TY - JOUR
T1 - Palmitic acid-induced lipotoxicity and protection by (+)-catechin in rat cortical astrocytes
AU - Wong, Kar Lok
AU - Wu, Yu Ru
AU - Cheng, Ka Shun
AU - Chan, Paul
AU - Cheung, Chi Wai
AU - Lu, Dah Yuu
AU - Su, Tzu Hui
AU - Liu, Zhong Min
AU - Leung, Yuk Man
N1 - Funding Information:
Supported by grant No. NSC-101-2320-B-039-030-MY2 (to KL Wong) from the National Science Council, Taipei, Taiwan , and grant No. DMR-101-079 and DMR-103-070 (to KL Wong) from the China Medical University, Taichung, Taiwan . Presented in part at the 18th World Congress on Heart Disease, Annual Scientific Sessions, Vancouver, BC, Canada, July 26–29, 2013.
PY - 2014/12
Y1 - 2014/12
N2 - Background Astrocytes do not only maintain homeostasis of the extracellular milieu of the neurons, but also play an active role in modulating synaptic transmission. Palmitic acid (PA) is a saturated fatty acid which, when being excessive, is a significant risk factor for lipotoxicity. Activation of astrocytes by PA has been shown to cause neuronal inflammation and demyelination. However, direct damage by PA to astrocytes is relatively unexplored. The aim of this study was to identify the mechanism(s) of PA-induced cytotoxicity in rat cortical astrocytes and possible protection by (+)-catechin. Methods Cytotoxicity and endoplasmic reticulum (ER) markers were assessed by MTT assay and Western blotting, respectively. Cytosolic Ca 2+ and mitochondrial membrane potential (MMP) were measured microfluorimetrically using fura-2 and rhodamine 123, respectively. Intracellular reactive oxygen species (ROS) production was assayed by the indicator 2′-7′-dichlorodihydrofluorescein diacetate. Results Exposure of astrocytes to 100 μM PA for 24 h resulted in apoptotic cell death. Whilst PA-induced cell death appeared to be unrelated to ER stress and perturbation in cytosolic Ca2+ signaling, it was likely a result of ROS production and subsequent MMP collapse, since ascorbic acid (anti-oxidant, 100 μM) prevented PA-induced MMP collapse and cell death. Co-treatment of astrocytes with (+)-catechin (300 μM), an anti-oxidant found abundantly in green tea, significantly prevented PA-induced ROS production, MMP collapse and cell death. Conclusion Our results suggest that PA-induced cytotoxicity in astrocytes may involve ROS generation and MMP collapse, which can be prevented by (+)-catechin.
AB - Background Astrocytes do not only maintain homeostasis of the extracellular milieu of the neurons, but also play an active role in modulating synaptic transmission. Palmitic acid (PA) is a saturated fatty acid which, when being excessive, is a significant risk factor for lipotoxicity. Activation of astrocytes by PA has been shown to cause neuronal inflammation and demyelination. However, direct damage by PA to astrocytes is relatively unexplored. The aim of this study was to identify the mechanism(s) of PA-induced cytotoxicity in rat cortical astrocytes and possible protection by (+)-catechin. Methods Cytotoxicity and endoplasmic reticulum (ER) markers were assessed by MTT assay and Western blotting, respectively. Cytosolic Ca 2+ and mitochondrial membrane potential (MMP) were measured microfluorimetrically using fura-2 and rhodamine 123, respectively. Intracellular reactive oxygen species (ROS) production was assayed by the indicator 2′-7′-dichlorodihydrofluorescein diacetate. Results Exposure of astrocytes to 100 μM PA for 24 h resulted in apoptotic cell death. Whilst PA-induced cell death appeared to be unrelated to ER stress and perturbation in cytosolic Ca2+ signaling, it was likely a result of ROS production and subsequent MMP collapse, since ascorbic acid (anti-oxidant, 100 μM) prevented PA-induced MMP collapse and cell death. Co-treatment of astrocytes with (+)-catechin (300 μM), an anti-oxidant found abundantly in green tea, significantly prevented PA-induced ROS production, MMP collapse and cell death. Conclusion Our results suggest that PA-induced cytotoxicity in astrocytes may involve ROS generation and MMP collapse, which can be prevented by (+)-catechin.
KW - Astrocytes
KW - Mitochondrial membrane potential
KW - Palmitic acid
KW - Reactive oxygen species
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U2 - 10.1016/j.pharep.2014.07.009
DO - 10.1016/j.pharep.2014.07.009
M3 - Article
C2 - 25443742
AN - SCOPUS:84908672634
SN - 2299-5684
VL - 66
SP - 1106
EP - 1113
JO - Pharmacological Reports
JF - Pharmacological Reports
IS - 6
ER -