TIF1β association with HP1 is essential for post-gastrulation development, but not for Sertoli cell functions during spermatogenesis
Male
Génétique du développement
Knock-in
Mouse
nuclear organization
Chromosomal Proteins, Non-Histone
Embryonic Development
Tripartite Motif-Containing Protein 28
576
Mice
03 medical and health sciences
616
[SDV.BDD] Life Sciences [q-bio]/Development Biology
Animals
embryonic fertility
Spermatogenesis
[SDV.BDD]Life Sciences [q-bio]/Development Biology
Molecular Biology
TIF1β/KAP-1/TRIM28
Homeodomain Proteins
Nuclear organization
0303 health sciences
Sertoli Cells
HP1
hp1
souris transgénique
Cell Cycle
Gastrulation
Biologie moléculaire
Nuclear Proteins
Cell Biology
Nanog Homeobox Protein
Chromatin
tif1beta
knock in
Embryonic lethality
Mice, Inbred C57BL
Repressor Proteins
Chromobox Protein Homolog 5
Biologie cellulaire
Female
Octamer Transcription Factor-3
Developmental Biology
DOI:
10.1016/j.ydbio.2010.12.014
Publication Date:
2010-12-15T09:17:00Z
AUTHORS (7)
ABSTRACT
TIF1β is an essential mammalian transcriptional corepressor. It interacts with the heterochromatin proteins HP1 through a highly conserved motif, the HP1box, and we have previously shown that this interaction is essential for the differentiation of F9 cells to occur. Here we address the in vivo functions of the TIF1β-HP1 interaction, by generating mice in which the TIF1β HP1box is mutated, leading to the loss of TIF1β interaction with HP1. The effects of the mutation were monitored in two instances, where TIF1β is known to play key roles: early embryonic development and spermatogenesis. We find that mutating the HP1box of TIF1β disrupts embryonic development soon after gastrulation. This effect is likely caused by the misexpression of TIF1β targets that regulate mitotic progression and pluripotency. In contrast, in Sertoli cells, we found that the absence of TIF1β but not its mutation in the HP1box leads to a clear defect of spermatogenesis characterized by a failure of spermatid release and a testicular degeneration. These data show that the interaction between TIF1β and HP1 is essential for some but not all TIF1β functions in vivo. Furthermore, we observed that TIF1β is dispersed through the nucleoplasm of E7.0 embryos, whereas it is mainly associated with pericentromeric heterochromatin of E8.5 embryos and of Sertoli cells, an association that is lost upon TIF1β HP1box mutation. Altogether, these data provide strong evidence that nuclear organization plays key roles during early embryonic development.
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CITATIONS (22)
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