Cottrell Graeme S, Amadesi Silvia, Grady Eileen F, Bunnett Nigel W
Departments of Surgery and Physiology, University of California San Francisco, San Francisco, California 94143-0660, USA.
J Biol Chem. 2004 Apr 2;279(14):13532-9. doi: 10.1074/jbc.M312090200. Epub 2004 Jan 15.
Certain serine proteases signal to cells by cleaving protease-activated receptors (PARs) and thereby regulate hemostasis, inflammation, pain and healing. However, in many tissues the proteases that activate PARs are unknown. Although pancreatic trypsin may be a physiological agonist of PAR(2) and PAR(4) in the small intestine and pancreas, these receptors are expressed by cells not normally exposed pancreatic trypsin. We investigated whether extrapancreatic forms of trypsin are PAR agonists. Epithelial cells lines from prostate, colon, and airway and human colonic mucosa expressed mRNA encoding PAR(2), trypsinogen IV, and enteropeptidase, which activates the zymogen. Immunoreactive trypsinogen IV was detected in vesicles in these cells. Trypsinogen IV was cloned from PC-3 cells and expressed in CHO cells, where it was also localized to cytoplasmic vesicles. We expressed trypsinogen IV with an N-terminal Igkappa signal peptide to direct constitutive secretion and allow enzymatic characterization. Treatment of conditioned medium with enteropeptidase reduced the apparent molecular mass of trypsinogen IV from 36 to 30 kDa and generated enzymatic activity, consistent with formation of trypsin IV. In contrast to pancreatic trypsin, trypsin IV was completely resistant to inhibition by polypeptide inhibitors. Exposure of cell lines expressing PAR(2) and PAR(4) to trypsin IV increased Ca(2+) and strongly desensitized cells to PAR agonists, whereas there were no responses in cells lacking these receptors. Thus, trypsin IV is a potential agonist of PAR(2) and PAR(4) in epithelial tissues where its resistance to endogenous trypsin inhibitors may permit prolonged signaling.
某些丝氨酸蛋白酶通过切割蛋白酶激活受体(PARs)向细胞发出信号,从而调节止血、炎症、疼痛和愈合过程。然而,在许多组织中,激活PARs的蛋白酶尚不清楚。尽管胰腺中的胰蛋白酶可能是小肠和胰腺中PAR(2)和PAR(4)的生理激动剂,但这些受体在通常不会接触到胰腺胰蛋白酶的细胞中也有表达。我们研究了胰腺外形式的胰蛋白酶是否为PAR激动剂。前列腺、结肠和气道的上皮细胞系以及人结肠黏膜表达了编码PAR(2)、胰蛋白酶原IV和能激活该酶原的肠肽酶的mRNA。在这些细胞的囊泡中检测到了免疫反应性胰蛋白酶原IV。从PC-3细胞中克隆出胰蛋白酶原IV,并在CHO细胞中表达,在CHO细胞中它也定位于细胞质囊泡。我们用N端Igκ信号肽表达胰蛋白酶原IV,以指导其组成型分泌并进行酶学特性分析。用肠肽酶处理条件培养基可使胰蛋白酶原IV的表观分子量从36 kDa降至30 kDa,并产生酶活性,这与胰蛋白酶IV的形成一致。与胰腺胰蛋白酶不同,胰蛋白酶IV对多肽抑制剂完全耐药。将表达PAR(2)和PAR(4)的细胞系暴露于胰蛋白酶IV会增加细胞内钙离子浓度[Ca(²⁺)]i,并使细胞对PAR激动剂产生强烈脱敏,而缺乏这些受体的细胞则无反应。因此,胰蛋白酶IV是上皮组织中PAR(2)和PAR(4)的潜在激动剂,其对内源性胰蛋白酶抑制剂的耐药性可能允许其进行长时间的信号传导。
