分子竞争驱使成体干细胞特性化
- 指点迷津
- 2024-11-30
- 5
Adult organisms ranging from fruit flies to humans harbor adult stem cells, some of which renew themselves through cell division while others
differentiate
1 into the
specialized
2 cells needed to replace worn-out or damaged organs and tissues. Understanding the
molecular
4
mechanisms
5 that control the balance between self-renewal and
differentiation
6 in adult stem cells is an important foundation for developing therapies to
regenerate
7 diseased, injured or
aged
3 tissue., ,In the current issue of the journal Nature, scientists at the Stowers Institute for Medical Research report that competition between two proteins, Bam and COP9, balances the self-renewal and differentiation functions of ovarian
germline(种系) stem cells (GSCs) in fruit flies (Drosophila melanogaster)., ,"Bam is the master differentiation factor in the Drosophila female GSC system," says Stowers
Investigator
9 Ting Xie, Ph.D., and senior author of the Nature paper. "In order to carry out the switch from self-renewal to differentiation, Bam must
inactivate
10 the functions of self-renewing factors as well as
activate
11 the functions of differentiation factors.", ,Bam, which is encoded by the
gene
8 with the unusual name of bag-of-marbles, is expressed at high levels in
differentiating
12 cells and very low levels in GSCs of fruit flies., ,Among the self-renewing factors targeted by Bam is the COP9 signalosome (CSN), an evolutionarily
conserved
13, multi-functional complex that contains eight protein sub-units (CSN1 to CSN8). Xie and his collaborators discovered that Bam and the COP9 sub-unit known as CSN4 have opposite functions in regulating the fate of GSCs in female fruit flies., ,Bam can switch COP9 function from self-renewal to differentiation by
sequestering14(使隔绝) and
antagonizing(起反作用) CSN4, Xie says. "Bam directly
binds
15 to CSN4, preventing its association with the seven other COP9
components
16 via protein competition," he adds. CSN4 is the only COP9 sub-unit that can interact with Bam., ,"This study has offered a novel way for Bam to carry out the switch from self-renewal to differentiation," says Xie, whose lab uses a combination of
genetic
17, molecular, genomic and cell biological approaches to investigate GSCs as well as
somatic(躯体的) stem cells of fruit flies., ,In the Nature paper, Xie's lab also reports that CSN4 is the only one of the eight sub-units that is not involved in the regulation of GSC differentiation of female fruit flies. "One possible explanation for the opposite effects of CSN4 and the other CSN proteins is that the sequestration of CSN4 by Bam allows the other CSN proteins to have differentiation-promoting functions," he says., ,"As a powerful model system for studying adult stem cells, Drosophila female GSCs have revealed many novel regulatory strategies which have been later confirmed to be generally true," adds Su Wang, a co-first author of the paper and also a graduate student in Department of
Anatomy
18 and Cell Biology at University of Kansas Medical Center., ,In their future studies, Xie says that he hopes to identify the molecular mechanisms that enable COP9 with CSN4 to promote GSC self-renewal and without CSN4 to enhance differentiation.
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