BACKGROUND: MicroRNAs (miRNAs) are increasingly being recognized as being involved in cancer development and progression in gliomas. METHODS: Using a model cell system developed in our lab to study glioma progression comprising human neuroglial culture (HNGC)-1 and HNGC-2 cells, we report here that miR-145 is one of the miRNAs significantly downregulated during malignant transformation in glioblastoma multiforme (GBM). In a study using tumor samples derived from various glioma grades, we show that expression of miR-145 is decreased in a graded manner, with GBM patients showing lowest expression relative to lower-grade gliomas (P < .05) and normal brain tissues (P < .0001). Functional studies involving ectopic expression of miR-145 in glioma cells had a negative impact on cell proliferation and tumor development, as well as invasion and induced apoptosis, providing further support to the concept that inactivation of miR-145 is important for glioma disease pathogenesis. More notably, these growth-suppressive effects of miR-145 are mediated through its target proteins Sox9 and the cell adhesion-associated molecule adducin 3 (ADD3). RESULTS: Inhibiting Sox9 and ADD3 rescued effects of miR-145 loss. Interestingly, miR-145 loss in glioma cells led to overexpression of molecules involved in cell proliferation, like cyclin D1, c-myc, and N-myc, as well as enhanced expression of cell adhesion- and invasion-related molecules N-cadherin and E-cadherin, an effect which was again restored upon miR-145 overexpression in glioma cells. The miR-145 promoter was methylated at its cytosine-phosphate-guanine (CpG) islands in the glioma cell lines studied. CONCLUSION: Our study demonstrates that miR-145 has a tumor-suppressive function in glioblastoma in that it reduces proliferation, adhesion, and invasion of glioblastoma cells, apparently by suppressing the activity of oncogenic proteins Sox9 and ADD3. Reduced levels of miR-145 may lead to neoplastic transformation and malignant progression in glioma due to unregulated activity of these proteins.
BACKGROUND: MicroRNAs (miRNAs) are increasingly being recognized as being involved in cancer development and progression in gliomas. METHODS: Using a model cell system developed in our lab to study glioma progression comprising human neuroglial culture (HNGC)-1 and HNGC-2 cells, we report here that miR-145 is one of the miRNAs significantly downregulated during malignant transformation in glioblastoma multiforme (GBM). In a study using tumor samples derived from various glioma grades, we show that expression of miR-145 is decreased in a graded manner, with GBMpatients showing lowest expression relative to lower-grade gliomas (P < .05) and normal brain tissues (P < .0001). Functional studies involving ectopic expression of miR-145 in glioma cells had a negative impact on cell proliferation and tumor development, as well as invasion and induced apoptosis, providing further support to the concept that inactivation of miR-145 is important for glioma disease pathogenesis. More notably, these growth-suppressive effects of miR-145 are mediated through its target proteins Sox9 and the cell adhesion-associated molecule adducin 3 (ADD3). RESULTS: Inhibiting Sox9 and ADD3 rescued effects of miR-145 loss. Interestingly, miR-145 loss in glioma cells led to overexpression of molecules involved in cell proliferation, like cyclin D1, c-myc, and N-myc, as well as enhanced expression of cell adhesion- and invasion-related molecules N-cadherin and E-cadherin, an effect which was again restored upon miR-145 overexpression in glioma cells. The miR-145 promoter was methylated at its cytosine-phosphate-guanine (CpG) islands in the glioma cell lines studied. CONCLUSION: Our study demonstrates that miR-145 has a tumor-suppressive function in glioblastoma in that it reduces proliferation, adhesion, and invasion of glioblastoma cells, apparently by suppressing the activity of oncogenic proteins Sox9 and ADD3. Reduced levels of miR-145 may lead to neoplastic transformation and malignant progression in glioma due to unregulated activity of these proteins.
Authors: Josie Hayes; Helene Thygesen; Charlotte Tumilson; Alastair Droop; Marjorie Boissinot; Thomas A Hughes; David Westhead; Jane E Alder; Lisa Shaw; Susan C Short; Sean E Lawler Journal: Mol Oncol Date: 2014-11-28 Impact factor: 6.603
Authors: Adam Nowakowski; Katarzyna Drela; Justyna Rozycka; Miroslaw Janowski; Barbara Lukomska Journal: Stem Cells Dev Date: 2016-09-07 Impact factor: 3.272
Authors: Pablo Letelier; Patricia García; Pamela Leal; Héctor Álvarez; Carmen Ili; Jaime López; Jonathan Castillo; Priscilla Brebi; Juan Carlos Roa Journal: Int J Clin Exp Pathol Date: 2014-04-15
Authors: Sara J C Gosline; Allan M Gurtan; Courtney K JnBaptiste; Andrew Bosson; Pamela Milani; Simona Dalin; Bryan J Matthews; Yoon S Yap; Phillip A Sharp; Ernest Fraenkel Journal: Cell Rep Date: 2015-12-31 Impact factor: 9.423