PRR16/Largen Induces Epithelial-Mesenchymal Transition through the Interaction with ABI2 Leading to the Activation of ABL1 Kinase

Gyeoung Jin Kang; Jung Ho Park; Hyun Ji Kim; Eun Ji Kim; Boram Kim; Hyun Jung Byun; Lu Yu; Tuan Minh Nguyen; Thi Ha Nguyen; Kyung Sung Kim; Hiệu Phùng Huy; Mostafizur Rahman; Ye Hyeon Kim; Ji Yun Jang; Mi Kyung Park; Ho Lee; Chang Ick Choi; Kyeong Lee; Hyo Kyung Han; Jungsook Cho; Seung Bae Rho; Chang Hoon Lee

doi:10.4062/biomolther.2022.066

PRR16/Largen Induces Epithelial-Mesenchymal Transition through the Interaction with ABI2 Leading to the Activation of ABL1 Kinase

Gyeoung Jin Kang, Jung Ho Park, Hyun Ji Kim, Eun Ji Kim, Boram Kim, Hyun Jung Byun, Lu Yu, Tuan Minh Nguyen, Thi Ha Nguyen, Kyung Sung Kim, Hiệu Phùng Huy, Mostafizur Rahman, Ye Hyeon Kim, Ji Yun Jang, Mi Kyung Park, Ho Lee, Chang Ick Choi, Kyeong Lee, Hyo Kyung Han, Jungsook ChoSeung Bae Rho, Chang Hoon Lee

Medicine - Cardiology Division

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Abstract

Advanced or metastatic breast cancer affects multiple organs and is a leading cause of cancer-related death. Cancer metastasis is associated with epithelial-mesenchymal metastasis (EMT). However, the specific signals that induce and regulate EMT in carcinoma cells remain unclear. PRR16/Largen is a cell size regulator that is independent of mTOR and Hippo signalling pathways. However, little is known about the role PRR16 plays in the EMT process. We found that the expression of PRR16 was increased in mesenchymal breast cancer cell lines. PRR16 overexpression induced EMT in MCF7 breast cancer cells and enhances migration and invasion. To determine how PRR16 induces EMT, the binding proteins for PRR16 were screened, revealing that PRR16 binds to Abl interactor 2 (ABI2). We then investigated whether ABI2 is involved in EMT. Gene silencing of ABI2 induces EMT, leading to enhanced migration and invasion. ABI2 is a gene that codes for a protein that interacts with ABL proto-oncogene 1 (ABL1) kinase. Therefore, we investigated whether the change in ABI2 expression affected the activation of ABL1 kinase. The knockdown of ABI2 and PRR16 overexpression increased the phosphorylation of Y412 in ABL1 kinase. Our results suggest that PRR16 may be involved in EMT by binding to ABI2 and interfering with its inhibition of ABL1 kinase. This indicates that ABL1 kinase inhibitors may be potential therapeutic agents for the treatment of PRR16-related breast cancer.

Original language	English (US)
Pages (from-to)	340-347
Number of pages	8
Journal	Biomolecules and Therapeutics
Volume	30
Issue number	4
DOIs	https://doi.org/10.4062/biomolther.2022.066
State	Published - Jul 2022

Bibliographical note

Funding Information:
This study was supported by a grant from the Basic Science Research Program and the BK21 FOUR program through the NRF (NRF-2018R1A5A2023127, NRF-2020R1A2C3004973, NRF-2020R1I1A1A01074006, and NRF-2020M3E5E2038356), the Korea Health Technology R&D Project through the Korea Health Industry Development Institute (KHIDI), funded by the Ministry of Health & Welfare, Korea (HP20C0131), and the BK21 FOUR program through the National Research Foundation (NRF) of Korea funded by the Ministry of Education (MOE, Korea).

Publisher Copyright:
© 2022 The Korean Society of Applied Pharmacology.

Keywords

ABI2
ABL1 kinase
Breast cancer
Epithelial-mesenchymal transition
PRR16

PubMed: MeSH publication types

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Kang, G. J., Park, J. H., Kim, H. J., Kim, E. J., Kim, B., Byun, H. J., Yu, L., Nguyen, T. M., Nguyen, T. H., Kim, K. S., Huy, H. P., Rahman, M., Kim, Y. H., Jang, J. Y., Park, M. K., Lee, H., Choi, C. I., Lee, K., Han, H. K., ... Lee, C. H. (2022). PRR16/Largen Induces Epithelial-Mesenchymal Transition through the Interaction with ABI2 Leading to the Activation of ABL1 Kinase. Biomolecules and Therapeutics, 30(4), 340-347. https://doi.org/10.4062/biomolther.2022.066

Kang, GJ, Park, JH, Kim, HJ, Kim, EJ, Kim, B, Byun, HJ, Yu, L, Nguyen, TM, Nguyen, TH, Kim, KS, Huy, HP, Rahman, M, Kim, YH, Jang, JY, Park, MK, Lee, H, Choi, CI, Lee, K, Han, HK, Cho, J, Rho, SB & Lee, CH 2022, 'PRR16/Largen Induces Epithelial-Mesenchymal Transition through the Interaction with ABI2 Leading to the Activation of ABL1 Kinase', Biomolecules and Therapeutics, vol. 30, no. 4, pp. 340-347. https://doi.org/10.4062/biomolther.2022.066

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title = "PRR16/Largen Induces Epithelial-Mesenchymal Transition through the Interaction with ABI2 Leading to the Activation of ABL1 Kinase",

abstract = "Advanced or metastatic breast cancer affects multiple organs and is a leading cause of cancer-related death. Cancer metastasis is associated with epithelial-mesenchymal metastasis (EMT). However, the specific signals that induce and regulate EMT in carcinoma cells remain unclear. PRR16/Largen is a cell size regulator that is independent of mTOR and Hippo signalling pathways. However, little is known about the role PRR16 plays in the EMT process. We found that the expression of PRR16 was increased in mesenchymal breast cancer cell lines. PRR16 overexpression induced EMT in MCF7 breast cancer cells and enhances migration and invasion. To determine how PRR16 induces EMT, the binding proteins for PRR16 were screened, revealing that PRR16 binds to Abl interactor 2 (ABI2). We then investigated whether ABI2 is involved in EMT. Gene silencing of ABI2 induces EMT, leading to enhanced migration and invasion. ABI2 is a gene that codes for a protein that interacts with ABL proto-oncogene 1 (ABL1) kinase. Therefore, we investigated whether the change in ABI2 expression affected the activation of ABL1 kinase. The knockdown of ABI2 and PRR16 overexpression increased the phosphorylation of Y412 in ABL1 kinase. Our results suggest that PRR16 may be involved in EMT by binding to ABI2 and interfering with its inhibition of ABL1 kinase. This indicates that ABL1 kinase inhibitors may be potential therapeutic agents for the treatment of PRR16-related breast cancer.",

keywords = "ABI2, ABL1 kinase, Breast cancer, Epithelial-mesenchymal transition, PRR16",

author = "Kang, {Gyeoung Jin} and Park, {Jung Ho} and Kim, {Hyun Ji} and Kim, {Eun Ji} and Boram Kim and Byun, {Hyun Jung} and Lu Yu and Nguyen, {Tuan Minh} and Nguyen, {Thi Ha} and Kim, {Kyung Sung} and Huy, {Hiệu Ph{\`u}ng} and Mostafizur Rahman and Kim, {Ye Hyeon} and Jang, {Ji Yun} and Park, {Mi Kyung} and Ho Lee and Choi, {Chang Ick} and Kyeong Lee and Han, {Hyo Kyung} and Jungsook Cho and Rho, {Seung Bae} and Lee, {Chang Hoon}",

note = "Funding Information: This study was supported by a grant from the Basic Science Research Program and the BK21 FOUR program through the NRF (NRF-2018R1A5A2023127, NRF-2020R1A2C3004973, NRF-2020R1I1A1A01074006, and NRF-2020M3E5E2038356), the Korea Health Technology R&D Project through the Korea Health Industry Development Institute (KHIDI), funded by the Ministry of Health & Welfare, Korea (HP20C0131), and the BK21 FOUR program through the National Research Foundation (NRF) of Korea funded by the Ministry of Education (MOE, Korea). Publisher Copyright: {\textcopyright} 2022 The Korean Society of Applied Pharmacology.",

year = "2022",

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doi = "10.4062/biomolther.2022.066",

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AU - Kang, Gyeoung Jin

AU - Park, Jung Ho

AU - Kim, Hyun Ji

AU - Kim, Eun Ji

AU - Kim, Boram

AU - Byun, Hyun Jung

AU - Yu, Lu

AU - Nguyen, Tuan Minh

AU - Nguyen, Thi Ha

AU - Kim, Kyung Sung

AU - Huy, Hiệu Phùng

AU - Rahman, Mostafizur

AU - Kim, Ye Hyeon

AU - Jang, Ji Yun

AU - Park, Mi Kyung

AU - Lee, Ho

AU - Choi, Chang Ick

AU - Lee, Kyeong

AU - Han, Hyo Kyung

AU - Cho, Jungsook

AU - Rho, Seung Bae

AU - Lee, Chang Hoon

N1 - Funding Information: This study was supported by a grant from the Basic Science Research Program and the BK21 FOUR program through the NRF (NRF-2018R1A5A2023127, NRF-2020R1A2C3004973, NRF-2020R1I1A1A01074006, and NRF-2020M3E5E2038356), the Korea Health Technology R&D Project through the Korea Health Industry Development Institute (KHIDI), funded by the Ministry of Health & Welfare, Korea (HP20C0131), and the BK21 FOUR program through the National Research Foundation (NRF) of Korea funded by the Ministry of Education (MOE, Korea). Publisher Copyright: © 2022 The Korean Society of Applied Pharmacology.

PY - 2022/7

Y1 - 2022/7

N2 - Advanced or metastatic breast cancer affects multiple organs and is a leading cause of cancer-related death. Cancer metastasis is associated with epithelial-mesenchymal metastasis (EMT). However, the specific signals that induce and regulate EMT in carcinoma cells remain unclear. PRR16/Largen is a cell size regulator that is independent of mTOR and Hippo signalling pathways. However, little is known about the role PRR16 plays in the EMT process. We found that the expression of PRR16 was increased in mesenchymal breast cancer cell lines. PRR16 overexpression induced EMT in MCF7 breast cancer cells and enhances migration and invasion. To determine how PRR16 induces EMT, the binding proteins for PRR16 were screened, revealing that PRR16 binds to Abl interactor 2 (ABI2). We then investigated whether ABI2 is involved in EMT. Gene silencing of ABI2 induces EMT, leading to enhanced migration and invasion. ABI2 is a gene that codes for a protein that interacts with ABL proto-oncogene 1 (ABL1) kinase. Therefore, we investigated whether the change in ABI2 expression affected the activation of ABL1 kinase. The knockdown of ABI2 and PRR16 overexpression increased the phosphorylation of Y412 in ABL1 kinase. Our results suggest that PRR16 may be involved in EMT by binding to ABI2 and interfering with its inhibition of ABL1 kinase. This indicates that ABL1 kinase inhibitors may be potential therapeutic agents for the treatment of PRR16-related breast cancer.

AB - Advanced or metastatic breast cancer affects multiple organs and is a leading cause of cancer-related death. Cancer metastasis is associated with epithelial-mesenchymal metastasis (EMT). However, the specific signals that induce and regulate EMT in carcinoma cells remain unclear. PRR16/Largen is a cell size regulator that is independent of mTOR and Hippo signalling pathways. However, little is known about the role PRR16 plays in the EMT process. We found that the expression of PRR16 was increased in mesenchymal breast cancer cell lines. PRR16 overexpression induced EMT in MCF7 breast cancer cells and enhances migration and invasion. To determine how PRR16 induces EMT, the binding proteins for PRR16 were screened, revealing that PRR16 binds to Abl interactor 2 (ABI2). We then investigated whether ABI2 is involved in EMT. Gene silencing of ABI2 induces EMT, leading to enhanced migration and invasion. ABI2 is a gene that codes for a protein that interacts with ABL proto-oncogene 1 (ABL1) kinase. Therefore, we investigated whether the change in ABI2 expression affected the activation of ABL1 kinase. The knockdown of ABI2 and PRR16 overexpression increased the phosphorylation of Y412 in ABL1 kinase. Our results suggest that PRR16 may be involved in EMT by binding to ABI2 and interfering with its inhibition of ABL1 kinase. This indicates that ABL1 kinase inhibitors may be potential therapeutic agents for the treatment of PRR16-related breast cancer.

KW - ABI2

KW - ABL1 kinase

KW - Breast cancer

KW - Epithelial-mesenchymal transition

KW - PRR16

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PRR16/Largen Induces Epithelial-Mesenchymal Transition through the Interaction with ABI2 Leading to the Activation of ABL1 Kinase

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

UN SDGs

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