ISCHEMIA-INDUCED TRANSLOCATION OF CA2+/CALMODULIN-DEPENDENT PROTEIN-KINASE .2. POTENTIAL ROLE IN NEURONAL DAMAGE

被引：137

作者：

ARONOWSKI, J ^{[1
]}

GROTTA, JC ^{[1
]}

WAXHAM, MN ^{[1
]}

机构：

[1] UNIV TEXAS,HLTH SCI CTR,DEPT NEUROBIOL & ANAT,POB 20708,ROOM 7254,HOUSTON,TX 77225

来源：

JOURNAL OF NEUROCHEMISTRY | 1992年 / 58卷 / 05期

关键词：

CA2+/CALMODULIN-DEPENDENT PROTEIN KINASE-II; CA2+/PHOSPHOLIPID-DEPENDENT PROTEIN KINASE; CYCLIC AMP-DEPENDENT PROTEIN KINASE; ISCHEMIA; TRANSLOCATION; PHOSPHORYLATION;

D O I：

10.1111/j.1471-4159.1992.tb10049.x

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

The activities of Ca2+/calmodulin (CaM)-dependent, Ca2+/phospholipid-dependent, and cyclic AMP-dependent protein kinases (CaM-KII, PKC, and PKA, respectively) were determined in rat brains after global ischemia. Both CaM-KII and PKC activities were significantly depressed in both hippocampal and cerebral cortical regions of ischemic animals, whereas no change was detected in PKA activity. The loss of CaM-KII activity was more dramatic and more sustained than the loss of PKC activity and correlated with the duration of ischemia. These decreases in enzyme activity were found in both supernatant and pellet fractions from crude homogenates. When the supernatant and pellet were analyzed for the amount of CaM-KII 50-kDa protein, a significant decrease was detected in supernatant fractions that paralleled a gain in the amount of CaM-KII in the pellet. Thus, the loss of CaM-KII activity in the supernatant can be explained by translocation of the enzyme to the pellet. Whether inactivation of CaM-KII occurs during or after the enzyme translocates from the supernatant to the pellet is unknown. Our results indicate that loss in CaM-KII activity parallels neuronal damage associated with ischemia; down-regulation of CaM-KII activity coincided with translocation of the enzyme to the particulate fraction, and it is proposed that this may be, in fact, a mechanism for controlling excessive CaM-KII phosphorylation.

引用

页码：1743 / 1753

页数：11

共 44 条

[1]

BORNER C, 1989, J BIOL CHEM, V264, P13902

[2] EFFECT OF MILD HYPOTHERMIA ON ISCHEMIA-INDUCED RELEASE OF NEUROTRANSMITTERS AND FREE FATTY-ACIDS IN RAT-BRAIN [J].

BUSTO, R ;

GLOBUS, MY ;

DIETRICH, WD ;

MARTINEZ, E ;

VALDES, I ;

GINSBERG, MD .

STROKE, 1989, 20 (07) :904-910

[3] CALCIUM-MEDIATED NEUROTOXICITY - RELATIONSHIP TO SPECIFIC CHANNEL TYPES AND ROLE IN ISCHEMIC DAMAGE [J].

CHOI, DW .

TRENDS IN NEUROSCIENCES, 1988, 11 (10) :465-469

[4]

CHOI DW, 1990, J NEUROSCI, V10, P2493

[5]

CHURN SB, 1990, STROKE, V21, P112

[6] PROTEIN-KINASE-C ACTIVITY IN RAT-BRAIN CORTEX [J].

CRUMRINE, RC ;

LAMANNA, JC .

JOURNAL OF NEUROCHEMISTRY, 1990, 55 (03) :826-831

[7] DECREASED PROTEIN-KINASE-C ACTIVITY DURING CEREBRAL-ISCHEMIA AND AFTER REPERFUSION IN THE ADULT-RAT [J].

CRUMRINE, RC ;

DUBYAK, G ;

LAMANNA, JC .

JOURNAL OF NEUROCHEMISTRY, 1990, 55 (06) :2001-2007

[8] NEW TABLES FOR MULTIPLE COMPARISONS WITH CONTROL [J].

DUNNETT, CW .

BIOMETRICS, 1964, 20 (03) :482-&

[9] DOWN-REGULATION OF PROTEIN KINASE-C PROTECTS CEREBELLAR GRANULE NEURONS IN PRIMARY CULTURE FROM GLUTAMATE-INDUCED NEURONAL DEATH [J].

FAVARON, M ;

MANEV, H ;

SIMAN, R ;

BERTOLINO, M ;

SZEKELY, AM ;

DEERAUSQUIN, G ;

GUIDOTTI, A ;

COSTA, E .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1990, 87 (05) :1983-1987

[10] AUTOPHOSPHORYLATION OF PROTEIN KINASE-C AT 3-SEPARATED REGIONS OF ITS PRIMARY SEQUENCE [J].

FLINT, AJ ;

PALADINI, RD ;

KOSHLAND, DE .

SCIENCE, 1990, 249 (4967) :408-411

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