroendocrine retrograde pathway that governs intra-MBH photoperiodic switches of triiodothyronine (T3) production (Tshb, Eya3, Dio2 and SlcO1c1), the two histone methyltransferases Suv39H2 and Ezh2 and the secreted protein Vmo1. Prior data in ewes revealed that T3 and estradiol (E2), both key hormones for the proper timing of seasonal breeding, differentially impact the MBH seasonal transcriptome, and identified cellular and molecular targets through which these hormones might act. In contrast, information regarding the potential impact of progesterone (P4) upon the MBH transcriptome was nonexistent. Here, we demonstrate that P4 has no discernible transcriptional impact in either does or ewes. 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ispartof Molecular and cellular endocrinology, 2024-07, Vol.588, p.112216, Article 112216
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subjects Animals
Biological rhythms
Breeding
Datasets as Topic
Estradiol
Estrus
Estrus cycle
Female
GnRH
Goat
Goats - genetics
Hypothalamus - metabolism
Kisspeptin
Life Sciences
Melatonin
Pars tuberalis
Photoperiod
Pituitary
Progesterone
Progesterone - metabolism
Reproductive Biology
Reverse Transcriptase Polymerase Chain Reaction
Seasonality
Seasons
Sequence Analysis, RNA
Sheep
Sheep - genetics
Transcriptome
title Photoperiod, but not progesterone, has a strong impact upon the transcriptome of the medio-basal hypothalamus in female goats and ewes
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