TY - JOUR
T1 - Ppp6c deficiency accelerates K-rasG12D-induced tongue carcinogenesis
AU - Kishimoto, Kazuhiro
AU - Kanazawa, Kosuke
AU - Nomura, Miyuki
AU - Tanaka, Takuji
AU - Shigemoto-Kuroda, Taeko
AU - Fukui, Katsuya
AU - Miura, Koh
AU - Kurosawa, Koreyuki
AU - Kawai, Masaaki
AU - Kato, Hiroyuki
AU - Terasaki, Keiko
AU - Sakamoto, Yoshimi
AU - Yamashita, Yoji
AU - Sato, Ikuro
AU - Tanuma, Nobuhiro
AU - Tamai, Keiichi
AU - Kitabayashi, Issay
AU - Matsuura, Kazuto
AU - Watanabe, Toshio
AU - Yasuda, Jun
AU - Tsuji, Hiroyuki
AU - Shima, Hiroshi
N1 - Publisher Copyright:
© 2021 The Authors. Cancer Medicine published by John Wiley & Sons Ltd.
PY - 2021/7
Y1 - 2021/7
N2 - Background: Effective treatments for cancer harboring mutant RAS are lacking. In Drosophila, it was reported that PP6 suppresses tumorigenicity of mutant RAS. However, the information how PP6 regulates oncogenic RAS in mammals is limited. Methods: We examined the effects of PP6 gene (Ppp6c) deficiency on tongue tumor development in K (K-rasG12D)- and KP (K-rasG12D + Trp53-deficient)-inducible mice. Results: Mice of K and KP genotypes developed squamous cell carcinoma in situ in the tongue approximately 2 weeks after the induction of Ppp6c deficiency and was euthanized due to 20% loss of body weight. Transcriptome analysis revealed significantly different gene expressions between tissues of Ppp6c-deficient tongues and those of Ppp6c wild type, while Trp53 deficiency had a relatively smaller effect. We then analyzed genes commonly altered by Ppp6c deficiency, with or without Trp53 deficiency, and identified a group concentrated in KEGG database pathways defined as ‘Pathways in Cancer’ and ‘Cytokine-cytokine receptor interaction’. We then evaluated signals downstream of oncogenic RAS and those regulated by PP6 substrates and found that in the presence of K-rasG12D, Ppp6c deletion enhanced the activation of the ERK-ELK1-FOS, AKT-4EBP1, and AKT-FOXO-CyclinD1 axes. Ppp6c deletion combined with K-rasG12D also enhanced DNA double-strand break (DSB) accumulation and activated NFκB signaling, upregulating IL-1β, COX2, and TNF.
AB - Background: Effective treatments for cancer harboring mutant RAS are lacking. In Drosophila, it was reported that PP6 suppresses tumorigenicity of mutant RAS. However, the information how PP6 regulates oncogenic RAS in mammals is limited. Methods: We examined the effects of PP6 gene (Ppp6c) deficiency on tongue tumor development in K (K-rasG12D)- and KP (K-rasG12D + Trp53-deficient)-inducible mice. Results: Mice of K and KP genotypes developed squamous cell carcinoma in situ in the tongue approximately 2 weeks after the induction of Ppp6c deficiency and was euthanized due to 20% loss of body weight. Transcriptome analysis revealed significantly different gene expressions between tissues of Ppp6c-deficient tongues and those of Ppp6c wild type, while Trp53 deficiency had a relatively smaller effect. We then analyzed genes commonly altered by Ppp6c deficiency, with or without Trp53 deficiency, and identified a group concentrated in KEGG database pathways defined as ‘Pathways in Cancer’ and ‘Cytokine-cytokine receptor interaction’. We then evaluated signals downstream of oncogenic RAS and those regulated by PP6 substrates and found that in the presence of K-rasG12D, Ppp6c deletion enhanced the activation of the ERK-ELK1-FOS, AKT-4EBP1, and AKT-FOXO-CyclinD1 axes. Ppp6c deletion combined with K-rasG12D also enhanced DNA double-strand break (DSB) accumulation and activated NFκB signaling, upregulating IL-1β, COX2, and TNF.
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U2 - 10.1002/cam4.3962
DO - 10.1002/cam4.3962
M3 - Article
C2 - 34145991
AN - SCOPUS:85107915098
SN - 2045-7634
VL - 10
SP - 4451
EP - 4464
JO - Cancer Medicine
JF - Cancer Medicine
IS - 13
ER -