Zolzaya Tumurgan scite author profile

et al. 2019

Kisspeptin (encoded by the Kiss-1 gene) in the arcuate nucleus (ARC) of the hypothalamus governs the hypothalamic-pituitary-gonadal (HPG) axis by regulating pulsatile release of gonadotropin-releasing hormone (GnRH). Meanwhile, kisspeptin in the anteroventral periventricular nucleus (AVPV) region has been implicated in estradiol (E2)-induced GnRH surges. Kiss-1–expressing cell model mHypoA-55 exhibits characteristics of Kiss-1 neurons in the ARC region. On the other hand, Kiss-1 expressing mHypoA-50 cells originate from the AVPV region. In the mHypoA-55 ARC cells, activin significantly increased Kiss-1 gene expression. Follistatin alone reduced Kiss-1 expression within these cells. Interestingly, activin-induced Kiss-1 gene expression was completely abolished by follistatin. Inhibin A, but not inhibin B reduced Kiss-1 expression. Activin-increased Kiss-1 expression was also abolished by inhibin A. Pretreatment of the cells with follistatin or inhibin A significantly inhibited kisspeptin- or GnRH-induced Kiss-1 gene expression in mHypoA-55 cells. In contrast, in the mHypoA-50 AVPV cell model, activin, follistatin, and inhibin A did not modulate Kiss-1 gene expression. The subunits that compose activin and inhibin, as well as follistatin were expressed in both mHypoA-55 and mHypoA-50 cells. Expression of inhibin βA and βB subunits and follistatin was much higher in mHypoA-55 ARC cells. Furthermore, we found that expression of the inhibin α subunit and follistatin genes was modulated in the presence of E2 in mHypoA-55 ARC cells. The results of this study suggest that activin, follistatin, and inhibin A within the ARC region participate in the regulation of the HPG axis under the influence of E2.

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Effect of pituitary adenylate cyclase-activating polypeptide (PACAP) in the regulation of hypothalamic kisspeptin expression

General and Comparative Endocrinology

Oride

et al. 2019

Hyperandrogenism induces proportional changes in the expression of Kiss-1, Tac2, and DynA in hypothalamic KNDy neurons

Okada

et al. 2022

Reprod Biol Endocrinol

Background Kisspeptin released from Kiss-1 neurons in the hypothalamus plays an essential role in the control of the hypothalamic–pituitary–gonadal axis by regulating the release of gonadotropin-releasing hormone (GnRH). In this study, we examined how androgen supplementation affects the characteristics of Kiss-1 neurons. Methods We used a Kiss-1-expressing mHypoA-55 cell model that originated from the arcuate nucleus (ARC) of the mouse hypothalamus. These cells are KNDy neurons that co-express neurokinin B (NKB) and dynorphin A (DynA). We stimulated these cells with androgens and examined them. We also examined the ARC region of the hypothalamus in ovary-intact female rats after supplementation with androgens. Results Stimulation of mHypoA-55 cells with 100 nM testosterone significantly increased Kiss-1 gene expression by 3.20 ± 0.44-fold; testosterone also increased kisspeptin protein expression. The expression of Tac3, the gene encoding NKB, was also increased by 2.69 ± 0.64-fold following stimulation of mHypoA-55 cells with 100 nM testosterone. DynA gene expression in these cells was unchanged by testosterone stimulation, but it was significantly reduced at the protein level. Dihydrotestosterone (DHT) had a similar effect to testosterone in mHypoA-55 cells; kisspeptin and NKB protein expression was significantly increased by DHT, whereas it significantly reduced DynA expression. In ovary-intact female rats, DTH administration significantly increased the gene expression of Kiss-1 and Tac3, but not DynA, in the arcuate nucleus. Exogenous NKB and DynA stimulation failed to modulate Kiss-1 gene expression in mHypoA-55 cells. Unlike androgen stimulation, prolactin stimulation did not modulate kisspeptin, NKB, or DynA protein expression in these cells. Conclusions Our observations imply that hyperandrogenemia affects KNDy neurons and changes their neuronal characteristics by increasing kisspeptin and NKB levels and decreasing DynA levels. These changes might cause dysfunction of the hypothalamic–pituitary–gonadal axis.

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Effect of relaxin‐3 on Kiss‐1, gonadotropin‐releasing hormone, and gonadotropin subunit gene expression

Reprod Medicine & Biology

Tumurgan

et al. 2019

Purpose Relaxin‐3 is a hypothalamic neuropeptide that belongs to the insulin superfamily. We examined whether relaxin‐3 could affect hypothalamic Kiss‐1, gonadotropin‐releasing hormone (GnRH), and pituitary gonadotropin subunit gene expression. Methods Mouse hypothalamic cell models, mHypoA‐50 (originated from the hypothalamic anteroventral periventricular region), mHypoA‐55 (originated from arcuate nucleus), and GT1‐7, and the mouse pituitary gonadotroph LβT2 were used. Expression of Kiss‐1, GnRH, and luteinizing hormone (LH)/follicle‐stimulating hormone (FSH) β‐subunits was determined after stimulation with relaxin‐3. Results RXFP3, a principle relaxin‐3 receptor, was expressed in these cell models. In mHypoA‐50 cells, relaxin‐3 did not exert a significant effect on Kiss‐1 expression. In contrast, the Kiss‐1 gene in mHypoA‐55 was significantly increased by 1 nmol/L relaxin‐3. These cells also express GnRH mRNA, and its expression was significantly stimulated by relaxin‐3. In GT1‐7 cells, relaxin‐3 significantly upregulated Kiss‐1 expression; however, GnRH mRNA expression in GT1‐7 cells was not altered. In primary cultures of fetal rat neuronal cells, 100 nmol/L relaxin‐3 significantly increased GnRH expression. In pituitary gonadotroph LβT2, both LHβ‐ and FSHβ‐subunit were significantly increased by 1 nmol/L relaxin‐3. Conclusions Our findings suggest that relaxin‐3 exerts its effect by modulating the expression of Kiss‐1, GnRH, and gonadotropin subunits, all of which are part of the hypothalamic‐pituitary‐gonadal axis.

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Effects of the Fertility Drugs Clomiphene Citrate and Letrozole on Kiss-1 Expression in Hypothalamic Kiss-1-Expressing Cell Models

et al. 2020