TY - JOUR
T1 - A novel inhibitor of advanced glycation and endoplasmic reticulum stress reduces infarct volume in rat focal cerebral ischemia
AU - Takizawa, Shunya
AU - Izuhara, Yuko
AU - Kitao, Yasuko
AU - Hori, Osamu
AU - Ogawa, Satoshi
AU - Morita, Yuko
AU - Takagi, Shigeharu
AU - van Ypersele de Strihou, Charles
AU - Miyata, Toshio
N1 - Funding Information:
This study was supported by a grant from the Program for Promotion of Fundamental Studies in Health Sciences of the Pharmaceuticals and Medical Devices Agency (PMDA) to T.M. The skillful technical assistance of Kiyokazu Nakazato, Saori Kohara, and Yoko Takahari (Tokai University) is gratefully acknowledged. Appendix A
PY - 2007/12/5
Y1 - 2007/12/5
N2 - We have developed a novel, non-toxic inhibitor of advanced glycation and oxidative stress, TM2002, devoid of effect on blood pressure. In transient focal ischemia, TM2002 significantly decreased infarct volume compared with vehicle (79.5 ± 18.7 vs. 183.3 ± 22.9 mm3, p < 0.01). In permanent focal ischemia, TM2002 (2.79, 5.58, and 11.16 mg/kg twice a day) dose-dependently reduced infarct volume (242.1 ± 32.3, 201.3 ± 15.1, and 171.3 ± 15.2 mm3, respectively), and improved neurological deficits. Reduction of infarct volume is demonstrable, provided that TM2002 was administered within 1.5 h after the occlusion. To unravel TM2002's mechanism of action, we examined its in vitro effect on endoplasmic reticulum (ER) stress, using aortic smooth muscle cells isolated from ORP 150+/- mice and F9 Herp null mutated cells. Cell death induced by ER stress (tunicamycin or hypoxia) was dose-dependently prevented by TM2002. In vivo immunohistochemical study demonstrated a significant reduction of ORP- and TUNEL-positive apoptotic cells, especially in the penumbra. Inhibition of advanced glycation and oxidative stress was confirmed by a significantly reduced number of cells positive for advanced glycation end products and heme oxygenase-1. TM2002 reduced the levels of protein carbonyl formation in ischemic caudate. The efficacy of TM2002 is equivalent to that of a known neuroprotective agent, NXY-059. In conclusion, TM2002 significantly ameliorates ischemic cerebral damage through reduction of ER stress, advanced glycation, and oxidative stress, independently of blood pressure lowering.
AB - We have developed a novel, non-toxic inhibitor of advanced glycation and oxidative stress, TM2002, devoid of effect on blood pressure. In transient focal ischemia, TM2002 significantly decreased infarct volume compared with vehicle (79.5 ± 18.7 vs. 183.3 ± 22.9 mm3, p < 0.01). In permanent focal ischemia, TM2002 (2.79, 5.58, and 11.16 mg/kg twice a day) dose-dependently reduced infarct volume (242.1 ± 32.3, 201.3 ± 15.1, and 171.3 ± 15.2 mm3, respectively), and improved neurological deficits. Reduction of infarct volume is demonstrable, provided that TM2002 was administered within 1.5 h after the occlusion. To unravel TM2002's mechanism of action, we examined its in vitro effect on endoplasmic reticulum (ER) stress, using aortic smooth muscle cells isolated from ORP 150+/- mice and F9 Herp null mutated cells. Cell death induced by ER stress (tunicamycin or hypoxia) was dose-dependently prevented by TM2002. In vivo immunohistochemical study demonstrated a significant reduction of ORP- and TUNEL-positive apoptotic cells, especially in the penumbra. Inhibition of advanced glycation and oxidative stress was confirmed by a significantly reduced number of cells positive for advanced glycation end products and heme oxygenase-1. TM2002 reduced the levels of protein carbonyl formation in ischemic caudate. The efficacy of TM2002 is equivalent to that of a known neuroprotective agent, NXY-059. In conclusion, TM2002 significantly ameliorates ischemic cerebral damage through reduction of ER stress, advanced glycation, and oxidative stress, independently of blood pressure lowering.
KW - Advanced glycation end product
KW - ER stress
KW - Heme oxygenase
KW - Infarct volume
KW - ORP150
KW - Transient cerebral ischemia
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U2 - 10.1016/j.brainres.2007.07.006
DO - 10.1016/j.brainres.2007.07.006
M3 - Article
C2 - 17976543
AN - SCOPUS:36049036624
SN - 0006-8993
VL - 1183
SP - 124
EP - 137
JO - Brain Research
JF - Brain Research
IS - 1
ER -