磷酸化酶激酶缺乏症中的代谢适应。小鼠腿部肌肉强直刺激期间代谢物浓度的变化。
Metabolic adaptation in phosphorylase kinase deficiency. Changes in metabolite concentrations during tetanic stimulation of mouse leg muscles.
作者信息
Rahim Z H, Perrett D, Lutaya G, Griffiths J R
出版信息
Biochem J. 1980 Jan 15;186(1):331-41. doi: 10.1042/bj1860331.
Abstract
- Glycogen, nucleotides and glycolytic intermediates and products were measured before and during tetanus in the hamstrings-muscle groups of normal (C3H) and phosphorylase kinase-deficient (ICR/IAn) mice. 2. Phosphorylase kinase-deficient muscles contained 3-4-fold more glycogen and sustained a larger (approx. 2-fold), more rapid (11 +/- 2 ng/s faster) and more prolonged glycogenolysis during 120s tetanus despite their lack of phosphorylase a. 3. No significant change in total adenine nucleotide contents occurred during tetanus in either strain, but there was a 60-100-fold rise in IMP concentration to approx. 2mM in both strains. The initial rate of IMP formation was 6-fold more rapid (112 nmol/s per g) in phosphorylase kinase-deficient muscle. 4. Adenylosuccinate content rose to 36 nmol/g in phosphorylase kinase-deficient muscle and to 9 nmol/g in normal muscle at 45s tetanus, but then fell. 5. In phosphorylase kinase-deficient muscle, glucose 6-phosphate, a powerful phosphorylase inhibitor, was 56% of that in normal muscle. 6. The mass-action ratio of the phosphoglucomutase-catalysed reaction [glucose 6-phosphate]/[glucose 1-phosphate] was markedly lower than Keq. (approx. 17) in relaxed muscle of both strains (approx. 5-7), but rose significantly during tetanus to the value for Keq. 7. The data for IMP satisfy the criteria put forward by Rahim, Perrett & Griffiths [(1976) FEBS Lett. 69, 203-206] for a nucleotide activator of phosphorylase b: it should be present at a higher concentration in phosphorylase kinase-deficient muscle, its concentration should rise during muscle work, and it should attain a concentration comparable with its activation constant for phosphorylase b.
摘要
- 在正常(C3H)和磷酸化酶激酶缺陷(ICR/IAn)小鼠的腘绳肌群中,于破伤风发作前及发作期间测量了糖原、核苷酸、糖酵解中间产物及产物。2. 尽管缺乏磷酸化酶a,但磷酸化酶激酶缺陷的肌肉中糖原含量多出3至4倍,且在120秒破伤风发作期间维持着更大(约2倍)、更快(快11±2纳克/秒)且更持久的糖原分解。3. 两种品系在破伤风发作期间总腺嘌呤核苷酸含量均无显著变化,但两种品系中肌苷酸(IMP)浓度均上升60至100倍,达到约2毫摩尔。在磷酸化酶激酶缺陷的肌肉中,IMP的初始形成速率快6倍(每克112纳摩尔/秒)。4. 在45秒破伤风发作时,磷酸化酶激酶缺陷的肌肉中腺苷酸琥珀酸含量升至36纳摩尔/克,正常肌肉中升至9纳摩尔/克,但随后下降。5. 在磷酸化酶激酶缺陷的肌肉中,磷酸葡萄糖(一种强力的磷酸化酶抑制剂)为正常肌肉中的56%。6. 磷酸葡萄糖变位酶催化反应的质量作用比[葡萄糖6-磷酸]/[葡萄糖1-磷酸]在两种品系松弛肌肉中均显著低于平衡常数(Keq)(约17)(约5至7),但在破伤风发作期间显著上升至Keq值。7. IMP的数据符合拉希姆、佩雷特和格里菲斯[(1976年)《欧洲生物化学学会联合会快报》69,203 - 206]提出的磷酸化酶b核苷酸激活剂的标准:它在磷酸化酶激酶缺陷的肌肉中应以更高浓度存在,其浓度应在肌肉工作期间上升,且应达到与其对磷酸化酶b的激活常数相当的浓度。
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