咖啡因和瑞诺定对鸡胚心脏钙外排的影响。

Journal of developmental physiology Pub Date : 1992-12-01
P Prakash, P Meera, O Tripathi
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引用次数: 0

摘要

通过对45ca外排的监测,研究了胚胎(ECV)和孵化后(PHCV)鸡心室组织中可交换细胞钙的发生动力学变化。将分离的整个心室(5天和7天ECV)或心室条(12天和18天ECV和1-2天PHCV)“加载”45Ca(37℃),然后通过一系列含有外排液(4℃)的管来测定45Ca的外排。流出曲线的曲线“剥落”表明存在3种动力学上不同的可交换细胞Ca2+区室成分:C1, C2和C3。C1的大小在ECV和PHCV的第5天和第7天最大,在ECV和PHCV的第18天减小到最小。然而,这个隔室的速率常数随着胚胎的年龄而降低。相比之下,C3的大小随着胚胎的发育而增加,在ECV和PHCV 18 d时最大。在胚胎发生过程中也观察到该室的速率常数的增加。C2的大小和速率常数在发育过程中保持不变。然而,胚胎发育过程中C3大小的增加表明Ca2+存储位点如肌浆网(SR)在后期分化。咖啡因(10微米)和瑞诺定(10微米)在所有发育阶段的慢期(即120-180分钟)外排时提高了分数逃逸率。随着胚胎年龄的增长,SR的增强幅度逐渐增大。(摘要删节250字)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
45Ca-efflux in embryonic chick heart and its modification by caffeine and ryanodine.

Ontogenic changes in the kinetics of exchangeable cellular calcium were studied in embryonic (ECV) and post-hatch (PHCV) chick ventricular tissue by monitoring 45Ca-efflux. The isolated whole ventricle (5 & 7 days ECV) or ventricular strips (12 & 18 days ECV and 1-2 days PHCV) were "loaded" with 45Ca (37 degrees C) and then passed through a series of tubes containing efflux solution (4 degrees C) to determine 45Ca-efflux. Curve 'peeling' of the efflux curve indicated existence of 3 kinetically distinct components of exchangeable cellular Ca2+ compartments: C1, C2 & C3. The size of C1, which was the largest in 5 & 7 days ECV decreased significantly to become minimum in 18 days ECV & PHCV. The rate constant of this compartment, however, reduced with the age of the embryo. In contrast, the size of C3 increased with the embryonic development to become the largest in 18 days ECV & PHCV. An increase in the rate constant of this compartment was also observed during embryogenesis. The size and rate constant of C2 remained unaltered during development. However, the increase in size of C3 during embryonic development indicates differentiation of Ca2+ storage sites, like sarcoplasmic reticulum (SR), during the later stages. Caffeine (10 mM) and ryanodine (10 microM) enhanced fractional escape rate during slow phase (ie 120-180 min) of efflux at all developmental stages. The magnitude of enhancement increased during later stages of development indicating greater prominence of SR with the age of embryo.(ABSTRACT TRUNCATED AT 250 WORDS)

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