Your search keyword '"smoothened (SMO)"' showing total 6 results

1. Clobetasol Modulates Adult Neural Stem Cell Growth via Canonical Hedgehog Pathway Activation

Author

Nunzio Vicario, Joshua D. Bernstock, Federica M. Spitale, Cesarina Giallongo, Maria A.S. Giunta, Giovanni Li Volti, Massimo Gulisano, Giampiero Leanza, Daniele Tibullo, Rosalba Parenti, and Rosario Gulino

Subjects

neural stem cell (NSC), steroids, clobetasol, sonic hedgehog signaling (Shh), smoothened (Smo), Gli, stem cell proliferation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Sonic hedgehog (Shh) signaling is a key pathway within the central nervous system (CNS), during both development and adulthood, and its activation via the 7-transmembrane protein Smoothened (Smo) may promote neuroprotection and restoration during neurodegenerative disorders. Shh signaling may also be activated by selected glucocorticoids such as clobetasol, fluocinonide and fluticasone, which therefore act as Smo agonists and hold potential utility for regenerative medicine. However, despite its potential role in neurodegenerative diseases, the impact of Smo-modulation induced by these glucocorticoids on adult neural stem cells (NSCs) and the underlying signaling mechanisms are not yet fully elucidated. The aim of the present study was to evaluate the effects of Smo agonists (i.e., purmorphamine) and antagonists (i.e., cyclopamine) as well as of glucocorticoids (i.e., clobetasol, fluocinonide and fluticasone) on NSCs in terms of proliferation and clonal expansion. Purmorphamine treatment significantly increased NSC proliferation and clonal expansion via GLI-Kruppel family member 1 (Gli1) nuclear translocation and such effects were prevented by cyclopamine co-treatment. Clobetasol treatment exhibited an equivalent pharmacological effect. Moreover, cellular thermal shift assay suggested that clobetasol induces the canonical Smo-dependent activation of Shh signaling, as confirmed by Gli1 nuclear translocation and also by cyclopamine co-treatment, which abolished these effects. Finally, fluocinonide and fluticasone as well as control glucocorticoids (i.e., prednisone, corticosterone and dexamethasone) showed no significant effects on NSCs proliferation and clonal expansion. In conclusion, our data suggest that Shh may represent a druggable target system to drive neuroprotection and promote restorative therapies.

Published

2019

2. The intrahepatic signalling niche of hedgehog is defined by primary cilia positive cells during chronic liver injury.

Author

Grzelak, Candice Alexandra, Martelotto, Luciano Gastón, Sigglekow, Nicholas David, Patkunanathan, Bramilla, Ajami, Katerina, Calabro, Sarah Ruth, Dwyer, Benjamin James, Tirnitz-Parker, Janina Elke Eleonore, Watkins, D. Neil, Warner, Fiona Jane, Shackel, Nicholas Adam, and McCaughan, Geoffrey William

Subjects

*CELLULAR signal transduction, *HEDGEHOG signaling proteins, *LIVER injuries, *GENETIC regulation, *LIVER regeneration, *THIOACETAMIDE, *LEUCOCYTES

Abstract

Background & Aims: In vertebrates, canonical Hedgehog (Hh) pathway activation requires Smoothened (SMO) translocation to the primary cilium (Pc), followed by a GLI-mediated transcriptional response. In addition, a similar gene regulation occurs in response to growth factors/cytokines, although independently of SMO signalling. The Hh pathway plays a critical role in liver fibrosis/regeneration, however, the mechanism of activation in chronic liver injury is poorly understood. This study aimed to characterise Hh pathway activation upon thioacetamide (TAA)-induced chronic liver injury in vivo by defining Hh-responsive cells, namely cells harbouring Pc and Pc-localised SMO. Methods: C57BL/6 mice (wild-type or Ptc1 +/−) were TAA-treated. Liver injury and Hh ligand/pathway mRNA and protein expression were assessed in vivo. SMO/GLI manipulation and SMO-dependent/independent activation of GLI-mediated transcriptional response in Pc-positive (Pc+) cells were studied in vitro. Results: In vivo, Hh activation was progressively induced following TAA. At the epithelial-mesenchymal interface, injured hepatocytes produced Hh ligands. Progenitors, myofibroblasts, leukocytes and hepatocytes were GLI2+. Pc+ cells increased following TAA, but only EpCAM+/GLI2+ progenitors were Pc+/SMO+. In vitro, SMO knockdown/hGli3-R overexpression reduced proliferation/viability in Pc+ progenitors, whilst increased proliferation occurred with hGli1 overexpression. HGF induced GLI transcriptional activity independently of Pc/SMO. Ptc1 +/− mice exhibited increased progenitor, myofibroblast and fibrosis responses. Conclusions: In chronic liver injury, Pc+ progenitors receive Hh ligand signals and process it through Pc/SMO-dependent activation of GLI-mediated transcriptional response. Pc/SMO-independent GLI activation likely occurs in Pc−/GLI2+ cells. Increased fibrosis in Hh gain-of-function mice likely occurs by primary progenitor expansion/proliferation and secondary fibrotic myofibroblast expansion, in close contact with progenitors. [Copyright &y& Elsevier]

Published

2014

3. Hedgehog signalling as a target in cancer stem cells.

Author

Medina, Vanessa, Calvo, Moisés, Díaz-Prado, Silvia, and Espada, Jesús

Abstract

Hedgehog (Hh) is one of the most important signalling pathways. Together with the Wnt, TGF-β/BMP and Notch pathways, it is involved in both embryonic development and adult tissue homeostasis. This is because Hh plays a central role in the proliferative control and differentiation of both embryonic stem cells and adult stem cells. In this way, an alteration in the Hh pathway, either by misexpression of components of that pathway or by changes in the expression of other cellular components that interfere with the Hh signalling system, may trigger the development of several types of cancer. This occurs because normal stem cells or their intermediaries toward differentiated mature cells are not part of the normal proliferative/differentiation balance and begin to expand without control, triggering the generation of the so-called cancer stem cells. In this review, we will focus on the molecular aspects and the role of Hh signalling in normal tissues and in tumour development. [ABSTRACT FROM AUTHOR]

Published

2009

4. Clobetasol modulates adult neural stem cell growth via canonical hedgehog pathway activation

Author

Massimo Gulisano, G. Leanza, Joshua D. Bernstock, Giovanni Li Volti, Rosario Gulino, Maria A.S. Giunta, Cesarina Giallongo, Nunzio Vicario, Rosalba Parenti, Daniele Tibullo, and Federica M. Spitale

Subjects

Purmorphamine, Male, Cyclopamine, Cells, Neuroprotection, Catalysis, Article, Inorganic Chemistry, lcsh:Chemistry, chemistry.chemical_compound, Neural stem cell (NSC), Mice, Neural Stem Cells, GLI1, Animals, Hedgehog Proteins, Physical and Theoretical Chemistry, Sonic hedgehog, Sonic hedgehog signaling (Shh), Molecular Biology, lcsh:QH301-705.5, Glucocorticoids, Spectroscopy, Cells, Cultured, Cell Proliferation, Clobetasol, Cultured, biology, Chemistry, Organic Chemistry, General Medicine, Neural stem cell, Hedgehog signaling pathway, Computer Science Applications, Gli, Smoothened (Smo), Stem cell proliferation, Steroids, Adult Stem Cells, Signal Transduction, lcsh:Biology (General), lcsh:QD1-999, Cancer research, biology.protein, Smoothened

Abstract

Sonic hedgehog (Shh) signaling is a key pathway within the central nervous system (CNS), during both development and adulthood, and its activation via the 7-transmembrane protein Smoothened (Smo) may promote neuroprotection and restoration during neurodegenerative disorders. Shh signaling may also be activated by selected glucocorticoids such as clobetasol, fluocinonide and fluticasone, which therefore act as Smo agonists and hold potential utility for regenerative medicine. However, despite its potential role in neurodegenerative diseases, the impact of Smo-modulation induced by these glucocorticoids on adult neural stem cells (NSCs) and the underlying signaling mechanisms are not yet fully elucidated. The aim of the present study was to evaluate the effects of Smo agonists (i.e., purmorphamine) and antagonists (i.e., cyclopamine) as well as of glucocorticoids (i.e., clobetasol, fluocinonide and fluticasone) on NSCs in terms of proliferation and clonal expansion. Purmorphamine treatment significantly increased NSC proliferation and clonal expansion via GLI-Kruppel family member 1 (Gli1) nuclear translocation and such effects were prevented by cyclopamine co-treatment. Clobetasol treatment exhibited an equivalent pharmacological effect. Moreover, cellular thermal shift assay suggested that clobetasol induces the canonical Smo-dependent activation of Shh signaling, as confirmed by Gli1 nuclear translocation and also by cyclopamine co-treatment, which abolished these effects. Finally, fluocinonide and fluticasone as well as control glucocorticoids (i.e., prednisone, corticosterone and dexamethasone) showed no significant effects on NSCs proliferation and clonal expansion. In conclusion, our data suggest that Shh may represent a druggable target system to drive neuroprotection and promote restorative therapies.

Published

2019

5. Clobetasol Modulates Adult Neural Stem Cell Growth via Canonical Hedgehog Pathway Activation.

Author

Vicario, Nunzio, Bernstock, Joshua D., Spitale, Federica M., Giallongo, Cesarina, Giunta, Maria A.S., Li Volti, Giovanni, Gulisano, Massimo, Leanza, Giampiero, Tibullo, Daniele, Parenti, Rosalba, and Gulino, Rosario

Subjects

*CYCLOPAMINE, *CORTICOSTERONE, *DEXAMETHASONE, *FLUTICASONE, *PREDNISONE

Abstract

Sonic hedgehog (Shh) signaling is a key pathway within the central nervous system (CNS), during both development and adulthood, and its activation via the 7-transmembrane protein Smoothened (Smo) may promote neuroprotection and restoration during neurodegenerative disorders. Shh signaling may also be activated by selected glucocorticoids such as clobetasol, fluocinonide and fluticasone, which therefore act as Smo agonists and hold potential utility for regenerative medicine. However, despite its potential role in neurodegenerative diseases, the impact of Smo-modulation induced by these glucocorticoids on adult neural stem cells (NSCs) and the underlying signaling mechanisms are not yet fully elucidated. The aim of the present study was to evaluate the effects of Smo agonists (i.e., purmorphamine) and antagonists (i.e., cyclopamine) as well as of glucocorticoids (i.e., clobetasol, fluocinonide and fluticasone) on NSCs in terms of proliferation and clonal expansion. Purmorphamine treatment significantly increased NSC proliferation and clonal expansion via GLI-Kruppel family member 1 (Gli1) nuclear translocation and such effects were prevented by cyclopamine co-treatment. Clobetasol treatment exhibited an equivalent pharmacological effect. Moreover, cellular thermal shift assay suggested that clobetasol induces the canonical Smo-dependent activation of Shh signaling, as confirmed by Gli1 nuclear translocation and also by cyclopamine co-treatment, which abolished these effects. Finally, fluocinonide and fluticasone as well as control glucocorticoids (i.e., prednisone, corticosterone and dexamethasone) showed no significant effects on NSCs proliferation and clonal expansion. In conclusion, our data suggest that Shh may represent a druggable target system to drive neuroprotection and promote restorative therapies. [ABSTRACT FROM AUTHOR]

Published

2019

6. Hedgehog signalling as a target in cancer stem cells

Author

Vanessa Medina, Silvia Díaz-Prado, Jesús Espada, and Moisés Blanco Calvo

Subjects

Cancer Research, medicine.medical_specialty, Cellular differentiation, Hh (Hedgehog), Biology, Cancer stem cell, Internal medicine, medicine, Animals, Humans, Hedgehog Proteins, Hedgehog, Tissue homeostasis, Cancer, Cancer stem cells, Wnt signaling pathway, General Medicine, Embryonic stem cell, Cell biology, Endocrinology, Oncology, Neoplastic Stem Cells, Smoothened (Smo), Stem cell, Adult stem cell, Signal Transduction, Patched (Ptc), Gli

Abstract

[Abstract] Hedgehog (Hh) is one of the most important signalling pathways. Together with the Wnt, TGF-β/BMP and Notch pathways, it is involved in both embryonic development and adult tissue homeostasis. This is because Hh plays a central role in the proliferative control and differentiation of both embryonic stem cells and adult stem cells. In this way, an alteration in the Hh pathway, either by misexpression of components of that pathway or by changes in the expression of other cellular components that interfere with the Hh signalling system, may trigger the development of several types of cancer. This occurs because normal stem cells or their intermediaries toward differentiated mature cells are not part of the normal proliferative/differentiation balance and begin to expand without control, triggering the generation of the so-called cancer stem cells. In this review, we will focus on the molecular aspects and the role of Hh signalling in normal tissues and in tumour development.

Published

2009