Deficiency of TTYH1 Expression Reduces the Migration and Invasion of U2OS Human Osteosarcoma Cells

Authors
Lee YeongseonKwon, OsungJeong, Geuk-RaeNoh, JunyeolKim, Sung EunYi, Gwan-SuHwang, Eun MiPark, Jae-Yong
Issue Date
2022-04
Publisher
Multidisciplinary Digital Publishing Institute (MDPI)
Citation
Life, v.12, no.4
Abstract
The Tweety homolog (TTYH) chloride channel family is involved in oncogenic processes including cell proliferation, invasion, and colonization of cancers. Among the TTYH family, TTYH1 is highly expressed in several cancer cells, such as glioma, breast, and gastric cancer cells. However, the role of TTYH1 in the progression of osteosarcoma remains unknown. Here, we report that deficient TTYH1 expression results in the inhibition of the migration and invasion of U2OS human osteosarcoma cells. We found that TTYH1 was endogenously expressed at both mRNA and protein levels in U2OS cells and that these channels were located at the plasma membrane of the cells. Moreover, we found that silencing of the TTYH1 with small interfering RNA (siRNA) resulted in a decrease in the migration and invasion of U2OS cells, while the proliferation of the cells was not affected. Additionally, treatment with TTYH1 siRNA significantly suppressed the mRNA expression of epithelial-mesenchymal transition (EMT)-regulated transcription factors such as Zinc E-Box Binding Homeobox 1 (ZEB1) and SNAIL. Most importantly, the expression of matrix metalloproteinase (MMP)-2, MPP-9, and N-cadherin was dramatically reduced following the silencing of TTYH1. Taken together, our findings suggest that silencing of TTYH1 expression reduces migration and invasion of U2OS cells and that TTYH1 may act as a potential molecular target for osteosarcoma treatment.
Keywords
TO-EPITHELIAL TRANSITION; IN-VITRO; CANCER; GENE; PROGRESSION; METASTASIS; CHANNELS; FAMILY; SWITCH; osteosarcoma; TTYH1; invasion; migration; epithelial-mesenchymal transition
ISSN
0024-3019
URI
https://pubs.kist.re.kr/handle/201004/115307
DOI
10.3390/life12040530
Appears in Collections:
KIST Article > 2022
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