Currently available murine Leydig cell lines can be applied to study early steps of steroidogenesis but not testosterone synthesis

Engeli, Roger T.; Fürstenberger, Cornelia; Kratschmar, Denise V.; Odermatt, Alex

doi:10.1016/j.heliyon.2018.e00527

Cited by 26 publications

(10 citation statements)

References 56 publications

(69 reference statements)

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“…In TM3 cells, Star gene expression was significantly increased by Start overexpression (Figure 10B), and in MA-10 cells, not only Star but also Cyp17a1, Hsd3b1, and Hsd17b3 genes were significantly upregulated by Start (Figure 10D). We failed to detect testosterone in the culture media of MA-10 cells overexpressing Start, probably due to low capability of testosterone production of this cell line as previously reported (67,68). These results supported the notion that Start acts as an activator of steroidogenic genes in Leydig cells, as shown by results for 8-day-old mice (Figure 9A).…”

Section: Activation Of Steroidogenic Genes By Start In Leydig Cell Linessupporting

confidence: 90%

A Testis-Specific Long Noncoding RNA, Start, Is a Regulator of Steroidogenesis in Mouse Leydig Cells

et al. 2021

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The testis expresses many long noncoding RNAs (lncRNAs), but their functions and overview of lncRNA variety are not well understood. The mouse Prss/Tessp locus contains six serine protease genes and two lncRNAs that have been suggested to play important roles in spermatogenesis. Here, we found a novel testis-specific lncRNA, Start (Steroidogenesis activating lncRNA in testis), in this locus. Start is 1822 nucleotides in length and was found to be localized mostly in the cytosol of germ cells and Leydig cells, although nuclear localization was also observed. Start-knockout (KO) mice generated by the CRISPR/Cas9 system were fertile and showed no morphological abnormality in adults. However, in adult Start-KO testes, RNA-seq and qRT-PCR analyses revealed an increase in the expression of steroidogenic genes such as Star and Hsd3b1, while ELISA analysis revealed that the testosterone levels in serum and testis were significantly low. Interestingly, at 8 days postpartum, both steroidogenic gene expression and testosterone level were decreased in Start-KO mice. Since overexpression of Start in two Leydig-derived cell lines resulted in elevation of the expression of steroidogenic genes including Star and Hsd3b1, Start is likely to be involved in their upregulation. The increase in expression of steroidogenic genes in adult Start-KO testes might be caused by a secondary effect via the androgen receptor autocrine pathway or the hypothalamus-pituitary-gonadal axis. Additionally, we observed a reduced number of Leydig cells at 8 days postpartum. Collectively, our results strongly suggest that Start is a regulator of steroidogenesis in Leydig cells. The current study provides an insight into the overall picture of the function of testis lncRNAs.

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Section: Activation Of Steroidogenic Genes By Start In Leydig Cell Linessupporting

confidence: 90%

A Testis-Specific Long Noncoding RNA, Start, Is a Regulator of Steroidogenesis in Mouse Leydig Cells

et al. 2021

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“…Several studies had previously established that TM3 cells are suitable for use in the determination of testosterone production (Ilfergane & Henkel, 2018; Jambor et al., 2019; Lin et al., 2019; Liu et al., 2016; Xia et al., 2020). However, another study demonstrated that unstimulated and stimulated TM3 cells produced a low amount of testosterone and a high amount of progesterone, suggesting that TM3 cells are unsuitable for studying the gonadal androgen biosynthesis due to altered steroidogenic pathways (Engeli, Fürstenberger, Kratschmar, & Odermatt, 2018). However, the effect of MO on progesterone levels in the TM3 cells was not included in this present study.…”

Section: Discussionmentioning

confidence: 99%

Androgenic effect of aqueous leaf extract of Moringa oleifera on Leydig TM3 cells in vitro

et al. 2020

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Moringa oleifera (MO) is an excellent source of dietary antioxidant. MO is used traditionally to enhance libido and as an aphrodisiac in the treatment of sexual dysfunction. This study aimed to investigate the direct effect of aqueous leaf extract of MO on Leydig cell in vitro. Specifically, the effect of MO on viability, testosterone production, antioxidant activity and lipid peroxidation on TM3 cells were evaluated. TM3 cells seeded for 24 hr were exposed to aqueous leaf extract of MO (0, 10, 50, 100, 250, 500 and 1,000 µg/ml) for 24 hr, in the absence or presence of human chorionic gonadotropin (hCG; 6 mIU/200 µl). Cell viability remained unchanged while testosterone production significantly increased at 500 and 1,000 µg/ml of the extract under stimulatory conditions by 34 and 45% respectively. Glutathione level substantially increased at 250 µg/ml, while lipid peroxidation, catalase and superoxide dismutase activity, and total antioxidant capacity remained unchanged. Our results demonstrate the androgenic effect of MO especially at high concentrations in TM3 cells. The androgenic effect may be attributed to its antioxidant enzyme activities.

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“…Contrary to primary Leydig cells, MA-10 cells proliferate and contain an aberrant chromosome number [ 32 ]. Despite these issues, MA-10 cells nonetheless respond to hormonal stimulation, like primary Leydig cells, with an increase in steroid hormone production [ 30 , 33 , 34 , 35 , 36 ], indicating that the signalling cascades, kinases, and transcription factors required for this response are present in MA-10 Leydig cells. More relevant to our current work, MA-10 Leydig cells constitutively express Insl3 [ 13 , 19 , 22 , 23 , 27 , 37 , 38 , 39 ] and have been validated as a suitable model to study Insl3 gene transcription [ 27 ].…”

Section: Discussionmentioning

confidence: 99%

A 35-bp Conserved Region Is Crucial for Insl3 Promoter Activity in Mouse MA-10 Leydig Cells

Giner

Pierre

Robert

et al. 2022

IJMS

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The peptide hormone insulin-like 3 (INSL3) is produced almost exclusively by Leydig cells of the male gonad. INSL3 has several functions such as fetal testis descent and bone metabolism in adults. Insl3 gene expression in Leydig cells is not hormonally regulated but rather is constitutively expressed. The regulatory region of the Insl3 gene has been described in various species; moreover, functional studies have revealed that the Insl3 promoter is regulated by various transcription factors that include the nuclear receptors AR, NUR77, COUP-TFII, LRH1, and SF1, as well as the Krüppel-like factor KLF6. However, these transcription factors are also found in several tissues that do not express Insl3, indicating that other, yet unidentified factors, must be involved to drive Insl3 expression specifically in Leydig cells. Through a fine functional promoter analysis, we have identified a 35-bp region that is responsible for conferring 70% of the activity of the mouse Insl3 promoter in Leydig cells. All tri- and dinucleotide mutations introduced dramatically reduced Insl3 promoter activity, indicating that the entire 35-bp sequence is required. Nuclear proteins from MA-10 Leydig cells bound specifically to the 35-bp region. The 35-bp sequence contains GC- and GA-rich motifs as well as potential binding elements for members of the CREB, C/EBP, AP1, AP2, and NF-κB families. The Insl3 promoter was indeed activated 2-fold by NF-κB p50 but not by other transcription factors tested. These results help to further define the regulation of Insl3 gene transcription in Leydig cells.

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Currently available murine Leydig cell lines can be applied to study early steps of steroidogenesis but not testosterone synthesis

Cited by 26 publications

References 56 publications

A Testis-Specific Long Noncoding RNA, Start, Is a Regulator of Steroidogenesis in Mouse Leydig Cells

A Testis-Specific Long Noncoding RNA, Start, Is a Regulator of Steroidogenesis in Mouse Leydig Cells

Androgenic effect of aqueous leaf extract of Moringa oleifera on Leydig TM3 cells in vitro

A 35-bp Conserved Region Is Crucial for Insl3 Promoter Activity in Mouse MA-10 Leydig Cells

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