Abstract
Many adult stem cells reside in a special microenvironment known as the niche, where they receive essential signals that specify stem cell identity. Cell-cell adhesion mediated by cadherin and integrin plays a crucial role in maintaining stem cells within the niche. In Drosophila melanogaster, male germline stem cells (GSCs) are attached to niche component cells (i.e., the hub) via adherens junctions. The GSC centrosomes and spindle are oriented toward the hub-GSC junction, where E-cadherin-based adherens junctions are highly concentrated. For this reason, adherens junctions are thought to provide a polarity cue for GSCs to enable proper orientation of centrosomes and spindles, a critical step toward asymmetric stem cell division. However, understanding the role of E-cadherin in GSC polarity has been challenging, since GSCs carrying E-cadherin mutations are not maintained in the niche. Here, we tested whether E-cadherin is required for GSC polarity by expressing a dominant-negative form of E-cadherin. We found that E-cadherin is indeed required for polarizing GSCs toward the hub cells, an effect that may be mediated by Apc2. We also demonstrated that E-cadherin is required for the GSC centrosome orientation checkpoint, which prevents mitosis when centrosomes are not correctly oriented. We propose that E-cadherin orchestrates multiple aspects of stem cell behavior, including polarization of stem cells toward the stem cell-niche interface and adhesion of stem cells to the niche supporting cells.
Highlights
Many stem cells are known to reside in a special microenvironment known as the niche to maintain their identity [1]
We demonstrated that E-cadherin is important for polarization of germline stem cells (GSCs) within the niche, a function that has been masked by its requirement in GSC maintenance
We showed that expression of a dominant-negative form of E-cadherin (E-caddCR4h and E-caddCR3h) that is incapable of homotypic interactions due to a truncated extracellular domain results in a high frequency of centrosome misorientation
Summary
Many stem cells are known to reside in a special microenvironment known as the niche to maintain their identity [1]. In some model systems such as Drosophila melanogaster germline stem cells (GSCs), mitotic spindles are oriented toward the adherens junction formed between stem cells and the niche component [4,5,6]. This has led to speculation that the adherens junction might provide a polarity cue for spindle orientation. Such orientation leads to asymmetric stem cell division, with one daughter of the stem cell division staying within the niche and the other being displaced away from the niche. The E-cadherin/adherens junction was shown to be sufficient to polarize cells [10,11], though centrosomes were oriented away from the adherens junctions in these cases
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