热休克蛋白70.1基因敲除小鼠中胰蛋白酶原的自发激活。

Spontaneous activation of pancreas trypsinogen in heat shock protein 70.1 knock-out mice.

作者信息

Hwang Jin-Hyeok, Ryu Ji Kon, Yoon Yong Bum, Lee Kwang Hyuck, Park Young-Soo, Kim Jin-Wook, Kim Nayoung, Lee Dong Ho, Jeong Ji Bong, Seo Jeong-Sun, Kim Yong-Tae

机构信息

Department of Internal Medicine, Seoul National University Bundang Hospital, Seongnam, Gyeonggi-do, Korea.

出版信息

Pancreas. 2005 Nov;31(4):332-6. doi: 10.1097/01.mpa.0000183377.04295.c3.

DOI:10.1097/01.mpa.0000183377.04295.c3

PMID:16258366

Abstract

OBJECTIVES

Heat shock proteins (Hsp's) protect cellular proteins in response to injury, and the role of Hsp70 in experimental pancreatitis was recently described. To find out the possible role of Hsp70 in pancreatitis, we used Hsp70 knock-out mice (Hsp70.1-/-) and wild-type mice (Hsp70.1+/+).

METHODS

We studied enzymes activities, Hsp70 protein levels, and histologies in cerulein-induced pancreatitis of Hsp70.1-/- and Hsp70.1+/+ mice.

RESULTS

In the basal state, Hsp70 protein levels were higher in Hsp70.1+/+ than in Hsp70.1-/- mice, and trypsin activity was higher in Hsp70.1-/- than in Hsp70.1+/+ mice. The zymogen/lysosome ratio of cathepsin B activity before cerulein injection was higher in Hsp70.1-/- than in Hsp70.1+/+ mice. The expression level of Hsp70 in the pancreas increased in both of Hsp70.1-/- and Hsp70.1+/+ mice after hyperthermia because of the Hsp70.3 gene left intact in Hsp70.1-/- mice. After cerulein hyperstimulation, trypsin activity increased 2-fold in Hsp70.1+/+ mice, but cerulein did not further increase basally elevated trypsin activity in Hsp70.1-/- mice. Hyperthermia pretreatment not only blocked cerulein-induced trypsinogen activation, pancreatic edema, and vacuolization in Hsp70.1+/+ mice, but also decreased basally elevated trypsin activity in Hsp70.1-/- mice.

CONCLUSIONS

Hsp70 can be responsible for inhibition of cerulein-induced pancreatitis and prevention of spontaneous trypsinogen activation in mice by inhibiting the colocalization of zymogen and lysosomal enzymes.

摘要

目的

热休克蛋白（Hsp）可在细胞受到损伤时保护细胞内蛋白质，近期有研究描述了Hsp70在实验性胰腺炎中的作用。为探究Hsp70在胰腺炎中的可能作用，我们使用了Hsp70基因敲除小鼠（Hsp70.1-/-）和野生型小鼠（Hsp70.1+/+）。

方法

我们研究了Hsp70.1-/-和Hsp70.1+/+小鼠在雨蛙肽诱导的胰腺炎中的酶活性、Hsp70蛋白水平及组织学变化。

结果

在基础状态下，Hsp70.1+/+小鼠的Hsp70蛋白水平高于Hsp70.1-/-小鼠，而Hsp70.1-/-小鼠的胰蛋白酶活性高于Hsp70.1+/+小鼠。在注射雨蛙肽前，Hsp70.1-/-小鼠组织蛋白酶B活性的酶原/溶酶体比值高于Hsp70.1+/+小鼠。由于Hsp70.1-/-小鼠的Hsp70.3基因未受影响，热疗后Hsp70.1-/-和Hsp70.1+/+小鼠胰腺中Hsp70的表达水平均升高。雨蛙肽过度刺激后，Hsp70.1+/+小鼠的胰蛋白酶活性增加了2倍，但雨蛙肽并未进一步提高Hsp70.1-/-小鼠基础状态下已升高的胰蛋白酶活性。热疗预处理不仅可阻断雨蛙肽诱导的Hsp70.1+/+小鼠胰蛋白酶原激活、胰腺水肿和空泡化，还可降低Hsp70.1-/-小鼠基础状态下升高的胰蛋白酶活性。

结论

Hsp70可通过抑制酶原与溶酶体酶的共定位，抑制雨蛙肽诱导的小鼠胰腺炎，并预防自发的胰蛋白酶原激活。

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热休克蛋白70.1基因敲除小鼠中胰蛋白酶原的自发激活。

Spontaneous activation of pancreas trypsinogen in heat shock protein 70.1 knock-out mice.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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