Two enhancers and one silencer located in the introns of regA control somatic cell differentiation in Volvox carteri

The interaction between germ cell and somatic cell plays important roles in germ cell development. However, the exact function of gonad somatic cell in germ cell differentiation is unclear. In the present study, the function of gonad somatic cell in germ cell meiosis was examined by using mouse models with aberrant somatic cell differentiation. In Wt1R394W/R394W mice, the genital ridge is absent due to the apoptosis of coelomic epithelial cells. Interestingly, in both male and female Wt1R394W/R394W germ cells, STRA8 was detected at E12.5 and the scattered SYCP3 foci were observed at E13.5 which was consistent with control females. In Wt1-/flox; Cre-ERTM mice, Wt1 was inactivated by the injection of tamoxifen at E9.5 and the differentiation of Sertoli and granulosa cells was completely blocked. We found that most germ cells were located outside of genital ridge after Wt1 inactivation. STRA8, SYCP3, and γH2AX proteins were detected in germ cells of both male and female Wt1-/flox; Cre-ERTM gonads, whereas no thread-like SYCP3 signal was observed. Our study demonstrates that aberrant development of gonad somatic cells leads to ectopic expression of meiosis-associated genes in germ cells, but meiosis was arrested before prophase I. These results suggest that the proper differentiation of gonad somatic cells is essential for germ cell meiosis.

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Tissue-specific DNA demethylation is required for proper B-cell differentiation and function

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1604365113 ◽

2016 ◽

Vol 113 (18) ◽

pp. 5018-5023 ◽

Cited By ~ 51

Author(s):

Shari Orlanski ◽

Verena Labi ◽

Yitzhak Reizel ◽

Adam Spiro ◽

Michal Lichtenstein ◽

...

Keyword(s):

Cell Differentiation ◽

B Cell ◽

Somatic Cell ◽

Cell Development ◽

Dna Demethylation ◽

Conditional Knockout ◽

B Cell Differentiation ◽

Ample Evidence ◽

Tissue Specific ◽

And Function

There is ample evidence that somatic cell differentiation during development is accompanied by extensive DNA demethylation of specific sites that vary between cell types. Although the mechanism of this process has not yet been elucidated, it is likely to involve the conversion of 5mC to 5hmC by Tet enzymes. We show that a Tet2/Tet3 conditional knockout at early stages of B-cell development largely prevents lineage-specific programmed demethylation events. This lack of demethylation affects the expression of nearby B-cell lineage genes by impairing enhancer activity, thus causing defects in B-cell differentiation and function. Thus, tissue-specific DNA demethylation appears to be necessary for proper somatic cell development in vivo.

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Loss of Betaglycan Disrupts Somatic Cell Differentiation and Germ Cell Entry into Meiosis in the Fetal Mouse Ovary.

Biology of Reproduction ◽

10.1093/biolreprod/83.s1.178 ◽

2010 ◽

Vol 83 (Suppl_1) ◽

pp. 178-178

Author(s):

Mai A. Sarraj ◽

Ruth Escalona ◽

Alexandra Umbers ◽

Jock K. Findlay ◽

Kaye L. Stenvers

Keyword(s):

Cell Differentiation ◽

Germ Cell ◽

Somatic Cell ◽

Cell Entry ◽

Mouse Ovary ◽

Fetal Mouse

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TCPs, WUSs, and WINDs: families of transcription factors that regulate shoot meristem formation, stem cell maintenance, and somatic cell differentiation

Frontiers in Plant Science ◽

10.3389/fpls.2014.00427 ◽

2014 ◽

Vol 5 ◽

Cited By ~ 15

Author(s):

Miho Ikeda ◽

Masaru Ohme-Takagi

Keyword(s):

Stem Cell ◽

Transcription Factors ◽

Cell Differentiation ◽

Somatic Cell ◽

Shoot Meristem ◽

Stem Cell Maintenance ◽

Cell Maintenance

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Multiple Roles of p53-Related Pathways in Somatic Cell Reprogramming and Stem Cell Differentiation

Cancer Research ◽

10.1158/0008-5472.can-12-1451 ◽

2012 ◽

Vol 72 (21) ◽

pp. 5635-5645 ◽

Cited By ~ 52

Author(s):

Lan Yi ◽

Chiwei Lu ◽

Wenwei Hu ◽

Yvonne Sun ◽

Arnold J. Levine

Keyword(s):

Stem Cell ◽

Cell Differentiation ◽

Somatic Cell ◽

Stem Cell Differentiation ◽

Multiple Roles ◽

Cell Reprogramming ◽

Somatic Cell Reprogramming

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Self-organising human gonads generated by a Matrigel-based gradient system

BMC Biology ◽

10.1186/s12915-021-01149-3 ◽

2021 ◽

Vol 19 (1) ◽

Author(s):

Elizabeth Oliver ◽

João Pedro Alves-Lopes ◽

Femke Harteveld ◽

Rod T. Mitchell ◽

Elisabet Åkesson ◽

...

Keyword(s):

Cell Differentiation ◽

Germ Cell ◽

Somatic Cell ◽

Three Dimensional ◽

Cell Suspensions ◽

Testicular Development ◽

Female Gonad ◽

Gradient System ◽

Three Dimensional Culture

Abstract Background Advances in three-dimensional culture technologies have led to progression in systems used to model the gonadal microenvironment in vitro. Despite demonstrating basic functionality, tissue organisation is often limited. We have previously detailed a three-dimensional culture model termed the three-layer gradient system to generate rat testicular organoids in vitro. Here we extend the model to human first-trimester embryonic gonadal tissue. Results Testicular cell suspensions reorganised into testis-like organoids with distinct seminiferous-like cords situated within an interstitial environment after 7 days. In contrast, tissue reorganisation failed to occur when mesonephros, which promotes testicular development in vivo, was included in the tissue digest. Organoids generated from dissociated female gonad cell suspensions formed loosely organised cords after 7 days. In addition to displaying testis-specific architecture, testis-like organoids demonstrated evidence of somatic cell differentiation. Within the 3-LGS, we observed the onset of AMH expression in the cytoplasm of SOX9-positive Sertoli cells within reorganised testicular cords. Leydig cell differentiation and onset of steroidogenic capacity was also revealed in the 3-LGS through the expression of key steroidogenic enzymes StAR and CYP17A1 within the interstitial compartment. While the 3-LGS generates a somatic cell environment capable of supporting germ cell survival in ovarian organoids germ cell loss was observed in testicular organoids. Conclusion The 3-LGS can be used to generate organised whole gonadal organoids within 7 days. The 3-LGS brings a new opportunity to explore gonadal organogenesis and contributes to the development of more complex in vitro models in the field of developmental and regenerative medicine.

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SPERM BUNDLE-FEMALE SOMATIC CELL INTERACTION IN THE FERTILIZATION PROCESS OF VOLVOX CARTERI F. WEISMANNIA (CHLOROPHYTA)1

Journal of Phycology ◽

10.1111/j.0022-3646.1979.00247.x ◽

1979 ◽

Vol 15 (3) ◽

pp. 247-251 ◽

Cited By ~ 1

Author(s):

Steven J. Coggin ◽

William Hutt ◽

Gary Kochert

Keyword(s):

Somatic Cell ◽

Cell Interaction ◽

Volvox Carteri ◽

Fertilization Process ◽

Sperm Bundle

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S12-03 The cytolinker Pigs is a target and a negative regulator of Notch signalling during epithelial somatic cell differentiation in the Drosophila ovary

Mechanisms of Development ◽

10.1016/j.mod.2009.06.974 ◽

2009 ◽

Vol 126 ◽

pp. S12

Author(s):

Mary Pines ◽

Ben Housden ◽

Fred Bernard ◽

Sarah Bray ◽

Katja Röper

Keyword(s):

Cell Differentiation ◽

Somatic Cell ◽

Notch Signalling ◽

Negative Regulator ◽

Drosophila Ovary

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The Effects of Estrogen on the Expression of Genes Underlying the Differentiation of Somatic Cells in the Murine Gonad

Endocrinology ◽

10.1210/en.2003-1628 ◽

2004 ◽

Vol 145 (8) ◽

pp. 3950-3960 ◽

Cited By ~ 37

Author(s):

Kara L. Britt ◽

Peter G. Stanton ◽

Marie Misso ◽

Evan R. Simpson ◽

Jock K. Findlay

Keyword(s):

Cell Differentiation ◽

Somatic Cell ◽

X Chromosome ◽

Critical Region ◽

Leydig Cells ◽

Hydroxysteroid Dehydrogenase ◽

Sex Reversal ◽

Steroidogenic Factor 1 ◽

Chromosome Gene ◽

Adrenal Hypoplasia

Abstract Estrogen (17β-estradiol, E2)-deficient aromatase knockout (ArKO) mice develop Sertoli and Leydig cells at puberty. We hypothesized that estrogen, directly or indirectly, regulates genes responsible for somatic cell differentiation and steroidogenesis. ArKO ovaries expressed estrogen receptors α and β, and LH receptor, indices of estrogen responsiveness in the ovary. Wild-type (Wt) and ArKO mice received either E2 or placebo for 3 wk, from 7–10 wk of age. E2 decreased serum FSH and LH and increased uterine weights of 10-wk-old ArKO mice. We measured mRNA expression of Sertoli cell, Sry-like HMG box protein 9 (Sox9); three upstream transcription factors, liver receptor homolog-1 (Lrh-1), steroidogenic factor 1, and dosage-sensitive sex reversal adrenal hypoplasia congenital critical region on the X chromosome gene 1; and one downstream factor, Müllerian-inhibiting substance. Placebo-treated ArKO ovaries have increased Sox9 (15-fold; P < 0.001), Müllerian-inhibiting substance (2.9-fold), Lrh-1 (7.7-fold), and dosage-sensitive sex reversal adrenal hypoplasia congenital critical region on the X chromosome gene 1 (12-fold) expression compared with Wt at 10 wk. Steroidogenic factor 1 was similar to Wt. Consistent with increased serum T levels and Leydig cells in their ovaries, placebo-treated ArKO ovaries had increased 17α-hydroxylase, 17β-hydroxysteroid dehydrogenase type-3, and 17β-hydroxysteroid dehydrogenase type-1 expression compared with Wt at 10 wk. E2 treatment for 3 wk improved the ovarian phenotype, decreased development of Sertoli cells, decreased the expression of Sox9, Lrh-1, and the steroidogenic enzymes in ArKO ovaries, and induced ovulation in some cases. In conclusion, the expression of the genes regulating somatic cell differentiation is directly or indirectly responsive to estrogen.

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PIWI-mediated control of tissue-specific transposons is essential for somatic cell differentiation

Cell Reports ◽

10.1016/j.celrep.2021.109776 ◽

2021 ◽

Vol 37 (1) ◽

pp. 109776

Author(s):

Danyan Li ◽

David H. Taylor ◽

Josien C. van Wolfswinkel

Keyword(s):

Cell Differentiation ◽

Somatic Cell ◽

Tissue Specific

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