Holtzman D, Tsuji M, Wallimann T, Hemmer W
Department of Neurology, Children's Hospital, Boston, MA 02115.
Dev Neurosci. 1993;15(3-5):261-70. doi: 10.1159/000111343.
The physiological role of the phosphocreatine (PCr)/creatine kinase (CK) system has been studied in rat brain by comparing maturational changes in in vivo CK-catalyzed reaction rate and activities of CK isoenzymes. The CK-catalyzed reaction rates, measured by 31P-nuclear magnetic resonance spectroscopy, increased 4-fold between 12 and 17 days of age. The mitochondrial CK (Mi-CK) isoenzyme, as a percentage of total CK, increased to the same extent over this relatively narrow age period. Cytosolic CK (B-CK) was active earlier and, with the total CK activity, increased steadily over a longer time course. An immunohistochemical study of cerebellum showed Mi-CK predominantly in gray matter, while the cytosolic CK was present in rather large concentrations in both gray and white matter. In the molecular layer, B-CK was most prominent in the Bergmann glial cells, while Mi-CK was more prominent in Purkinje neurons. During development a redistribution of Mi-CK from the Purkinje cell bodies to their processes was observed. These results point to regional differences in CK content and in isoenzyme-specific localizations. The increase in CK activity is temporally coincident with the maturational appearance of closely coupled decreases in brain PCr and ATP during hypoxia. These maturational changes suggest that the activity of the PCr/CK system, particularly the Mi-CK isoenzyme, is central in regulation of brain ATP.
通过比较体内肌酸激酶(CK)催化反应速率和CK同工酶活性的成熟变化,研究了磷酸肌酸(PCr)/肌酸激酶(CK)系统在大鼠脑中的生理作用。通过31P-核磁共振波谱法测得的CK催化反应速率在12至17日龄之间增加了4倍。线粒体CK(Mi-CK)同工酶占总CK的百分比在这个相对狭窄的年龄范围内也增加到相同程度。胞质CK(B-CK)更早具有活性,并且与总CK活性一起在更长的时间过程中稳步增加。小脑的免疫组织化学研究表明,Mi-CK主要存在于灰质中,而胞质CK在灰质和白质中均以相当高的浓度存在。在分子层中,B-CK在伯格曼胶质细胞中最为突出,而Mi-CK在浦肯野神经元中更为突出。在发育过程中,观察到Mi-CK从浦肯野细胞体向其突起的重新分布。这些结果表明CK含量和同工酶特异性定位存在区域差异。CK活性的增加在时间上与缺氧期间脑PCr和ATP紧密耦合下降的成熟出现相吻合。这些成熟变化表明,PCr/CK系统的活性,特别是Mi-CK同工酶,在脑ATP的调节中起核心作用。
