Role of reactive oxygen species-dependent protein aggregation in metabolic stress-induced necrosis

  • Authors:
    • Cho Hee Kim
    • Hyun Min Jeon
    • Su Yeon Lee
    • Eui Kyong Jeong
    • Min Kyung Ju
    • Bum Joon Park
    • Hye Gyeong Park
    • Sung-Chul Lim
    • Song Iy Han
    • Ho Sung Kang
  • View Affiliations

  • Published online on: July 1, 2010     https://doi.org/10.3892/ijo_00000657
  • Pages: 97-102
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Abstract

Cancer cells in the inner region of avascularized solid tumours experience metabolical stress by hypoxic and glucose depletion (OGD) and are prone to die by necrosis to form a necrotic core, a common feature of solid tumours. Unlike in apoptosis, where the cellular contents remain packed in the apoptotic bodies that are removed by marcrophages, necrosis is characterized by cell membrane rupture, and the release of many cellular proteins including tumour promoting cytokine high mobility group box 1 (HMGB1) into the extra-cellular space. Although ROS produced by metabolic stress are known to cause membrane damage leading to the plasma membrane rupture, its molecular mechanism remains unclear. In this study, we show that some cellular proteins including pro-apoptotic molecules p53, caspase-3, and caspase-9 and a pro-autophagic molecule beclin 1 are not released into the extracellular space but rather aggregated in the cytosol during GD-induced necrosis and that the protein aggregation occurs in a ROS-dependent manner. We also found that Snail, the transcription factor that is induced by GD, was not translocated to the nucleus and aggregated in the cytosol. In addition, Snail interference appeared to block metabolic stress-induced protein aggregation, indicating a critical role(s) of Snail in the protein aggregation. These results demonstrate that in metabolically stressed cancer cells, ROS induce a specific set of cellular proteins to form insoluble aggregates that are highly toxic to cells and trigger the necrosis-associated membrane rupture and HMGB1 release to promote tumour progression.

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July 2010
Volume 37 Issue 1

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

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Spandidos Publications style
Kim CH, Jeon HM, Lee SY, Jeong EK, Ju MK, Park BJ, Park HG, Lim S, Han SI, Kang HS, Kang HS, et al: Role of reactive oxygen species-dependent protein aggregation in metabolic stress-induced necrosis. Int J Oncol 37: 97-102, 2010.
APA
Kim, C.H., Jeon, H.M., Lee, S.Y., Jeong, E.K., Ju, M.K., Park, B.J. ... Kang, H.S. (2010). Role of reactive oxygen species-dependent protein aggregation in metabolic stress-induced necrosis. International Journal of Oncology, 37, 97-102. https://doi.org/10.3892/ijo_00000657
MLA
Kim, C. H., Jeon, H. M., Lee, S. Y., Jeong, E. K., Ju, M. K., Park, B. J., Park, H. G., Lim, S., Han, S. I., Kang, H. S."Role of reactive oxygen species-dependent protein aggregation in metabolic stress-induced necrosis". International Journal of Oncology 37.1 (2010): 97-102.
Chicago
Kim, C. H., Jeon, H. M., Lee, S. Y., Jeong, E. K., Ju, M. K., Park, B. J., Park, H. G., Lim, S., Han, S. I., Kang, H. S."Role of reactive oxygen species-dependent protein aggregation in metabolic stress-induced necrosis". International Journal of Oncology 37, no. 1 (2010): 97-102. https://doi.org/10.3892/ijo_00000657