Hypoxia promotes glycogen synthesis and accumulation in human ovarian clear cell carcinoma

  • Authors: Yasushi Iida, Katsuhiko Aoki, Tadashi Asakura, Kazu Ueda, Nozomu Yanaihara, Satoshi Takakura, Kyosuke Yamada, Aikou Okamoto, Tadao Tanaka, Kiyoshi Ohkawa
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  • Published online on: Monday, March 19, 2012
  • Pages: 2122-2130
  • DOI: 10.3892/ijo.2012.1406

Abstract

Ovarian clear cell carcinoma (OCCC) has several significant characteristics based on molecular features that are distinct from those of ovarian high-grade serous carcinoma. Cellular glycogen accumulation is the most conspicuous feature of OCCC and in the present study its metabolic mechanism was investigated. The amount of glycogen in cells cultured under hypoxia increased significantly and approximately doubled after 48 h (P<0.01) compared to that under normoxic conditions. Periodic acid-Schiff positive staining also demonstrated intracellular glycogen storage. Western blot analysis revealed that HIF1α, which was overexpressed and stabilized under hypoxic conditions, led to an increase in the levels of cellular glycogen synthase 1, muscle type (GYS1), and conversely to a decrease in inactive phosphorylated GYS1 at serine (Ser) 641. Additional increases were observed in both protein phosphatase 1, which dephosphorylates and thereby induces GYS1 enzyme activity, and glycogen synthase kinase 3 beta (GSK3β) phosphorylated at Ser9, which is inactive on phosphorylation of GYS1 and subsequently induces its enzyme activity. By contrast, the level of PYGM-b decreased. These results indicated that the glycogen accumulation under a hypoxic environment resulted in the promotion of glycogen synthesis, but did not lead to inhibition of glycogen degradation and/or consumption. Under hypoxic conditions, HAC2 cells showed activation of the PI3K/AKT pathway caused by a mutation in exon 20 of PIK3CA, encoding the catalytic subunit p110α of PI3K. The resulting activation of AKT (phosphoSer473) also plays a role as a central enhancer in glycogen synthesis through suppression of GSK3β via phosphorylation at Ser9. Hypoxia decreased the cytocidal activity of cisplatin and doxorubicin to various degrees. In conclusion, the hypoxic conditions together with HIF1 expression and stabilization increased the intracellular glycogen contents and resistance to the anticancer drugs.
Journal Cover

June 2012
Volume 40 Issue 6

Print ISSN: 1019-6439
Online ISSN:1791-2423

2012 Impact Factor: 2.657
Ranked #31/196 Oncology
(total number of cites)

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APA
Iida, Y., Aoki, K., Asakura, T., Ueda, K., Yanaihara, N., Takakura, S., Yamada, K., Okamoto, A., Tanaka, T., & Ohkawa, K. (2012). Hypoxia promotes glycogen synthesis and accumulation in human ovarian clear cell carcinoma. International Journal of Oncology, 40(6), 2122-2130.
MLA
Iida, Aoki, Asakura, Ueda, Yanaihara, Takakura, Yamada, Okamoto, Tanaka, and Kiyoshi Ohkawa. "Hypoxia promotes glycogen synthesis and accumulation in human ovarian clear cell carcinoma." International Journal of Oncology International Journal of Oncology 40.6 (2012): 2122-2130.
Chicago
Iida, Aoki, Asakura, Ueda, Yanaihara, Takakura, Yamada, Okamoto, Tanaka, and Kiyoshi Ohkawa. "Hypoxia promotes glycogen synthesis and accumulation in human ovarian clear cell carcinoma." International Journal of Oncology International Journal of Oncology 40 no. 6 (2012): 2122-2130.