Luteinizing Hormone Facilitates Antral Follicular Maturation and Survival via Thecal Paracrine Signaling in Cattle

Abstract LH supplementation in assisted reproductive technology cycles improves the ongoing pregnancy rate in women with poor ovarian response (POR). However, our knowledge of the precise role of LH during the follicular phase of the menstrual cycle is incomplete. To explore the role of LH in the ma...

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Published in	Endocrinology (Philadelphia) Vol. 159; no. 6; pp. 2337 - 2347
Main Authors	Hattori, Katsushige, Orisaka, Makoto, Fukuda, Shin, Tajima, Kimihisa, Yamazaki, Yukiko, Mizutani, Tetsuya, Yoshida, Yoshio
Format	Journal Article
Language	English
Published	Washington, DC Endocrine Society 01.06.2018 Oxford University Press
Subjects	Androgens Animals Apoptosis Aromatase Biosynthesis Cattle Cell Survival - drug effects Cells, Cultured Collagen Dependence Endocrinology Estrogens Female Follicle Stimulating Hormone - pharmacology Follicle-stimulating hormone Follicles Follicular Phase - drug effects Gonadotropins Granulosa cells Granulosa Cells - drug effects Granulosa Cells - metabolism In Vitro Oocyte Maturation Techniques Insulin-like growth factor I Luteinizing hormone Luteinizing Hormone - pharmacology Maturation Menopause Menstrual cycle Oogenesis - drug effects Oogenesis - physiology Ovarian Follicle - drug effects Ovarian Follicle - physiology Paracrine Communication - drug effects Paracrine signalling Pituitary (anterior) Pregnancy Reproductive technologies Sensitivity Stimulation Substrates Supplements Survival Theca Theca Cells - drug effects Theca Cells - metabolism
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Abstract	Abstract LH supplementation in assisted reproductive technology cycles improves the ongoing pregnancy rate in women with poor ovarian response (POR). However, our knowledge of the precise role of LH during the follicular phase of the menstrual cycle is incomplete. To explore the role of LH in the maturation of small antral follicles, we used an in vitro two-cell system that involved coculturing bovine granulosa cells (GCs) and theca cells (TCs) on a collagen membrane. Treatment of TCs with LH stimulated androgen production in TCs by inducing the expression of androgenic factors, subsequently increasing estrogen biosynthesis in GCs by providing androgen substrates, and inducing aromatase expression. LH stimulation of TCs induced functional LH receptor expression in GCs, a response modulated by the synthesis and action of estrogen. In the presence of TCs, LH stimulation of TCs and FSH stimulation of GCs increased the expression of IGF-1, IGF-2, and IGF-1 receptor in GCs. LH-induced expression of thecal IGF-1 protected GCs from apoptosis and promoted GC survival. Furthermore, LH stimulation of TCs increased FSH sensitivity in GCs. Thus, the LH–TC axis may be involved in the acquisition of LH dependence and the survival of small antral follicles by upregulating androgen/estrogen biosynthesis and activating the IGF system. The use of LH supplementation in ovarian stimulation may increase gonadotropin sensitivity in small antral follicles and promote follicular growth and survival by suppressing GC apoptosis and follicular atresia, resulting in multiple follicular development, even in patients with POR. The LH–TC axis facilitates ovarian follicle maturation and survival by upregulating androgen/estrogen biosynthesis and activating the IGF system in small antral follicles.
AbstractList	LH supplementation in assisted reproductive technology cycles improves the ongoing pregnancy rate in women with poor ovarian response (POR). However, our knowledge of the precise role of LH during the follicular phase of the menstrual cycle is incomplete. To explore the role of LH in the maturation of small antral follicles, we used an in vitro two-cell system that involved coculturing bovine granulosa cells (GCs) and theca cells (TCs) on a collagen membrane. Treatment of TCs with LH stimulated androgen production in TCs by inducing the expression of androgenic factors, subsequently increasing estrogen biosynthesis in GCs by providing androgen substrates, and inducing aromatase expression. LH stimulation of TCs induced functional LH receptor expression in GCs, a response modulated by the synthesis and action of estrogen. In the presence of TCs, LH stimulation of TCs and FSH stimulation of GCs increased the expression of IGF-1, IGF-2, and IGF-1 receptor in GCs. LH-induced expression of thecal IGF-1 protected GCs from apoptosis and promoted GC survival. Furthermore, LH stimulation of TCs increased FSH sensitivity in GCs. Thus, the LH-TC axis may be involved in the acquisition of LH dependence and the survival of small antral follicles by upregulating androgen/estrogen biosynthesis and activating the IGF system. The use of LH supplementation in ovarian stimulation may increase gonadotropin sensitivity in small antral follicles and promote follicular growth and survival by suppressing GC apoptosis and follicular atresia, resulting in multiple follicular development, even in patients with POR.LH supplementation in assisted reproductive technology cycles improves the ongoing pregnancy rate in women with poor ovarian response (POR). However, our knowledge of the precise role of LH during the follicular phase of the menstrual cycle is incomplete. To explore the role of LH in the maturation of small antral follicles, we used an in vitro two-cell system that involved coculturing bovine granulosa cells (GCs) and theca cells (TCs) on a collagen membrane. Treatment of TCs with LH stimulated androgen production in TCs by inducing the expression of androgenic factors, subsequently increasing estrogen biosynthesis in GCs by providing androgen substrates, and inducing aromatase expression. LH stimulation of TCs induced functional LH receptor expression in GCs, a response modulated by the synthesis and action of estrogen. In the presence of TCs, LH stimulation of TCs and FSH stimulation of GCs increased the expression of IGF-1, IGF-2, and IGF-1 receptor in GCs. LH-induced expression of thecal IGF-1 protected GCs from apoptosis and promoted GC survival. Furthermore, LH stimulation of TCs increased FSH sensitivity in GCs. Thus, the LH-TC axis may be involved in the acquisition of LH dependence and the survival of small antral follicles by upregulating androgen/estrogen biosynthesis and activating the IGF system. The use of LH supplementation in ovarian stimulation may increase gonadotropin sensitivity in small antral follicles and promote follicular growth and survival by suppressing GC apoptosis and follicular atresia, resulting in multiple follicular development, even in patients with POR. LH supplementation in assisted reproductive technology cycles improves the ongoing pregnancy rate in women with poor ovarian response (POR). However, our knowledge of the precise role of LH during the follicular phase of the menstrual cycle is incomplete. To explore the role of LH in the maturation of small antral follicles, we used an in vitro two-cell system that involved coculturing bovine granulosa cells (GCs) and theca cells (TCs) on a collagen membrane. Treatment of TCs with LH stimulated androgen production in TCs by inducing the expression of androgenic factors, subsequently increasing estrogen biosynthesis in GCs by providing androgen substrates, and inducing aromatase expression. LH stimulation of TCs induced functional LH receptor expression in GCs, a response modulated by the synthesis and action of estrogen. In the presence of TCs, LH stimulation of TCs and FSH stimulation of GCs increased the expression of IGF-1, IGF-2, and IGF-1 receptor in GCs. LH-induced expression of thecal IGF-1 protected GCs from apoptosis and promoted GC survival. Furthermore, LH stimulation of TCs increased FSH sensitivity in GCs. Thus, the LH-TC axis may be involved in the acquisition of LH dependence and the survival of small antral follicles by upregulating androgen/estrogen biosynthesis and activating the IGF system. The use of LH supplementation in ovarian stimulation may increase gonadotropin sensitivity in small antral follicles and promote follicular growth and survival by suppressing GC apoptosis and follicular atresia, resulting in multiple follicular development, even in patients with POR. Abstract LH supplementation in assisted reproductive technology cycles improves the ongoing pregnancy rate in women with poor ovarian response (POR). However, our knowledge of the precise role of LH during the follicular phase of the menstrual cycle is incomplete. To explore the role of LH in the maturation of small antral follicles, we used an in vitro two-cell system that involved coculturing bovine granulosa cells (GCs) and theca cells (TCs) on a collagen membrane. Treatment of TCs with LH stimulated androgen production in TCs by inducing the expression of androgenic factors, subsequently increasing estrogen biosynthesis in GCs by providing androgen substrates, and inducing aromatase expression. LH stimulation of TCs induced functional LH receptor expression in GCs, a response modulated by the synthesis and action of estrogen. In the presence of TCs, LH stimulation of TCs and FSH stimulation of GCs increased the expression of IGF-1, IGF-2, and IGF-1 receptor in GCs. LH-induced expression of thecal IGF-1 protected GCs from apoptosis and promoted GC survival. Furthermore, LH stimulation of TCs increased FSH sensitivity in GCs. Thus, the LH–TC axis may be involved in the acquisition of LH dependence and the survival of small antral follicles by upregulating androgen/estrogen biosynthesis and activating the IGF system. The use of LH supplementation in ovarian stimulation may increase gonadotropin sensitivity in small antral follicles and promote follicular growth and survival by suppressing GC apoptosis and follicular atresia, resulting in multiple follicular development, even in patients with POR. The LH–TC axis facilitates ovarian follicle maturation and survival by upregulating androgen/estrogen biosynthesis and activating the IGF system in small antral follicles.
Author	Yoshida, Yoshio Orisaka, Makoto Fukuda, Shin Tajima, Kimihisa Mizutani, Tetsuya Hattori, Katsushige Yamazaki, Yukiko
Author_xml	– sequence: 1 givenname: Katsushige surname: Hattori fullname: Hattori, Katsushige organization: Department of Obstetrics and Gynecology, University of Fukui, Fukui, Japan – sequence: 2 givenname: Makoto surname: Orisaka fullname: Orisaka, Makoto email: orisaka@u-fukui.ac.jp organization: Department of Obstetrics and Gynecology, University of Fukui, Fukui, Japan – sequence: 3 givenname: Shin surname: Fukuda fullname: Fukuda, Shin organization: Department of Obstetrics and Gynecology, Japanese Red Cross Fukui Hospital, Fukui, Japan – sequence: 4 givenname: Kimihisa surname: Tajima fullname: Tajima, Kimihisa organization: Department of Obstetrics and Gynecology, Japanese Red Cross Fukui Hospital, Fukui, Japan – sequence: 5 givenname: Yukiko surname: Yamazaki fullname: Yamazaki, Yukiko organization: Department of Obstetrics and Gynecology, University of Fukui, Fukui, Japan – sequence: 6 givenname: Tetsuya surname: Mizutani fullname: Mizutani, Tetsuya organization: Department of Cell Biology and Biochemistry, University of Fukui, Fukui, Japan – sequence: 7 givenname: Yoshio surname: Yoshida fullname: Yoshida, Yoshio organization: Department of Obstetrics and Gynecology, University of Fukui, Fukui, Japan
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Snippet	Abstract LH supplementation in assisted reproductive technology cycles improves the ongoing pregnancy rate in women with poor ovarian response (POR). However,... LH supplementation in assisted reproductive technology cycles improves the ongoing pregnancy rate in women with poor ovarian response (POR). However, our...
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SubjectTerms	Androgens Animals Apoptosis Aromatase Biosynthesis Cattle Cell Survival - drug effects Cells, Cultured Collagen Dependence Endocrinology Estrogens Female Follicle Stimulating Hormone - pharmacology Follicle-stimulating hormone Follicles Follicular Phase - drug effects Gonadotropins Granulosa cells Granulosa Cells - drug effects Granulosa Cells - metabolism In Vitro Oocyte Maturation Techniques Insulin-like growth factor I Luteinizing hormone Luteinizing Hormone - pharmacology Maturation Menopause Menstrual cycle Oogenesis - drug effects Oogenesis - physiology Ovarian Follicle - drug effects Ovarian Follicle - physiology Paracrine Communication - drug effects Paracrine signalling Pituitary (anterior) Pregnancy Reproductive technologies Sensitivity Stimulation Substrates Supplements Survival Theca Theca Cells - drug effects Theca Cells - metabolism
Title	Luteinizing Hormone Facilitates Antral Follicular Maturation and Survival via Thecal Paracrine Signaling in Cattle
URI	https://www.ncbi.nlm.nih.gov/pubmed/29668890 https://www.proquest.com/docview/2303849564 https://www.proquest.com/docview/2027584154
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