Heterozygosity for the tuberous sclerosis complex (TSC) gene products results in increased astrocyte numbers and decreased p27-Kip1 expression in TSC2+/− cells
Erik J. Uhlmann,Anthony J. Apicelli,Rebecca L. Baldwin,Stephen P. Burke,M. Livia Bajenaru,Hiroaki Onda,David J. Kwiatkowski,David H. Gutmann +7 more
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TL;DR: Tsc heterozygosity may provide a non-cell-autonomous growth advantage for astrocytes that may involve p27-Kip1 expression, which is suggested to contribute to the pathogenesis of these brain abnormalities.
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Abstract: Tuberous sclerosis complex (TSC) is an autosomal dominant tumor predisposition syndrome characterized by benign proliferations (hamartomas). In the brain, individuals with TSC develop autism, mental retardation and seizures associated with focal cortical dysplasias, subependymal nodules, and subependymal giant cell astrocytomas (SEGAs). We hypothesize that dysregulated astrocyte function due to mutations in the tumor suppressor genes, TSC1 and TSC2, may contribute to the pathogenesis of these brain abnormalities. In this report, we demonstrate that mice heterozygous for a targeted defect in either the Tsc1 or Tsc2 genes(Tsc1+/- and Tsc2+/- mice) exhibit a 1.5-fold increase in the number of astrocytes in vivo. Whereas increased astrocyte numbers in vivo were suggestive of a proliferative advantage, Tsc2+/- primary astrocyte cultures did not show a cell-autonomous growth advantage, anchorage-independent growth, increased saturation density, or increased fluid-phase endocytosis compared to wild type astrocytes. Tsc2 null mouse embryonic fibroblasts (MEFs) however, did exhibit increased saturation density compared to Tsc2 wild type controls. In both Tsc2+/- astrocytes and Tsc2 null mouse embryonic fibroblasts, p27-Kip1 expression was decreased compared to wild type cells, and was reversed by tuberin re-expression in Tsc2-/- MEFs. In contrast, no change in endocytosis was observed upon tuberin re-expression in Tsc2-/- MEFs. Collectively, these results suggest Tsc heterozygosity may provide a non-cell-autonomous growth advantage for astrocytes that may involve p27-Kip1 expression.
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Citations
The tuberous sclerosis genes and regulation of the cyclin-dependent kinase inhibitor p27.
TL;DR: Current knowledge on how mutations within the TSC genes could trigger deregulation of stability and localization of the tumor suppressor p27 is reviewed.
Tsc2 mutation rather than Tsc1 mutation dominantly causes a social deficit in a mouse model of tuberous sclerosis complex
Hirofumi Kashii,Shinya Kasai,Atsushi Sato,Yoko Hagino,Yasumasa Nishito,Toshiyuki Kobayashi,Okio Hino,Masashi Mizuguchi,Kazutaka Ikeda +8 more
TL;DR: In this paper , the effects of rapamycin treatment and gene expression profiles with a gene expression microarray in Tsc1 and Tsc2 double heterozygous mutant (TscD +/− ) mice were investigated.
Ornithine decarboxylase, the rate-limiting enzyme of polyamine synthesis, modifies brain pathology in a mouse model of tuberous sclerosis complex
David Kapfhamer,James T. McKenna,Caroline Yoon,Tracy Murray-Stewart,Robert A. Casero,Michael J. Gambello +5 more
TL;DR: A protective effect of increased ODC activity and elevated putrescine that modify the phenotype in this developmental Tsc2-RG model is suggested.
Giant Cells: Contradiction to Two-Hit Model of Tuber Formation?
Jaroslaw Jozwiak,Sergiusz Jozwiak +1 more
TL;DR: This study challenges Knudson's two-hit model of tumorigenesis in tuberous sclerosis, highlighting the absence of loss of heterozygosity in brain lesions containing giant cells, despite the presence of hamartin and tuberin, and proposes alternative hypotheses for their formation.
•Dissertation
Investigating the mechanism of cystogenesis in TSC and ADPKD
Mark Aldred
- 01 Jan 2011
TL;DR: In this article, the TSC gene products have an established role in the regulation of mammalian target of Rapamycin (mTOR) signalling, suggesting alternative pathways should be targeted to prevent tumour formation.
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TL;DR: Northern blot analysis identified a shortened transcript, while reduced expression was observed in another TSC family, confirming TSC2 as the chromosome 16 TSC gene, and its protein product, tuberin, has a region of homology to the GTPase-activating protein GAP3.
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