Asian Spine J.  2015 Aug;9(4):495-502. 10.4184/asj.2015.9.4.495.

Rat Notochordal Cells Undergo Premature Stress-Induced Senescence by High Glucose

Affiliations
  • 1Department of Orthopedic Surgery, Uijeongbu St. Mary's Hospital, College of Medicine, The Catholic University of Korea, Uijeongbu, Korea. spinepjb@catholic.ac.kr

Abstract

STUDY DESIGN: In vitro cell culture. PURPOSE: The purpose of the study was to investigate the effect of high glucose on premature stress-induced senescence of rat notochordal cells. OVERVIEW OF LITERATURE: Glucose-mediated increase of oxidative stress is a major causative factor for the development of diseases associated with diabetes mellitus such as senescence. However, no information is available for the effect of high glucose on premature stress-induced senescence of rat notochordal cells.
METHODS
Notochordal cells were isolated from 4-week-old rats, cultured and placed in either 10% fetal bovine serum (FBS, normal control) or 10% FBS plus two high glucose concentrations (0.1 M and 0.2 M, experimental conditions) for 1 and 3 days. We identified and quantified the mitochondrial damage (mitochondrial transmembrane potential), reactive oxygen species (ROS) and antioxidants, such as manganese superoxide dismutase (MnSOD) and catalase, for each condition. We also identified and quantified senescence and telomerase activity. Finally, we determined the expression of proteins related to replicative senescence (p53-p21-pRB) and stress-induced senescence (p16-pRB) pathways.
RESULTS
Two high glucose concentrations enhanced the disruption of mitochondrial transmembrane potential and excessive generation of ROS in notochordal cells for 1 and 3 days, respectively. The expressions of MnSOD and catalase were increased in notochordal cells treated with both high glucose concentrations at 1 and 3 days. The telomerase activity declined at 1 and 3 days. Two high glucose concentrations increased the occurrence of stress-induced senescence of notochordal cells by p16-pRB pathways at 1 and 3 days.
CONCLUSIONS
Despite compensatory expression of antioxidants, high glucose-induced oxidative stress accelerates stress-induced senescence in rat notochordal cells. This may result in dysfunction of notochordal cells, leading to accelerated premature disc degeneration. The prevention of excessive generation of oxidative stress by strict blood glucose control is important to prevent or to delay premature disc degeneration in young patients with diabetes mellitus.

Keyword

High glucose; Stress-induced senescence; Notochordal cells; Intervertebral disc degeneration

MeSH Terms

Aging*
Animals
Antioxidants
Blood Glucose
Catalase
Cell Aging
Cell Culture Techniques
Diabetes Mellitus
Glucose*
Humans
Intervertebral Disc Degeneration
Membrane Potentials
Notochord*
Oxidative Stress
Rats*
Reactive Oxygen Species
Superoxide Dismutase
Telomerase
Antioxidants
Blood Glucose
Catalase
Glucose
Reactive Oxygen Species
Superoxide Dismutase
Telomerase
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