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Designing an effective drug combination for ER stress loading in cancer therapy using a real-time monitoring system

Journal Article · · Biochemical and Biophysical Research Communications
;  [1];  [2]; ;  [1]
  1. Department of Biochemistry, Tokyo Medical Univeristy, Tokyo (Japan)
  2. Department of Breast Oncology and Surgery, Tokyo Medical University, Tokyo (Japan)
+ Show Author Affiliations
Excess stress caused by accumulation of misfolded proteins inside the endoplasmic reticulum (ER) lumen can cause cells to undergo apoptosis. Misfolded proteins exported from ER to cytoplasm are ubiquitinated and mostly degraded by the proteasome, but can also be destroyed by autophagy mediated by the docking proteins p62 and NBR1. When misfolded proteins accumulate beyond the capacity of these clearance systems, they are transported to the microtubule organization center to form aggresomes, which are also degraded by autophagy. Together, these phenomena suggest the existence of a coordinated intracellular network for coping with the accumulation of misfolded proteins. Thus, rational inhibition of this network system might enhance killing of cancer cells subjected to pronounced ER stress loading. Based on this rationale, we sought to establish a quantitative assay for monitoring ER stress loading. MDA-MB231 cells stably transfected with the ERAI-Venus vector exhibited a strong XBP1 splicing signal in response to ER stress. Using the IncuCyte cell imaging system, we monitored the fluorescence intensity of XBP1-Venus, normalized against cell density, as an ER stress indicator. This parameter correlated closely with other reporters of unfolded protein responses. Assessment of the XBP1-Venus signal during exposure to various drug combinations revealed that simultaneous inhibition of the proteasome, autophagy, and aggresome formation led to more effective ER stress loading and higher cytotoxicity than inhibition of only two components. Our data suggest that this monitoring system is a useful tool for designing effective drug combinations for ER stress loading in cancer therapy.
OSTI ID:
23125125
Journal Information:
Biochemical and Biophysical Research Communications, Journal Name: Biochemical and Biophysical Research Communications Journal Issue: 1 Vol. 501; ISSN 0006-291X; ISSN BBRCA9
Country of Publication:
United States
Language:
English

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Related Subjects

60 APPLIED LIFE SCIENCES
CYTOPLASM
ENDOPLASMIC RETICULUM
MICROTUBULES
TOXICITY