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犬结肠平滑肌中MAP激酶的激活及钙调蛋白的磷酸化

Activation of MAP kinases and phosphorylation of caldesmon in canine colonic smooth muscle.

作者信息

Gerthoffer W T, Yamboliev I A, Shearer M, Pohl J, Haynes R, Dang S, Sato K, Sellers J R

机构信息

Department of Pharmacology, University of Nevada School of Medicine, Reno 89557-0046, USA.

出版信息

J Physiol. 1996 Sep 15;495 ( Pt 3)(Pt 3):597-609. doi: 10.1113/jphysiol.1996.sp021619.

DOI:10.1113/jphysiol.1996.sp021619
PMID:8887769
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1160768/
Abstract
  1. Phosphorylation of caldesmon was assayed in canine colonic circular smooth muscle strips labelled with 32P and stimulated with 10 microM acetylcholine. Caldesmon was isolated by two-dimensional non-equilibrium pH gel electrophoresis. Stimulation with acetylcholine increased caldesmon phosphorylation significantly from a basal level of 0.6 +/- 0.07 to 1.1 +/- 0.15 mol P1 (mol caldesmon)-1 after 2 min. 2. MAP kinase activities were measured in SDS extracts of muscle by a gel reconstitution method using myelin basic protein. Myelin basic protein kinase activities were observed at 38, 44, 50 and 57 kDa by the gel reconstitution method. Endogenous caldesmon kinase activities were also identified by the gel reconstitution method at 38, 44 and 50 kDa. The 38 and 44 kDa kinases comigrated with proteins labelled by anti-ERK1 MAP kinase antibodies on Western blots. Both 38 and 44 kDa MBP kinase activities increased significantly during contractions induced by 10 microM acetylcholine, 0.1 microM neurokinin A and 70 mM potassium. 3. Phorbol dibutyrate (0.1 microM) potentiated activation of MAP kinases and contraction of depolarized muscles while producing a decrease in fura-2 fluorescence ratio. This suggests that protein kinase C activation is coupled to MAP kinase activity in colonic smooth muscle. 4. MAP kinases isolated form muscle homogenates by Mono Q chromatography were assayed using the specific MAP kinase substrate peptide APRTPGGRR. Stimulation of muscles for 2 min with 10 microM acetylcholine activated both ERK1 and ERK2 MAP kinase activities 2-fold. 5. To determine the effects of caldesmon phosphorylation by MAP kinase on the cross-bridge cycle, actin sliding velocity was measured with an in vitro motility assay. Unphosphorylated turkey gizzard caldesmon (3 microM) significantly reduced mean sliding velocity. Phosphorylation of caldesmon with sea star ERK1 MAP kinase reversed the inhibitory effect of caldesmon on sliding velocity. The results are consistent with a protein kinase cascade being activated by contractile agonists in gastrointestinal smooth muscle which activates ERK MAP kinases leading to phosphorylation of caldesmon. Phosphorylation of caldesmon in vivo may reverse inhibitory influences of caldesmon on cross-bridge cycling.
摘要
  1. 在用³²P标记并经10微摩尔乙酰胆碱刺激的犬结肠环行平滑肌条中检测钙调蛋白的磷酸化。通过二维非平衡pH凝胶电泳分离钙调蛋白。乙酰胆碱刺激后,2分钟内钙调蛋白磷酸化从基础水平0.6±0.07显著增加至1.1±0.15摩尔P1(摩尔钙调蛋白)⁻¹。2. 通过使用髓鞘碱性蛋白的凝胶重建法在肌肉的SDS提取物中测量丝裂原活化蛋白激酶(MAP激酶)活性。通过凝胶重建法在38、44、50和57 kDa处观察到髓鞘碱性蛋白激酶活性。通过凝胶重建法还在38、44和50 kDa处鉴定出内源性钙调蛋白激酶活性。在蛋白质印迹上,38和44 kDa的激酶与抗ERK1 MAP激酶抗体标记的蛋白质共迁移。在由10微摩尔乙酰胆碱、0.1微摩尔神经激肽A和70毫摩尔钾诱导的收缩过程中,38和44 kDa的髓鞘碱性蛋白激酶活性均显著增加。3. 佛波酯(0.1微摩尔)增强MAP激酶的活化和去极化肌肉的收缩,同时使fura - 2荧光比率降低。这表明蛋白激酶C的活化与结肠平滑肌中的MAP激酶活性相关联。4. 使用特异性MAP激酶底物肽APRTPGGRR对通过Mono Q色谱从肌肉匀浆中分离的MAP激酶进行检测。用10微摩尔乙酰胆碱刺激肌肉2分钟可使ERK1和ERK2 MAP激酶活性均增加2倍。5. 为了确定MAP激酶介导的钙调蛋白磷酸化对横桥循环的影响,使用体外运动测定法测量肌动蛋白滑动速度。未磷酸化的火鸡肌胃钙调蛋白(3微摩尔)显著降低平均滑动速度。用海星ERK1 MAP激酶对钙调蛋白进行磷酸化可逆转钙调蛋白对滑动速度的抑制作用。结果表明,收缩激动剂在胃肠平滑肌中激活蛋白激酶级联反应,该反应激活ERK MAP激酶,导致钙调蛋白磷酸化。体内钙调蛋白的磷酸化可能逆转钙调蛋白对横桥循环的抑制作用。
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/d05cc7049a3e/jphysiol00394-0014-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/a4d6e55ab149/jphysiol00394-0009-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/859b049f1b13/jphysiol00394-0010-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/844d1e1732c6/jphysiol00394-0012-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/d05cc7049a3e/jphysiol00394-0014-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/a4d6e55ab149/jphysiol00394-0009-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/859b049f1b13/jphysiol00394-0010-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/844d1e1732c6/jphysiol00394-0012-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4d3/1160768/d05cc7049a3e/jphysiol00394-0014-a.jpg

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