Mice expressing a dominant-negative Ret mutation phenocopy human Hirschsprung disease and delineate a direct role of Ret in spermatogenesis

Jain, Sanjay; Naughton, Cathy K.; Yang, Minji; Strickland, Amy; Vij, Kiran; Encinas, Mario; Golden, Judith P.; Gupta, Akshay; Heuckeroth, Robert O.; Johnson, Eugene M.; Milbrandt, Jeffrey

doi:10.1242/dev.01421

Cited by 117 publications

(122 citation statements)

References 52 publications

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“…Transgenic mice expressing a dominant-negative c-Ret mutation have normal testes on the day of birth. However, by post-natal day 10, mutant c-Ret mice have fewer germ cells, a phenotype similar to that observed in Taf4b-null males (Jain et al 2004). The observed deficiency of c-Ret in Taf4b-null males coupled with the evidence that GDNF signaling is important to germ cell stem cell function directly implicates a role for TAF4b in these germ cell stem cells.…”

Section: Genes and Development 799supporting

confidence: 57%

Maintenance of spermatogenesis requires TAF4b, a gonad-specific subunit of TFIID

Falender¹,

Freiman²,

Geles³

et al. 2005

Genes Dev.

208

188

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The establishment and maintenance of spermatogenesis in mammals requires specialized networks of gene expression programs in the testis. The gonad-specific TAF4b component of TFIID (formerly TAF II 105) is a transcriptional regulator enriched in the mouse testis. Herein we show that TAF4b is required for maintenance of spermatogenesis in the mouse. While young Taf4b-null males are initially fertile, Taf4b-null males become infertile by 3 mo of age and eventually exhibit seminiferous tubules devoid of germ cells. At birth, testes of Taf4b-null males appear histologically normal; however, at post-natal day 3 gonocyte proliferation is impaired and expression of spermatogonial stem cell markers c-Ret, Plzf, and Stra8 is reduced. Together, these data indicate that TAF4b is required for the precise expression of gene products essential for germ cell proliferation and suggest that TAF4b may be required for the regulation of spermatogonial stem cell specification and proliferation that is obligatory for normal spermatogenic maintenance in the adult. Spermatogenesis is a complex process requiring the specialized function of multiple cell types including somatic and germ cells that collectively results in the continuous production of functional sperm in adult males. The unlimited production of male gametes is largely accomplished through the ability of spermatogonial stem cells to self-renew in the adult testis. These complex and multifaceted events are dependent on appropriate expression and action of specific genes at multiple stages of germ cell and testicular development (Matzuk and Lamb 2002;McLaren 2003). The precise temporal and spatial expression of specific transcription factors is also essential for proper execution of spermatogenesis (SassoneCorsi 1997). Emerging evidence now suggests that in addition to gonad-specific transcription factors, specialized components of the basal RNA Polymerase II machinery are also critical for the execution of gonad-specific programs of gene expression (Hochheimer and Tjian 2003).The TFIID complex is a core RNA polymerase complex that contains the TATA-binding protein (TBP) and 14 TBP-associated factors (TAFs) that function in core promoter recognition and activator-dependent RNA Polymerase II recruitment (Verrijzer and Tjian 1996). While most TFIID subunits are expressed and function broadly in most cell types, there are selective TFIID subunits that apparently have evolved to function in the specification of gonadal-specific programs of gene expression. In the mouse, TAF4b is a component of TFIID that is highly enriched in gonadal tissues and is required for ovarian follicle development (Freiman et al. 2001). TAF4b is similar in structure to its broadly expressed paralog TAF4 (TAF II 130). While TAF4 and TAF4b display overlapping expression patterns in certain cell types, TAF4b is essential for regulating the selective expression of ovarian-specific gene expression patterns required for female fertility (Freiman et al. 2001).Several other members of the basal transcription mac...

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Section: Genes and Development 799supporting

confidence: 57%

Maintenance of spermatogenesis requires TAF4b, a gonad-specific subunit of TFIID

Falender¹,

Freiman²,

Geles³

et al. 2005

Genes Dev.

208

188

View full text Add to dashboard Cite

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“…20 The question of a sperm-specific fitness explaining the parental transmission asymmetry, that is, a selective advantage for spermatozoids not carrying a RET CDS mutation, could also be raised, as the RET gene is known to play a crucial role in early spermatogenesis. 21 However, a selective advantage, 22 and not disadvantage, has been described for spermatogonia carrying a RET mutation.…”

Section: Discussionmentioning

confidence: 99%

Male and female differential reproductive rate could explain parental transmission asymmetry of mutation origin in Hirschsprung disease

et al. 2012

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Hirschsprung disease (HSCR, aganglionic megacolon) is a complex and heterogeneous disease with an incidence of 1 in 5000 live births. Despite the multifactorial determination of HSCR in the vast majority of cases, there is a monogenic subgroup for which private rare RET coding sequence mutations with high penetrance are found (45% of HSCR familial cases). An asymmetrical parental origin is observed for RET coding sequence mutations with a higher maternal inheritance. A parent-oforigin effect is usually assumed. Here we show that a differential reproductive rate for males and females also leads to an asymmetrical parental origin, which was never considered as a possible explanation till now. In the case of HSCR, we show a positive association between penetrance of the mutation and parental transmission asymmetry: no parental transmission asymmetry is observed in sporadic RET CDS mutation carrier cases for which penetrance of the mutation is low, whereas a parental transmission asymmetry is observed in affected sib-pairs for which penetrance of the mutation is higher. This allows us to conclude that the explanation for this parental asymmetry is that more severe mutations have resulted in a differential reproductive rate between male and female carriers.

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“…or through other genes encompasses majority if not all of CAKUT phenotypes. Parts of this figure are adapted from Jain et al 40,42 with permission.…”

Section: Resultsmentioning

confidence: 99%

“…Scale bar = 5 mm in top row, and 600 μm in bottom row. The figure is adapted from Jain et al 40 with permission.…”

Section: Gdnf Gfrα1 Ret Signaling In the Lower Urinary Tractmentioning

confidence: 99%

“…However, additional studies during mesonephric and early metanephric kidney development will likely provide insights into the developmental basis for these results including defining whether UB sprouts from the right position, and problems associated with mesonephros degeneration, insertion of WD into cloaca and and activate PI3K/MAPK pathway). 40 This mouse presents with varying degrees of abnormal kidneys including bilateral hypoplasia, unilateral hypoplasia and unilateral agenesis (Fig. 3).…”

Section: Genetic Interactions Of Ret Signaling Complexes That Influenmentioning

confidence: 99%

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The many faces of RET dysfunction in kidney

Jain¹

2009

Organogenesis

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Mice expressing a dominant-negative Ret mutation phenocopy human Hirschsprung disease and delineate a direct role of Ret in spermatogenesis

Cited by 117 publications

References 52 publications

Maintenance of spermatogenesis requires TAF4b, a gonad-specific subunit of TFIID

Maintenance of spermatogenesis requires TAF4b, a gonad-specific subunit of TFIID

Male and female differential reproductive rate could explain parental transmission asymmetry of mutation origin in Hirschsprung disease

The many faces of RET dysfunction in kidney

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