6533b856fe1ef96bd12b1ee4
RESEARCH PRODUCT
PTEN negatively regulates the cell lineage progression from NG2+ glial progenitor to oligodendrocyte via mTOR-independent signaling
Hyukmin KimEstibaliz González-fernándezAri WaismanIsha N SrivastavaYoung-jin SonMasahiro FukayaRabia R. KhawajaHey-kyeong JeongShin H. Kangsubject
0301 basic medicinePTENQH301-705.5ScienceoligodendrocytesGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesMyelinmedicinePTENProgenitor cellBiology (General)GSK3BPI3K/AKT/mTOR pathwayProgenitorprogenitorsGeneral Immunology and MicrobiologybiologyGeneral NeuroscienceRegeneration (biology)QRmyelinationGeneral MedicineOligodendrocyteCell biology030104 developmental biologymedicine.anatomical_structurenervous systembiology.proteinmTORGSK3bMedicinedescription
Oligodendrocytes (OLs), the myelin-forming CNS glia, are highly vulnerable to cellular stresses, and a severe myelin loss underlies numerous CNS disorders. Expedited OL regeneration may prevent further axonal damage and facilitate functional CNS repair. Although adult OL progenitors (OPCs) are the primary players for OL regeneration, targetable OPC-specific intracellular signaling mechanisms for facilitated OL regeneration remain elusive. Here, we report that OPC-targeted PTEN inactivation in the mouse, in contrast to OL-specific manipulations, markedly promotes OL differentiation and regeneration in the mature CNS. Unexpectedly, an additional deletion of mTOR did not reverse the enhanced OL development from PTEN-deficient OPCs. Instead, ablation of GSK3β, another downstream signaling molecule that is negatively regulated by PTEN-Akt, enhanced OL development. Our results suggest that PTEN persistently suppresses OL development in an mTOR-independent manner, and at least in part, via controlling GSK3β activity. OPC-targeted PTEN-GSK3β inactivation may benefit facilitated OL regeneration and myelin repair.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-02-20 | eLife |