ALBERT

Beschreibung: Yap1 and its paralogue Taz largely control epithelial tissue growth. We have identified that hematopoietic stem cell (HSC) fitness response to stress depends on Yap1 and Taz. Deletion of Yap1 and Taz induces a loss of HSC quiescence, symmetric self-renewal ability, and renders HSC more vulnerable to serial myeloablative 5-fluorouracil treatment. This effect depends on the predominant cytosolic polarization of Yap1 through a PDZ domain-mediated interaction with the scaffold Scribble. Scribble and Yap1 coordinate to control cytoplasmic Cdc42 activity and HSC fate determination in vivo. Deletion of Scribble disrupts Yap1 copolarization with Cdc42 and decreases Cdc42 activity, resulting in increased self-renewing HSC with competitive reconstitution advantages. These data suggest that Scribble/Yap1 copolarization is indispensable for Cdc42-dependent activity on HSC asymmetric division and fate. The combined loss of Scribble, Yap1, and Taz results in transcriptional upregulation of Rac-specific guanine nucleotide exchange factors, Rac activation, and HSC fitness restoration. Scribble links Cdc42 and the cytosolic functions of the Hippo signaling cascade in HSC fate determination.

Beschreibung: Despite the introduction of tyrosine kinase inhibitor and CAR-T cell therapies, the prognosis for Ph+ and Ph-like acute lymphoblastic leukemia remains poor. In the present study, we show the role of the Scribble protein in both lymphoid and myeloid leukemogenesis. The polarity protein Scribble is a member of the basal polarity complex, which is down-regulated in many cancers, suggesting a possible tumor suppressor role, especially in so-called cancer initiating cells. Its effect and mechanisms of activity in leukemic cell fate along with its potential activity on leukemic initiating cells have only been recently started to elucidated. Using interferon-responsive inducible (Mx1-Cre) Scribble-deficient mice, we have characterized the role of Scribble in both retroviral transduction, transplantation animal models and binary, inducible stem cell initiated (Scl-tTA/TRE-BCR-ABL) serial propagation models of BCR-ABL induced leukemia. We found that Scribble expression is upregulated at both transcriptional and translational levels in p210- or p190-BCR-ABL induced leukemic progenitors. In vitro, leukemic colony formation was impaired in Scribble deficient leukemic progenitors (~48% reduction; p≤ 0.05, compared to Wt leukemic progenitors) demonstrating that Scribble is important for leukemogenesis. In vivo, the deletion of Scribble abrogates the development of myeloproliferative disease induced by p210-BCR-ABL (median survival: 70 vs 47 days in Scribble deficient and Wt chimeric mice, respectively; p≤0.05); and significantly impairs B-cell lymphoid leukemogenesis induced by p190-BCR-ABL (median survival: 80 vs 60 days for Scribble deficient and Wt chimeric animals, respectively). Mechanistically, BCR-ABL activates the apical polarity regulator Cdc42 in leukemic progenitors and this activation is inhibited by the deficiency of Scribble. The deficiency of Cdc42 does not impair leukemogenesis but the combined deficiency of Cdc42 and Scribble restores the in vivo survival (median survival: 47 days, p≤0.01 compared to Scribble deficient mice) in chimeric p190-BCR-ABL+ leukemic mice to levels similar to wild-type leukemic cells. These data indicate that Scribble-deficient leukemogenesis is dependent on oncogene induced Cdc42 activity in lymphoid progenitors. Furthermore, Scribble deficiency in leukemic progenitors increases the activation of the AMPK/mTORC1 signaling pathway and the protein expression and transcriptional activity of its downstream effector hypoxia-inducing factor-1α (HIF-1α). HIF-1α silencing by constitutive shRNA expression or inducible deletion in Scribble deleted B-lymphoid leukemic cells restored leukemic progenitor clonogenic efficiency (CFU average: 52 vs 110 per 1,000 B220+/EGFP+ BM cells, in Scribble and double Scribble/HIF-1α deficient, respectively; p≤0.01) and B-lymphoid leukemogenesis in vivo (median survival of 62 days; p≤0.05 compared with Scribble deficient chimeric animals). In addition, double deficiency of Scribble and HIF-1α restored AMPK/mTORC1 signaling to Wt leukemic levels. This data indicates that Scribble is a negative regulator of HIF-1α expression and activity, and the restoration of HIF-1α expression and activity to normal leukemic levels is necessary to restore leukemogenesis. Altogether, our data indicates that Scribble is a positive regulator of oncogenesis in leukemic progenitors, in vitro and in vivo, through Cdc42 and HIF-1α activities. Disclosures No relevant conflicts of interest to declare.

Beschreibung: In the bone marrow (BM), hematopoietic stem cells and progenitors (HSC/P) reside in specific anatomical niches. Among these niches, a functional osteoblast (Ob)-macrophage (MΦ) niche has been described where Ob and MΦ (so called "osteomacs") are in direct relationship. A connection between innate immunity surveillance and traffic of hematopoietic stem cells/progenitors (HSC/P) has been demonstrated but the regulatory signals that instruct immune regulation from MΦ and Ob on HSC/P circulation are unknown. The adaptor protein sequestosome 1 (Sqstm1), contains a Phox bemp1 (PB1) domain which regulates signal specificities through PB1-PB1 scaffolding and processes of autophagy. Using microenvironment and osteoblast-specific mice deficient in Sqstm1, we discovered that the deficiency of Sqstm1 results in macrophage contact-dependent activation of Ob IKK/NF-κB, in vitro and in vivo repression of Ccl4 (a CCR5 binding chemokine that has been shown to modulate microenvironment Cxcl12-mediated responses of HSC/P), HSC/P egress and deficient BM homing of wild-type HSC/P. Interestingly, while Ccl4 expression is practically undetectable in wild-type or Sqstm1-/- Ob, primary Ob co-cultured with wild-type BM-derived MΦ strongly upregulate Ccl4 expression, which returns to normal levels upon genetic deletion of Ob Sqstm1. We discovered that MΦ can activate an inflammatory pathway in wild-type Ob which include upregulation of activated focal adhesion kinase (p-FAK), IκB kinase (IKK), nuclear factor (NF)-κB and Ccl4 expression through direct cell-to-cell interaction. Sqstm1-/- Ob cocultured with MΦ strongly upregulated p-IKBα and NF-κB activity, downregulated Ccl4 expression and secretion and repressed osteogenesis. Forced expression of Sqstm1, but not of an oligomerization-deficient mutant, in Sqstm1-/- Ob restored normal levels of p-IKBα, NF-κB activity, Ccl4 expression and osteogenic differentiation, indicating that Sqstm1 dependent Ccl4 expression depends on localization to the autophagosome formation site. Finally, Ob Sqstm1 deficiency results in upregulation of Nbr1, a protein containing a PB1 interacting domain. Combined deficiency of Sqstm1 and Nbr1 rescues all in vivo and in vitro phenotypes of Sqstm1 deficiency related to osteogenesis and HSC/P egression in vivo. Together, this data indicated that Sqstm1 oligomerization and functional repression of its PB1 binding partner Nbr1 are required for Ob dependent Ccl4 production and HSC/P retention, resulting in a functional signaling network affecting at least three cell types. A functional ‘MΦ-Ob niche’ is required for HSC/P retention where Ob Sqstm1 is a negative regulator of MΦ dependent Ob NF-κB activation, Ob differentiation and BM HSC/P traffic to circulation. Disclosures Starczynowski: Celgene: Research Funding. Cancelas:Cerus Co: Research Funding; P2D Inc: Employment; Terumo BCT: Research Funding; Haemonetics Inc: Research Funding; MacoPharma LLC: Research Funding; Therapure Inc.: Consultancy, Research Funding; Biomedical Excellence for Safer Transfusion: Research Funding; New Health Sciences Inc: Consultancy.

Beschreibung: Search of molecular targets to expand functional hematopoietic stem cells (HSC) for transplantation and hematological cancer therapy remains paramount, particularly when manipulation of cellular quiescence is required. HSC are highly quiescent cells with the ability to rapidly enter the cell cycle in response to microenvironment cues and divide through changes in their polarity. Despite cellular polarity being one of the most basic properties of all living cells, the role that polarity regulators have on polarization and function of HSC remains controversial. Scribble, of the Scribble Polarity Complex, controls the spatial organization of intracellular proteins and negatively regulates the cell cycle. By using a combination of constitutive and inducible hematopoietic-specific Scribble-deficient animal models, hematopoietic reconstitution assays, structure-function mutants of Scribble and intracellular protein trafficking analysis, we identified the functional relevance of Scribble in HSC activity. We observed that Scribble is polarized in HSC and deletion of Scribble leads to a ~ 50% reduction in the bone marrow (BM) HSC population (p