Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.23.5 (cathepsin D)
 4,130 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of hormonal or cholinergic stimulation on survival and on activities of lysosomal enzymes and amylase in pancreatic tissue and ascites were studied in rats with induced pancreatitis. Pancreatitis per se caused an increase of the activities of cathepsin D, N-acetyl-beta-D-glucosaminidase and amylase, and a decrease of acid phosphatase in pancreatic tissue. Pancreatic protein concentration was not influenced. In pancreatitic rats administration of cerulein or carbachol markedly decreased survival rate. Cerulein increased the activities of cathepsin D and amylase in ascites and cathepsin D and acid phosphatase in pancreatic tissue. Carbachol increased the activities of cathepsin D and amylase in ascites and acid phosphatase in pancreatic tissue. Both cerulein and carbachol decreased the activity of amylase in pancreatic tissue. Administration of secretin or the anticholinergic drug Pro-Banthine did not influence survival rate or the activities of lysosomal enzymes and amylase in ascites. In pancreatic tissue the activity of acid phosphatase was slightly increased by secretin or Pro-Banthine. In conclusion, the results show a nonparallel alteration of lysosomal enzyme activities in pancreatic tissue in rats with pancreatitis. Cerulein and cholinergic stimulation decreased survival rate and brought about a marked increase of cathepsin D activity in ascites and, in the case of cerulein, also in pancreatic tissue. The implication of lysosomes and especially the catheptic proteases in the pathogenesis and outcome of acute pancreatitis deserves further attention.
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PMID:Hormonal and cholinergic effects on amylase and lysosomal enzyme activities in pancreatic tissue and ascites of rats with acute experimental pancreatitis. 619 36

Rats infused with a supramaximally stimulating dose of the cholecystokinin-pancreozymin analogue caerulein develop acute interstitial pancreatitis (M. Lampel and H.F. Kern. Virchows Arch. A 373: 97-117, 1977). We have studied the early (30-180 min) morphological changes in pancreatic acinar cells induced by infusing caerulein (2.5 micrograms X kg-1 X h-1). The techniques of thin-section electron microscopy, freeze fracture, and enzyme and immunocytochemistry were employed. Shortly (30 min) after the onset of caerulein infusion, large vacuoles appeared in the Golgi area. After longer periods of infusion, these vacuoles further enlarged (probably by fusion with other such vacuoles as well as autophagic vacuoles) and became more widely distributed in the cytoplasm. These large vacuoles were found to be acid phosphatase positive and to be labeled by antibodies directed against digestive zymogens as well as the lysosomal enzyme cathepsin D. These observations indicate that the large vacuoles contain both digestive zymogens and lysosomal hydrolases. During caerulein infusion, morphological evidence of exocytosis at the luminal plasmalemma was reduced or absent, and evidence of basolateral exocytosis was not noted. These studies suggest that secretagogue hyperstimulation with caerulein interferes with the processes involved in condensing vacuole maturation, which normally lead to the separation of digestive zymogens and lysosomal hydrolases. As a result, both types of enzymes remain within the same compartment. This may lead to the intracellular activation of digestive enzymes by lysosomal hydrolases and be an important step in the development of acute pancreatitis.
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PMID:Supramaximal caerulein stimulation and ultrastructure of rat pancreatic acinar cell: early morphological changes during development of experimental pancreatitis. 672 Aug 95

Acute pancreatitis is a complex disorder involving both premature intracellular protease activation and inflammatory cell invasion. An initiating event is the intracellular activation of trypsinogen by cathepsin B (CTSB), which can be induced directly via G protein-coupled receptors on acinar cells or through inflammatory cells. Here, we studied CTSB regulation by another lysosomal hydrolase, cathepsin D (CTSD), using mice with a complete (CTSD-/-) or pancreas-specific conditional CTSD knockout (KO) (CTSDf/f/p48Cre/+). We induced acute pancreatitis by repeated caerulein injections and isolated acinar and bone marrow cells for ex vivo studies. Supramaximal caerulein stimulation induced subcellular redistribution of CTSD from the lysosomal to the zymogen-containing subcellular compartment of acinar cells and activation of CTSD, CTSB, and trypsinogen. Of note, the CTSD KO greatly reduced CTSB and trypsinogen activation in acinar cells, and CTSD directly activated CTSB but not trypsinogen in vitro During pancreatitis in pancreas-specific CTSDf/f/p48Cre/+ animals, markers of severity were reduced only at 1 h, whereas in the complete KO, this effect also included the late disease phase (8 h), indicating an important effect of extra-acinar CTSD on course of the disease. CTSD-/- leukocytes exhibited reduced cytokine release after lipopolysaccharide (LPS) stimulation, and CTSD KO also reduced caspase-3 activation and apoptosis in acinar cells stimulated with the intestinal hormone cholecystokinin. In summary, CTSD is expressed in pancreatic acinar and inflammatory cells, undergoes subcellular redistribution and activation during experimental pancreatitis, and regulates disease severity by potently activating CTSB. Its impact is only minimal and transient in the early, acinar cell-dependent phase of pancreatitis and much greater in the later, inflammatory cell-dependent phase of the disease.
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PMID:Cathepsin D regulates cathepsin B activation and disease severity predominantly in inflammatory cells during experimental pancreatitis. 2922 80

Pancreatitis is a common, sometimes fatal, disease of exocrine pancreas, initiated by damaged acinar cells. Recent studies implicate disordered macroautophagy/autophagy in pancreatitis pathogenesis. ATG8/LC3 protein is critical for autophagosome formation and a widely used marker of autophagic vacuoles. Transgenic GFP-LC3 mice are a valuable tool to investigate autophagy ; however, comparison of homeostatic and disease responses between GFP-LC3 and wild-type (WT) mice has not been done. We examined the effects of GFP-LC3 expression on autophagy, acinar cell function, and experimental pancreatitis. Unexpectedly, GFP-LC3 expression markedly increased endogenous LC3-II level in pancreas, caused by downregulation of ATG4B, the protease that deconjugates/delipidates LC3-II. By contrast, GFP-LC3 expression had lesser or no effect on autophagy in liver, lung and spleen. Autophagic flux analysis showed that autophagosome formation in GFP-LC3 acinar cells increased 3-fold but was not fully counterbalanced by increased autophagic degradation. Acinar cell (ex vivo) pancreatitis inhibited autophagic flux in WT and essentially blocked it in GFP-LC3 cells. In vivo pancreatitis caused autophagy impairment in WT mice, manifest by upregulation of LC3-II and SQSTM1/p62, increased number and size of autophagic vacuoles, and decreased level of TFEB, all of which were exacerbated in GFP-LC3 mice. GFP-LC3 expression affected key pancreatitis responses; most dramatically, it worsened increases in serum AMY (amylase), a diagnostic marker of acute pancreatitis, in several mouse models. The results emphasize physiological importance of autophagy for acinar cell function, demonstrate organ-specific effects of GFP-LC3 expression, and indicate that application of GFP-LC3 mice in disease models should be done with caution.Abbreviations: AP: acute pancreatitis; Arg-AP: L-arginine-induced acute pancreatitis; ATG: autophagy-related (protein); AVs: autophagic vacuoles; CCK: cholecystokinin-8; CDE: choline-deficient, D,L-ethionine supplemented diet; CER: caerulein (ortholog of CCK); CTSB: cathepsin B; CTSD: cathepsin D; CTSL: cathepsin L; ER: endoplasmic reticulum; LAMP: lysosomal-associated membrane protein; MAP1LC3/LC3: microtubule-associated protein 1 light chain 3; TEM: transmission electron microscopy; TFEB: transcription factor EB; ZG: zymogen granule(s).
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PMID:Transgenic expression of GFP-LC3 perturbs autophagy in exocrine pancreas and acute pancreatitis responses in mice. 3194 16