Deletion of Pten in mouse brain causes seizures, ataxia and defects in soma size resembling Lhermitte-Duclos disease

Backman, Stéphanie A.; Stambolic, Vuk; Suzuki, Akira; Haight, Jillian; Elia, Andrew; Pretorius, James K.; Tsao, Ming‐Sound; Shannon, Patrick; Bolon, Brad; Ivy, Gwen O.; Mak, Tak W.

doi:10.1038/ng782

Cited by 460 publications

(469 citation statements)

References 45 publications

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“…Similarly, the focal lesions in LDD rarely contain proliferative cells, as distinct from malignancies in which the second allele of PTEN has been inactivated by mutation. Further, some dysplastic neurons are ectopically placed in the molecular layer in LDD, similar to ectopically positioned granule neurons resulting from a neuronal migration defect in the mouse model (Backman et al, 2001;Kwon et al, 2001;Abel et al, 2005). Indeed, deletion of Pten in multiple neuronal types during development results in profound defects in migration and patterning in brain (Backman et al, 2001;Groszer et al, 2001;Kwon et al, 2001;Marino et al, 2002;Yue et al, 2005).…”

Section: Germline Mutations Of Pten Cause Neurological Abnormalitiesmentioning

confidence: 99%

“…Although patients have inherited one mutant copy of PTEN, the dysplastic cells have either complete loss of PTEN expression or express only the mutant allele, which is accompanied by elevated phosphorylated AKT (Iida et al, 1998;Zhou et al, 2003;Abel et al, 2005). The features of LDD were recapitulated in mouse models where Pten was conditionally deleted late in development of granule neurons of the cerebellum resulting in a cell-autonomous loss of size regulation (Backman et al, 2001;Kwon et al, 2001). In the mouse, the size of Ptendeficient granule neurons progressively increases without evidence of abnormal proliferation.…”

Section: Germline Mutations Of Pten Cause Neurological Abnormalitiesmentioning

confidence: 99%

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PTEN signaling in brain: neuropathology and tumorigenesis

2008

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Section: Germline Mutations Of Pten Cause Neurological Abnormalitiesmentioning

confidence: 99%

Section: Germline Mutations Of Pten Cause Neurological Abnormalitiesmentioning

confidence: 99%

PTEN signaling in brain: neuropathology and tumorigenesis

2008

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“…Notch signaling is thought to maintain ''stemness'' and to prevent exit from the cell cycle and maturation (Basak and Taylor, 2009). However, its role in adult neurogenesis remains unclear, primarily because Notch plays so many other roles in maturation, neuroplasticity, and survival (Carlson and Conboy, 2007;Corbin et al, 2008 (Backman et al, 2001;Kwon et al, 2001;Groszer et al, 2001). Conditional knockout of Pten in neural stem cells revealed that Pten is indispensable for proper control of neural stem cell proliferation and self-renewal in the developing brain (Groszer et al, 2001).…”

Section: Developmental Dynamicsmentioning

confidence: 99%

Endothelial cells promote neural stem cell proliferation and differentiation associated with VEGF activated Notch and Pten signaling

Sun

Zhou

et al. 2010

Developmental Dynamics

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To investigate whether and how endothelial cells affect neurogenesis, we established a system to co-culture endothelial cells and brain slices of neonatal rat and observed how subventricular zone cells differentiate in the presence of endothelial cells. In the presence of endothelial cells, neural stem cells increased in number, as did differentiated neurons and glia. The augmentation of neurogenesis was reversed by diminishing vascular endothelial growth factor (VEGF) expression in endothelial cells with RNA interference (RNAi). Microarray analysis indicated that expression levels of 112 genes were significantly altered by co-culture and that expression of 81 of the 112 genes recovered to normal levels following RNAi of VEGF in endothelial cells. Pathway mapping showed an enrichment of genes in the Notch and Pten pathways. These data indicate that endothelial cells promote neural stem cell proliferation and differentiation associated with VEGF, possibly by activating the Notch and Pten pathways. Developmental Dynamics 239:2345-2353,

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“…Additionally, PTEN was shown to control ovarian follicle activation and therefore reproduction of mammals (Reddy et al, 2008). The roles of PTEN in the development and function of specific organs/tissues, such as brain, heart, and bone, have also been reported (Backman et al, 2001;Groszer et al, 2001;Kwon et al, 2001Kwon et al, , 2006Crackower et al, 2002;Liu et al, 2007;Oudit et al, 2008).…”

Section: Pten As a Multifunctional Biological Regulatormentioning

confidence: 98%

“…The strong evidence for this argument is that many physiological abnormalities and tumorigenesis caused by the loss of PTEN function are associated with Akt activation and can be attenuated by pharmacological inhibition of PI3K, Akt or downstream components such as, mammalian Target of Rapamycin (mTOR) (Backman et al, 2001;Groszer et al, 2001;Kwon et al, 2001Kwon et al, , 2006Crackower et al, 2002;Liu et al, 2007;Oudit et al, 2008).…”

Section: Pten As a Multifunctional Biological Regulatormentioning

confidence: 99%

Post-translational regulation of PTEN

Wang

Jiang

2008

Oncogene

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PTEN (phosphatase and tensin homolog deleted on chromosome 10) tumor suppressor regulates a variety of cellular processes including cell proliferation, growth, migration and death. This master regulator itself is also under deliberative regulation. Although the evidence for PTEN regulation and its significance in normal biology and disease is overwhelming, the mechanisms and exact functional consequences of PTEN regulation are far from clear. In this review, we discuss recent advances concerning post-translational regulation of PTEN in general, and in more detail about its regulation by ubiquitination. We also discuss some unsolved questions in the field and how they might be addressed in the future. We propose that the complex regulatory mechanisms of PTEN dictate how this tumor suppressor executes its distinct biological functions.

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Deletion of Pten in mouse brain causes seizures, ataxia and defects in soma size resembling Lhermitte-Duclos disease

Cited by 460 publications

References 45 publications

PTEN signaling in brain: neuropathology and tumorigenesis

PTEN signaling in brain: neuropathology and tumorigenesis

Endothelial cells promote neural stem cell proliferation and differentiation associated with VEGF activated Notch and Pten signaling

Post-translational regulation of PTEN

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