Barbara Szewczyk scite author profile

Rhabdomyosarcoma (RMS) is a mesenchymal tumor of soft tissue in children that originates from a myogenic differentiation defect. Expression of SNAIL transcription factor is elevated in the alveolar subtype of RMS (ARMS), characterized by a low myogenic differentiation status and high aggressiveness. In RMS patients SNAIL level increases with higher stage. Moreover, SNAIL level negatively correlates with MYF5 expression. The differentiation of human ARMS cells diminishes SNAIL level. SNAIL silencing in ARMS cells inhibits proliferation and induces differentiation in vitro, and thereby completely abolishes the growth of human ARMS xenotransplants in vivo. SNAIL silencing induces myogenic differentiation by upregulation of myogenic factors and muscle-specific microRNAs, such as miR-206. SNAIL binds to the MYF5 promoter suppressing its expression. SNAIL displaces MYOD from E-box sequences (CANNTG) that are associated with genes expressed during differentiation and G/C rich in their central dinucleotides. SNAIL silencing allows the re-expression of MYF5 and canonical MYOD binding, promoting ARMS cell myogenic differentiation. In differentiating ARMS cells SNAIL forms repressive complex with histone deacetylates 1 and 2 (HDAC1/2) and regulates their expression. Accordingly, in human myoblasts SNAIL silencing induces differentiation by upregulation of myogenic factors. Our data clearly point to SNAIL as a key regulator of myogenic differentiation and a new promising target for future ARMS therapies.

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Constitutive activation of MET signaling impairs myogenic differentiation of rhabdomyosarcoma and promotes its development and progression

Skrzypek

Kusienicka

Szewczyk

et al. 2015

Oncotarget

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Rhabdomyosarcoma (RMS) is a soft tissue sarcoma, which may originate from impaired differentiation of mesenchymal stem cells (MSC). Expression of MET receptor is elevated in alveolar RMS subtype (ARMS) which is associated with worse prognosis, compared to embryonal RMS (ERMS). Forced differentiation of ARMS cells diminishes MET level and, as shown previously, MET silencing induces differentiation of ARMS. In ERMS cells introduction of TPR-MET oncogene leads to an uncontrolled overstimulation of the MET receptor downstream signaling pathways. In vivo, tumors formed by those cells in NOD-SCID mice display inhibited differentiation, enhanced proliferation, diminished apoptosis and increased infiltration of neutrophils. Consequently, tumors grow significantly faster and they display enhanced ability to metastasize to lungs and to vascularize due to elevated VEGF, MMP9 and miR-378 expression. In vitro, TPR-MET ERMS cells display enhanced migration, chemotaxis and invasion toward HGF and SDF-1. Introduction of TPR-MET into MSC increases survival and may induce expression of early myogenic factors depending on the genetic background, and it blocks terminal differentiation of skeletal myoblasts. To conclude, our results suggest that activation of MET signaling may cause defects in myogenic differentiation leading to rhabdomyosarcoma development and progression.

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FUS ALS neurons activate major stress pathways and reduce translation as an early protective mechanism against neurodegeneration

Szewczyk¹,

Günther²,

Japtok³

et al. 2023

Cell Reports

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Targeting MET Receptor in Rhabdomyosarcoma: Rationale and Progress

Szewczyk¹,

Skrzypek²,

Majka

2016

CDT

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MET is a tyrosine kinase receptor, which binds hepatocyte growth factor (HGF). It regulates many physiological processes and participates in the regulation of proliferation, differentiation and motility of various cells. It plays an important role in embryogenesis as well as in adult life. Aberrations within the regulatory pathways activated by MET can be one of the causes of tumor development. Recently novel important functions of MET signaling in tumor development have been described, such as maintenance of cancer stem cells or importance of endosomal localization of MET. Moreover, MET is considered as one of the important factors responsible for development of rhabdomyosarcoma (RMS), a soft tissue sarcoma related to myogenic lineage. Its origin remains debatable but it is suggested that it derives from defect in differentiation of the satellite cells or of the mesenchymal stem cells. In RMS MET downregulation induces differentiation of tumor cells and in consequence, metastatic potential of RMS cells is diminished. Therefore, blocking of MET may be clinically useful in novel differentiationbased therapies of RMS in future.

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FUS Is Not Mislocalized in Spinal Motor Neurons Derived From Human Induced Pluripotent Stem Cells of Main Non-FUS ALS Subtypes

Szewczyk

Günther

Sterneckert

et al. 2021

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