TY - JOUR
T1 - TGF-β–induced intracellular PAI-1 is responsible for retaining hematopoietic stem cells in the niche
AU - Yahata, Takashi
AU - Ibrahim, Abd Aziz
AU - Muguruma, Yukari
AU - Eren, Mesut
AU - Shaffer, Alexander M.
AU - Watanabe, Nobuo
AU - Kaneko, Satoko
AU - Nakabayashi, Tetsuo
AU - Dan, Takashi
AU - Hirayama, Noriaki
AU - Vaughan, Douglas E.
AU - Miyata, Toshio
AU - Ando, Kiyoshi
N1 - Publisher Copyright:
© 2017 by The American Society of Hematology.
PY - 2017/11/23
Y1 - 2017/11/23
N2 - Hematopoietic stem and progenitor cells (HSPCs) reside in the supportive stromal niche in bone marrow (BM); when needed, however, they are rapidly mobilized into the circulation, suggesting that HSPCs are intrinsically highly motile but usually stay in the niche. We questioned what determines the motility of HSPCs. Here, we show that transforming growth factor (TGF)-b–induced intracellular plasminogen activator inhibitor (PAI)-1 activation is responsible for keeping HSPCs in the BM niche. We found that the expression of PAI-1, a downstream target of TGF-b signaling, was selectively augmented in niche-residing HSPCs. Functional inhibition of the TGF-b2PAI-1 signal increased MT1-MMP–dependent cellular motility, causing a detachment of HSPCs from the TGF-b–expressing niche cells, such as megakaryocytes. Furthermore, consistently high motility in PAI-1–deficient HSPCs was demonstrated by both a transwell migration assay and reciprocal transplantation experiments, indicating that intracellular, not extracellular, PAI-1 suppresses the motility of HSPCs, thereby causing them to stay in the niche. Mechanistically, intracellular PAI-1 inhibited the proteolytic activity of proprotein convertase Furin, diminishing MT1-MMP activity. This reduced expression of MT1-MMP in turn affected the expression levels of several adhesion/deadhesion molecules for determination of HSPC localization, such as CD44, VLA-4, and CXCR4, which then promoted the retention of HSPCs in the niche. Our findings open up a new field for the study of intracellular proteolysis as a regulatory mechanism of stem cell fate, which has the potential to improve clinical HSPC mobilization and transplantation protocols.
AB - Hematopoietic stem and progenitor cells (HSPCs) reside in the supportive stromal niche in bone marrow (BM); when needed, however, they are rapidly mobilized into the circulation, suggesting that HSPCs are intrinsically highly motile but usually stay in the niche. We questioned what determines the motility of HSPCs. Here, we show that transforming growth factor (TGF)-b–induced intracellular plasminogen activator inhibitor (PAI)-1 activation is responsible for keeping HSPCs in the BM niche. We found that the expression of PAI-1, a downstream target of TGF-b signaling, was selectively augmented in niche-residing HSPCs. Functional inhibition of the TGF-b2PAI-1 signal increased MT1-MMP–dependent cellular motility, causing a detachment of HSPCs from the TGF-b–expressing niche cells, such as megakaryocytes. Furthermore, consistently high motility in PAI-1–deficient HSPCs was demonstrated by both a transwell migration assay and reciprocal transplantation experiments, indicating that intracellular, not extracellular, PAI-1 suppresses the motility of HSPCs, thereby causing them to stay in the niche. Mechanistically, intracellular PAI-1 inhibited the proteolytic activity of proprotein convertase Furin, diminishing MT1-MMP activity. This reduced expression of MT1-MMP in turn affected the expression levels of several adhesion/deadhesion molecules for determination of HSPC localization, such as CD44, VLA-4, and CXCR4, which then promoted the retention of HSPCs in the niche. Our findings open up a new field for the study of intracellular proteolysis as a regulatory mechanism of stem cell fate, which has the potential to improve clinical HSPC mobilization and transplantation protocols.
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U2 - 10.1182/blood-2017-02-767384
DO - 10.1182/blood-2017-02-767384
M3 - Article
C2 - 28821477
AN - SCOPUS:85034854002
SN - 0006-4971
VL - 130
SP - 2283
EP - 2294
JO - Blood
JF - Blood
IS - 21
ER -