Nonlinear Hysteretic Model of Giant Magnetostrictive Material Baesd on Inverse Magnetostritive Effect

Oxidative stress is related to ageing and degenerative diseases, including cancer. However, a moderate amount of reactive oxygen species (ROS) is required for the regulation of cellular signalling and gene expression. A low level of ROS is important for maintaining quiescence and the differentiation potential of haematopoietic stem cells (HSCs), whereas the level of ROS increases during haematopoietic differentiation; thus, suggesting the importance of redox signalling in haematopoiesis. Here, we will analyse the importance of ROS for haematopoiesis and include evidence showing that cells from leukaemia patients live under oxidative stress. The potential sources of ROS will be described. Finally, the level of oxidative stress in leukaemic cells can also be harnessed for therapeutic purposes. In this regard, the reliance of front-line anti-leukaemia chemotherapeutics on increased levels of ROS for their mechanism of action, as well as the active search for novel compounds that modulate the redox state of leukaemic cells, will be analysed.

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PTPN13 regulates cellular signalling and β-catenin function during megakaryocytic differentiation

Sardina

López-Ruano

Prieto-Bermejo

et al. 2014

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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PTPN13 is a high-molecular weight intracellular phosphatase with several isoforms that exhibits a highly modular structure. Although in recent years different roles have been described for PTPN13, we are still far from understanding its function in cell biology. Here we show that PTPN13 expression is activated during megakaryocytic differentiation at the protein and mRNA level. Our results show that the upregulation of PTPN13 inhibits megakaryocytic differentiation, while PTPN13 silencing triggers differentiation. The ability of PTPN13 to alter megakaryocytic differentiation can be explained by its capacity to regulate ERK and STAT signalling. Interestingly, the silencing of β-catenin produced the same effect as PTPN13 downregulation. We demonstrate that both proteins coimmunoprecipitate and colocalise. Moreover, we provide evidence showing that PTPN13 can regulate β-catenin phosphorylation, stability and transcriptional activity. Therefore, the ability of PTPN13 to control megakaryocytic differentiation must be intimately linked to the regulation of β-catenin function. Moreover, our results show for the first time that PTPN13 is stabilised upon Wnt signalling, which makes PTPN13 an important player in canonical Wnt signalling. Our results show that PTPN13 behaves as an important regulator of megakaryocytic differentiation in cell lines and also in murine haematopoietic progenitors. This importance can be explained by the ability of PTPN13 to regulate cellular signalling, and especially through the regulation of β-catenin stability and function. Our results hold true for different megakaryocytic cell lines and also for haematopoietic progenitors, suggesting that these two proteins may play a relevant role during in vivo megakaryopoiesis.

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<i>Cyba</i>-deficient mice display an increase in hematopoietic stem cells and an overproduction of immunoglobulins

et al. 2020

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The regulation of protein function by reversible oxidation is increasingly recognized as a key mechanism for the control of cellular signaling, modulating crucial biological processes such as cell differentiation. In this scenario, NADPH oxidases must occupy a prominent position. Our results show that hematopoietic stem and progenitor cells express three p22phox-dependent NADPH oxidases members (NOX1, NOX2 and NOX4). By deleting the p22phox coding gene (Cyba), here we have analyzed the importance of this family of enzymes during in vivo hematopoiesis. Cyba-/- mice show a myeloid bias, and an enrichment of hematopoietic stem cell populations. By means of hematopoietic transplant experiments we have also tried to dissect the specific role of the NADPH oxidases. While the absence of NOX1 or NOX2 provides a higher level of reconstitution, a lack of NOX4 rendered the opposite result, suggesting a functional specificity among the different NADPH oxidases. Cyba-/- cells showed a hampered activation of AKT1 and a sharp decrease in STAT5 protein. This is in line with the diminished response to IL-7 shown by our results, which could explain the overproduction of immunoglobulins observed in Cyba-/- mice.

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SHP1 and SHP2 inhibition enhances the pro-differentiative effect of phorbol esters: an alternative approach against acute myeloid leukemia

Pérez-Fernández

López-Ruano

Prieto-Bermejo

et al. 2019

J Exp Clin Cancer Res

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Background The differentiation-based therapy for acute promyelocytic leukemia (APL) is an inspiring example for the search of novel strategies aimed at treatment of other subtypes of acute myeloid leukemia (AML). Thus, the discovery of new molecular players in cell differentiation becomes a paramount research area to achieve this goal. Here, the involvement of the protein tyrosine phosphatases SHP1 and SHP2 on leukemic cells differentiation is shown, along with the therapeutic possibilities of their targeting to enhance the differentiation induction effect of phorbol esters. Methods The oxidation status and enzymatic activity of SHP1 and SHP2 during PMA-induced differentiation of HEL cells was evaluated. Additionally, the effects of RNAi-mediated downregulation of these phosphatases on cell differentiation was studied. Afterwards, the impact of chemical inhibition of SHP1 and SHP2 on differentiation both in the presence and absence of phorbol esters was tested. Finally, the anti-leukemic potential of phorbol esters and chemical inhibitors of SHP1 and SHP2 was addressed in several AML model cell lines, a xenograft mouse model and AML primary cells in vitro . Results An increase of oxidation with a concomitant decrease of activity was observed for both phosphatases at the onset of PMA-induced differentiation. Consistently, silencing of these proteins favored the process, with an enhanced effect upon their simultaneous downregulation. Moreover, the proteins SRC and β-catenin were identified as downstream targets of SHP1 and SHP2 in this context. In agreement with these findings, chemical inhibition of the phosphatases promoted cell differentiation itself and enhanced the effect of phorbol esters. Interestingly, treatment with the phorbol ester prostratin and the dual inhibitor of SHP1 and SHP2 NSC87877 synergistically hampered the proliferation of AML cell lines, prolonged the survival of xenografted mice and reduced the clonogenic potential of AML primary cells. Conclusions SHP1 and SHP2 are relevant mediators of differentiation in AML cells and their inhibition either alone or in combination with prostratin seems a promising differentiation-based therapeutic strategy against different subtypes of AML beyond APL. Electronic supplementary material The online version of this article (10.1186/s13046-019-1097-z) contains supplementary material, which is available to authorized users.

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The DARC-CD82 axis discloses bone marrow macrophages as guardians of long-term hematopoietic stem cells quiescence

Pérez-Fernández

Hernández‐Hernández

2016

Stem Cell Investig.

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Pf240 Combined Inhibition of Shp1 and Shp2 With Phorbol Esters as a Differentiation Therapy Against Acute Myeloid Leukemia

et al. 2019

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Background: Mixed Lineage Leukemia (MLL) is an aggressive form of acute leukemia caused by chromosomal translocation involving the MLL gene at locus 11q23. Despite novel therapeutic approaches, there are no efficient targets for MLL treatments and patients present a very poor prognosis. PP2A is a serine-threonine phosphatase that downregulates crucial target proteins such as Akt, Erk, and c-Myc, responsible for proliferation and survival of MLL leukemic cells. De-regulation of PP2A is a recurring event in many cancers. SET is an endogenous binding partner of PP2A mostly localised in the nucleus. In many diseases including cancer, PP2A inactivation is attributed to cytoplasmic accumulation of SET which inhibits PP2A through direct interaction with PP2A catalytic subunit.

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Nucleoredoxin Downregulation Reduces β-Catenin Levels and Shifts Hematopoietic Differentiation towards Myeloid Lineage In Vitro

Pérez-Fernández

López-Ruano

Prieto-Bermejo

et al. 2021

BioChem

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The importance of dissecting signaling pathways governing cell differentiation is based on their relevance not only for understanding basic biological phenomena but also for better comprehending the underlying mechanisms of pathologic alterations such as cancer. A paradigm of cell differentiation processes is hematopoiesis, where a single stem cell gives rise to multiple, fully differentiated, cell lineages. Nucleoredoxin (Nrx), a member of the thioredoxin family, is an important redox-sensitive modulator of Wnt/β-catenin signaling, a key pathway for the control of hematopoiesis. In this work, the relevance of Nrx for the differentiation of mouse hematopoietic progenitor cells has been analyzed in vitro. Nrx silencing leads to a dramatic reduction in the size of the Lin− and LSK progenitor populations. Moreover, there is also a remarkable decrease in CD3+ cells and an enhancement in the percentage of CD11b+Gr1− myeloid cells. This myeloid bias would agree with the inhibition of the Wnt/β-catenin pathway. Interestingly, a reduction in β-catenin at the protein level was observed upon Nrx silencing. Our results strongly support the importance of Nrx for hematopoietic differentiation, which could be mediated by the regulation of the Wnt/β-catenin pathway.

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Alejandro Pérez-Fernández

Reactive oxygen species in haematopoiesis: leukaemic cells take a walk on the wild side

PTPN13 regulates cellular signalling and β-catenin function during megakaryocytic differentiation

<i>Cyba</i>-deficient mice display an increase in hematopoietic stem cells and an overproduction of immunoglobulins

SHP1 and SHP2 inhibition enhances the pro-differentiative effect of phorbol esters: an alternative approach against acute myeloid leukemia

The DARC-CD82 axis discloses bone marrow macrophages as guardians of long-term hematopoietic stem cells quiescence

Pf240 Combined Inhibition of Shp1 and Shp2 With Phorbol Esters as a Differentiation Therapy Against Acute Myeloid Leukemia

Nucleoredoxin Downregulation Reduces β-Catenin Levels and Shifts Hematopoietic Differentiation towards Myeloid Lineage In Vitro

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