TY - JOUR
T1 - Attenuation of isoproterenol-mediated myocardial injury in rat by an inhibitor of polyamine synthesis
AU - Tipnis, Ulka R.
AU - He, Gui Ying
AU - Li, Suzhen
AU - Campbell, Gerald
AU - Boor, Paul J.
N1 - Funding Information:
The authors thank Tom Bedernak for photography and Merrel Hoechst Marion Roussel, Inc., Research Institute for providing DFMO. This research was supported by American Heart Association, National (# 96010090) awarded to Ulka R. Tipnis.
PY - 2000
Y1 - 2000
N2 - Objective: Ornithine decarboxylase (ODC) is an initial rate-limiting enzyme in the synthesis of polyamines (putrescine, spermidine, and spermine) that play a role in cell growth and differentiation. Recent studies have shown that spermidine and spermine cause injury to a variety of cells including myocytes in vitro. In this investigation, we used α-difluoromethylornithine (DFMO), a specific and irreversible inhibitor of ODC activity and polyamine synthesis to test the hypothesis that polyamines contribute to myocardial injury in rat. Methods: Male Sprague Dawley rats were treated with (i) saline (0.2 ml/day, s.c.), (ii) isoproterenol (ISO) (5 mg/kg/day for 8 days, s.c.) to produce necrotizing myocardial injury, or with (iii) DFMO + ISO. DFMO was started 2 days before the initiation of ISO and both ISO and DFMO were continued until the end of the experimental period. Myocardial injury was assessed by determining the increased release of creatine phosphokinase (CPK) and lactate dehydrogenase (LDH) into the plasma, and by morphometric analysis of the lesion area in heart sections stained with Gomori trichrome. Results: ISO induced the release of CPK and LDH by 6 hr and 24 hr, respectively, and produced subendocardial necrosis, which was both acute and resolving following 8 days of ISO. DFMO treatment inhibited ISO-induced increases in (i) ODC activity and putrescine and spermidine levels in heart, (ii) CPK and LDH activity in plasma, and (iii) the area of subendocardial lesions. Conclusions: These observations suggest that polyamines are one of the intracellular factors that contribute to ISO-mediated cardiac injury in the rat. (C) 2000 by Elsevier Science Inc.
AB - Objective: Ornithine decarboxylase (ODC) is an initial rate-limiting enzyme in the synthesis of polyamines (putrescine, spermidine, and spermine) that play a role in cell growth and differentiation. Recent studies have shown that spermidine and spermine cause injury to a variety of cells including myocytes in vitro. In this investigation, we used α-difluoromethylornithine (DFMO), a specific and irreversible inhibitor of ODC activity and polyamine synthesis to test the hypothesis that polyamines contribute to myocardial injury in rat. Methods: Male Sprague Dawley rats were treated with (i) saline (0.2 ml/day, s.c.), (ii) isoproterenol (ISO) (5 mg/kg/day for 8 days, s.c.) to produce necrotizing myocardial injury, or with (iii) DFMO + ISO. DFMO was started 2 days before the initiation of ISO and both ISO and DFMO were continued until the end of the experimental period. Myocardial injury was assessed by determining the increased release of creatine phosphokinase (CPK) and lactate dehydrogenase (LDH) into the plasma, and by morphometric analysis of the lesion area in heart sections stained with Gomori trichrome. Results: ISO induced the release of CPK and LDH by 6 hr and 24 hr, respectively, and produced subendocardial necrosis, which was both acute and resolving following 8 days of ISO. DFMO treatment inhibited ISO-induced increases in (i) ODC activity and putrescine and spermidine levels in heart, (ii) CPK and LDH activity in plasma, and (iii) the area of subendocardial lesions. Conclusions: These observations suggest that polyamines are one of the intracellular factors that contribute to ISO-mediated cardiac injury in the rat. (C) 2000 by Elsevier Science Inc.
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U2 - 10.1016/S1054-8807(00)00038-7
DO - 10.1016/S1054-8807(00)00038-7
M3 - Article
C2 - 11064274
AN - SCOPUS:0033734839
SN - 1054-8807
VL - 9
SP - 273
EP - 280
JO - Cardiovascular Pathology
JF - Cardiovascular Pathology
IS - 5
ER -