Literature DB >> 29184052

Notch transactivates Rheb to maintain the multipotency of TSC-null cells.

Jun-Hung Cho1, Bhaumik Patel1, Santosh Bonala1, Sasikanth Manne1, Yan Zhou2, Surya K Vadrevu1, Jalpa Patel1, Marco Peronaci1, Shanawaz Ghouse1, Elizabeth P Henske3, Fabrice Roegiers4, Krinio Giannikou5, David J Kwiatkowski5, Hossein Mansouri6, Maciej M Markiewski1, Brandon White7, Magdalena Karbowniczek8.   

Abstract

Differentiation abnormalities are a hallmark of tuberous sclerosis complex (TSC) manifestations; however, the genesis of these abnormalities remains unclear. Here we report on mechanisms controlling the multi-lineage, early neuronal progenitor and neural stem-like cell characteristics of lymphangioleiomyomatosis (LAM) and angiomyolipoma cells. These mechanisms include the activation of a previously unreported Rheb-Notch-Rheb regulatory loop, in which the cyclic binding of Notch1 to the Notch-responsive elements (NREs) on the Rheb promoter is a key event. This binding induces the transactivation of Rheb. The identified NRE2 and NRE3 on the Rheb promoter are important to Notch-dependent promoter activity. Notch cooperates with Rheb to block cell differentiation via similar mechanisms in mouse models of TSC. Cell-specific loss of Tsc1 within nestin-expressing cells in adult mice leads to the formation of kidney cysts, renal intraepithelial neoplasia, and invasive papillary renal carcinoma.

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Year:  2017        PMID: 29184052      PMCID: PMC5705704          DOI: 10.1038/s41467-017-01845-1

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  67 in total

1.  Transient Notch activation initiates an irreversible switch from neurogenesis to gliogenesis by neural crest stem cells.

Authors:  S J Morrison; S E Perez; Z Qiao; J M Verdi; C Hicks; G Weinmaster; D J Anderson
Journal:  Cell       Date:  2000-05-26       Impact factor: 41.582

2.  Analysis of neural stem cells by flow cytometry: cellular differentiation modifies patterns of MHC expression.

Authors:  F H McLaren; C N Svendsen; P Van der Meide; E Joly
Journal:  J Neuroimmunol       Date:  2001-01-01       Impact factor: 3.478

Review 3.  The segmentation clock: converting embryonic time into spatial pattern.

Authors:  Olivier Pourquié
Journal:  Science       Date:  2003-07-18       Impact factor: 47.728

4.  Hairy2-Id3 interactions play an essential role in Xenopus neural crest progenitor specification.

Authors:  Massimo Nichane; Noémie de Crozé; Xi Ren; Jacob Souopgui; Anne H Monsoro-Burq; Eric J Bellefroid
Journal:  Dev Biol       Date:  2008-08-07       Impact factor: 3.582

5.  TUBB3: neuronal marker or melanocyte mimic?

Authors:  Heiko Locher; Johan H M Frijns; Margriet A Huisman; Susana M Chuva de Sousa Lopes
Journal:  Cell Transplant       Date:  2013-10-22       Impact factor: 4.064

6.  Id1 and Id3 are required for neurogenesis, angiogenesis and vascularization of tumour xenografts.

Authors:  D Lyden; A Z Young; D Zagzag; W Yan; W Gerald; R O'Reilly; B L Bader; R O Hynes; Y Zhuang; K Manova; R Benezra
Journal:  Nature       Date:  1999-10-14       Impact factor: 49.962

7.  The expression and function of Notch pathway genes in the developing rat eye.

Authors:  Z Z Bao; C L Cepko
Journal:  J Neurosci       Date:  1997-02-15       Impact factor: 6.167

8.  Estradiol and tamoxifen stimulate LAM-associated angiomyolipoma cell growth and activate both genomic and nongenomic signaling pathways.

Authors:  Jane Yu; Aristotelis Astrinidis; Sharon Howard; Elizabeth Petri Henske
Journal:  Am J Physiol Lung Cell Mol Physiol       Date:  2003-08-15       Impact factor: 5.464

Review 9.  Molecular Biomarkers for Embryonic and Adult Neural Stem Cell and Neurogenesis.

Authors:  Juan Zhang; Jianwei Jiao
Journal:  Biomed Res Int       Date:  2015-09-01       Impact factor: 3.411

10.  A homolog of Drosophila Notch expressed during mammalian development.

Authors:  G Weinmaster; V J Roberts; G Lemke
Journal:  Development       Date:  1991-09       Impact factor: 6.868
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  6 in total

1.  Angiomyolipoma: A link between stemness and tumorigenesis in the kidney.

Authors:  Francesca Becherucci; Paola Romagnani
Journal:  Nat Rev Nephrol       Date:  2018-03-05       Impact factor: 28.314

2.  The Codon 72 TP53 Polymorphism Contributes to TSC Tumorigenesis through the Notch-Nodal Axis.

Authors:  Jun-Hung Cho; Bhaumik Patel; Santosh Bonala; Hossein Mansouri; Sasikanth Manne; Surya Kumari Vadrevu; Shanawaz Ghouse; Che-Pei Kung; Maureen E Murphy; Aristotelis Astrinidis; Elizabeth P Henske; David J Kwiatkowski; Maciej M Markiewski; Magdalena Karbowniczek
Journal:  Mol Cancer Res       Date:  2019-05-14       Impact factor: 5.852

3.  Adoptive T-Cell Transfer to Treat Lymphangioleiomyomatosis.

Authors:  Fei Han; Emilia R Dellacecca; Levi W Barse; Cormac Cosgrove; Steven W Henning; Christian M Ankney; Dinesh Jaishankar; Alexander Yemelyanov; Vera P Krymskaya; Daniel F Dilling; I Caroline Le Poole
Journal:  Am J Respir Cell Mol Biol       Date:  2020-06       Impact factor: 6.914

4.  In utero exposure to maternal diabetes impairs nephron progenitor differentiation.

Authors:  Débora M Cerqueira; Shelby L Hemker; Andrew J Bodnar; Daniella M Ortiz; Favour O Oladipupo; Elina Mukherjee; Zhenwei Gong; Corynn Appolonia; Radhika Muzumdar; Sunder Sims-Lucas; Jacqueline Ho
Journal:  Am J Physiol Renal Physiol       Date:  2019-09-11

Review 5.  Molecular Mechanisms of Renal Progenitor Regulation: How Many Pieces in the Puzzle?

Authors:  Anna Julie Peired; Maria Elena Melica; Alice Molli; Cosimo Nardi; Paola Romagnani; Laura Lasagni
Journal:  Cells       Date:  2021-01-02       Impact factor: 6.600

6.  A tissue-bioengineering strategy for modeling rare human kidney diseases in vivo.

Authors:  J O R Hernandez; X Wang; M Vazquez-Segoviano; M Lopez-Marfil; M F Sobral-Reyes; A Moran-Horowich; M Sundberg; D O Lopez-Cantu; C K Probst; G U Ruiz-Esparza; K Giannikou; R Abdi; E P Henske; D J Kwiatkowski; M Sahin; D R Lemos
Journal:  Nat Commun       Date:  2021-11-11       Impact factor: 17.694
  6 in total

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