Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00790 (PGA)
 2,475 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

No data are available on the localization of Pepsinogen A (PGA = PG I) and Pepsinogen C (PGC = PG II) positive cells in Barrett's epithelium. Endoscopic biopsy specimens were taken from the columnar epithelium from 23 patients (n = 93), and in addition from the cardia from eight healthy control subjects (n = 38). The tissue was stained by the immunoperoxidase technique with specific anti-pepsinogen antisera, and double immunostained for PGA and PGC. In the Barrett's epithelium PGA was found in 28 out of 93 biopsy specimens (30.1%) and PGC in 55 out of 93 (59.1%). Chief cells always stained both for PGA- and PGC +. PGA + and PGC + cells were found each in 100% of the biopsy specimens with fundic type epithelium, in 21.7% and 70.7% of biopsy specimens with junctional type, in 0% and 26.1% of biopsy specimens with specialized epithelium and in 12.5% and 43.5% of biopsy specimens with mixed junctional/specialized features respectively. Dysplastic epithelium stained always negatively with both anti-pepsinogen antisera. In most control cardia biopsy specimens PGA as well as PGC were demonstrable; occasionally clear mucous glands were PGA - and PGC+. It is concluded that pepsinogen-containing cells can be accurately identified in the Barrett's epithelium; their presence seems related to the histological cell type. Identification of pepsinogen positive cells may contribute to a more accurate morphological classification of the Barrett's epithelium.
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PMID:Immunohistochemical localization of pepsinogen A and C containing cells in Barrett's oesophagus. 313 52

To investigate the effect of omeprazole on serum and urinary pepsinogens and on gastric pepsin, 8 healthy male volunteers were studied before and after 9 days of treatment with omeprazole 60 mg/day p.o. Fasting serum samples and 24 h urine specimens were obtained, and gastric contents were aspirated at 15-min intervals, 4 prior to and 6 during pentagastrin 1.5 micrograms.kg-1.h-1 i.v. during intra-gastric perfusion with NaCl 0.9% and phenol red 3 mg.ml-1 as an inert recovery marker. Basal and pentagastrin-stimulated volume and acid secretion were significantly decreased. The basal and pentagastrin stimulated pepsin output remained unchanged but pepsin concentration in gastric secretion was increased. Administration of omeprazole resulted in a significant increase in the serum PGA and PGC levels. The 24-h urinary excretion of PGA increased, but that of PGC remained unchanged, and so did the renal clearances of creatinine and pepsinogen A. The renal clearance of pepsinogen C decreased. It was concluded that omeprazole did not affect gastric pepsin output, but, due to the decreased volume output, the concentration of pepsin in the gastric secretion was increased. Omeprazole increased the serum levels of pepsinogen A and C because more pepsinogen was released into the systemic circulation. This might be due to greater back-diffusion of pepsinogen from the gastric mucosa into the systemic circulation as a result of the higher pepsinogen concentration in gastric secretion.
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PMID:Effect of high dose omeprazole on gastric pepsin secretion and serum pepsinogen levels in man. 314 76

In this paper the role of pepsinogen has been reviewed in its physiological and clinical aspects. Although acid secretion has traditionally received far more attention clinically and has therefore been studied in great detail, the development of cellular systems has recently seen a revival in interest of pepsinogen secretion. These systems have made it possible to study pepsinogen secretion in more detail. Although many questions remain unanswered, a picture of a stimulus-secretion coupling mechanism of the chief cell has emerged that resembles in many aspects the pancreatic acinar cell, but also possesses some unique features of its own. The chief cell monolayer culture has also made it possible to study pepsinogen synthesis, and these studies seem to have solved the old controversy of whether or not modulation of pepsinogen synthesis occurs as a result of increased secretion. It now seems that pepsinogen synthesis does indeed increase in response to stimulated secretion. In addition to physiological studies, this review has discussed clinical aspects of the human pepsinogens in various gastric disorders. The clinical implications of genetic heterogeneity of the human pepsinogens are especially intriguing. Relationships between certain PGA phenotypes and certain gastric disorders have been described and some studies have tried to evaluate the relevance of these findings for diagnostic purposes. So far, it seems that PGA phenotyping alone has only limited diagnostic value, but, in combination with serum PGA determinations, could be of additional help in the diagnosis of gastric malignancy. In addition, various studies suggest that the ratio of serum PGA and PGC levels may be helpful in determining the histological status of the gastric mucosa. A very promising possibility in solving the many problems involved in exact genotype determinations through phenotyping is the recent availability of cDNA probes. With this technique, the question of whether the association between PGA phenotypes and gastric malignancy is primary or secondary may be solved in the near future. In view of the very poor prognosis for gastric cancer, further studies concerning the relationships between gastric cancer, serum pepsinogen levels, and PGA phenotypes or genotypes will hopefully lead to the possibility of an earlier diagnosis for gastric malignancy.
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PMID:Pepsinogens: an update of biochemical, physiological, and clinical aspects. 332 41

Total human pepsinogen (PG) was isolated from gastric fundic mucosa and PGA (formerly called PGI) from urine, using standard ion-exchange and gel filtration techniques. Gastric PGA was separated from PGC (formerly called PGII) either by immunoaffinity or high resolution ion-exchange chromatography (fast protein liquid chromatography, Pharmacia, Uppsala, Sweden). The individual PGA isozymogens 2, 3, 4 and 5 could be isolated to homogeneity with the aid of the same ion-exchanger. Evidence was obtained for the existence of secondary modifications of the PGA fractions 3, 4 and 5, electrophoretically overlapping the primary (genetic) isozymogens.
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PMID:Purification of the pepsinogen A isozymogens by means of high resolution ion-exchange chromatography. Evidence for post-translational modifications. 407 Sep 62

This study was designed to test the sensitivity and specificity of serum anti-Helicobacter pylori IgG antibodies and the ratio of serum pepsinogen A to pepsinogen C (PGA:PGC) in detecting chronic atrophic gastritis (CAG) and intestinal metaplasia. Parallel gastric biopsies and a serum sample were collected from a series of 87 patients aged 20-69 years attending a routine upper endoscopy clinic. The seroprevalence (> 10 micrograms IgG/ml) of anti-H. pylori antibodies was 42.7%, and of a low PGA:PGC ratio (< 1.5) was 17.7%. A positive H. pylori IgG antibody level was more sensitive than the level of PGA:PGC in diagnosing CAG (71.4% and 25.0%, respectively), moderate CAG (86.7% and 26.7%, respectively), and intestinal metaplasia (90.9% and 50.0%, respectively). Anti-H. pylori IgG antibody levels were less specific than PGA:PGC levels in diagnosing CAG (90.9% and 93.9%, respectively), moderate CAG (78.3% and 89.1%, respectively), and intestinal metaplasia (72.6% and 92.2%, respectively). A combination of anti-H. pylori antibodies and a low PGA:PGC ratio for the detection of CAG resulted in a specificity of 100%, but the sensitivity was 21.4%.
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PMID:Serum anti-Helicobacter pylori IgG antibodies and pepsinogens A and C as serological markers of chronic atrophic gastritis. 846 46

Pepsinogen (PG) A and C were purified from human urine, and analyzed by a highly sensitive detection method, "caseogram print". Purification was achieved by a series of conventional chromatographies and FPLC. A relatively large amount (13.2 mg) of PGA was purified from about 20 liters of urine. Purified PGA was separated by a Mono-Q column into each of its isozymogens. The elution order (PGA-5, 4+3, 2) corresponded to the order of electrophoretic migration. Although the concentration of urinary PGC was very low, a trace amount was purified and visualized by electrophoresis. The urinary and mucosal PGCs migrated at the same position, and urinary PGC was detected as two isozymogens similarly to mucosal PGC, suggesting that urinary and mucosal PGCs may be essentially identical.
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PMID:Purification of pepsinogens from human urine and electrophoretic analysis by caseogram print. 887 68

We analyzed the tissue-type plasminogen activator (TPA)-binding proteoglycans (PGs) on human umbilical vein endothelial cells (HUVECs), which were metabolically labeled with [35S]NA2SO4. Cell extracts were then prepared and subjected to affinity chromatography on diisopropyl fluorophosphate (DFP)-inactivated TPA-Sepharose 4B. Approximately 6% of the incorporated 35S radioactivity bound to DFP-treated TPA-Sepharose 4B and was eluted with 2 mol/L NaCl. In addition to NaCl, heparin, arginine, and lysine but not glycine, epsilon-amino-n-caproic acid or aspartic acid inhibited this binding and eluted the bound 35S radioactivity. Urea-containing polyacrylamide gel electrophoresis of the eluted material consistently revealed two main signals of 35S radioactivity (one with an M(r) between 600,000 and 750,000 [PGA] and the other with an M(r) between 120,000 and 180,000 [PGC]). Occasionally a less intense signal with an M(r) between 340,000 and 440,000 (PGB) was seen. Heparitinase treatment markedly decreased the intensities of both 35S signals (PGA and PGB), and chondroitinases AC and ABC abolished the 35S signal of PGC, indicating that most of the HUVEC-incorporated radioactivity with an affinity for TPA could be attributed to heparan sulfate- and chondroitin sulfate-like structures. Reductive elimination, which was performed to separate the possible glycosaminoglycan moieties from the core proteins, confirmed the PG-like nature of this material and again revealed heparan sulfate and chondroitin sulfate as the major glycosaminoglycan components. We therefore conclude that HUVECs synthesize TPA-binding, heparan sulfate- and chondroitin sulfate-containing PGs. In vivo, similar PGs may play a role in TPA binding to endothelial cells and thereby possibly influence TPA activity and/or provide an intravascular storage pool of TPA.
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PMID:Isolation and characterization of tissue-type plasminogen activator- binding proteoglycans from human umbilical vein endothelial cells. 896 24

Human pepsinogen (PG) A and C were cloned in Escherichia coli, but the levels of expression were low and unstable. When there were fused to maltose-binding protein (MBP), the fusion proteins (MBP-PGA and MBP-PGC) were expressed as the major products. Although these fused products were almost totally recovered from the insoluble fraction, the renaturation and purification procedures were easy and simple. MBP-PGA and the PGA segment obtained by factor Xa digestion (designated as r-PGA) possessed proteolytic activities equivalent to native PGA purified from gastric tissue (t-PGA). For PGCs (MBP-PGC, r-PGC and t-PGC) also, the specific activities were almost the same. However, the activities of PGCs were about 3- to 4-hold higher than those of PGAs. In PGA and PGC immunoassay systems, r-PGs (r-PGA and r-PGC) and the EIA kit standard PGs (gastric mucosal PGs) exhibited a good correlation. From these results, r-PGs would seem to be applicable as assay standards without compromising the sensitivity of the immunoassay systems.
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PMID:Purification of recombinant human pepsinogens and their application as immunoassay standards. 967 50

Human pepsinogen (PG) A and C were fused with protein A and expressed in Escherichia coli. Although the fusion proteins (PA-PGA and PA-PGC) were not expressed at high levels and were almost totally recovered from the insoluble fraction, the renaturation and purification procedures were easy and simple. PA-PGA and PA-PGC possessed proteolytic activity equivalent to the gastric mucosal PGA and PGC, respectively. However, the activity of PA-PGC was about 3-fold higher than that of PA-PGA. Therefore, PA-PGC was applied to the subsequent immunoblotting studies. The proteolytic activity of PA-PGC was used for digesting the blocking reagent around the target antigen (in situ digestion method) or casein-clotting in the agarose plate containing skimmed milk (caseogram print method). Although the sensitivity of these methods was lower than that of the conventional color detection, the caseogram print method was superior in that the reaction was linear over a wide range. On the other hand, the in situ digestion method possessed a unique property on Western blotting, and it was very easy to identify the relative position of the target, which could be recognized as a clear band. For PA-PGC detection, no special chemicals are required, and so the procedure is simple, rapid, and inexpensive.
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PMID:Detection of blotted antigen using a fusion protein between protein A and pepsinogen C. 972 67

Human gastric mucosa contains aspartic proteinases that can be separated electrophoretically on the basis of their physical properties into two major groups: Pepsinogen I (PGA, PGI); and Pepsinogen II (PGC, PGII). Pepsinogens consist of a single polypeptide chain with molecular weight of approximately 42,000 Da. Pepsinogens are mainly synthesized and secreted by the gastric chief cells of the human stomach before being converted into the proteolytic enzyme pepsin, which is crucial for the digestive processes in the stomach. Pepsinogen synthesis and secretion are regulated by positive and negative feed-back mechanisms. In the resting state pepsinogens are stored in granules, which inhibit further synthesis. After appropriate physiological or external chemical stimuli, pepsinogens are secreted in the stomach lumen where hydrochloric acid, secreted by the parietal cells, converts them into the corresponding active enzyme pepsins. The stimulus-secreting coupling mechanisms of pepsinogens appear to include at least two major pathways: one involving cAMP as a mediator, the other involving modification of intracellular Ca(2+)concentration. Physiological or external chemical stimuli acting through the intracellular metabolic adenyl cyclase are more effective in inducing ' de novo ' pepsinogen synthesis than those acting through intracellular Ca(2+). The activation of protein kinase C (PK-C) would appear to be involved in regulatory processes. The measurement of pepsinogens A and C in the serum is considered to be one of the non-invasive biochemical markers for monitoring peptic secretion and obtaining information on the gastric mucosa status of healthy subjects. Recently, pepsinogen measurements have been used as an effective biochemical method for evaluating and monitoring patients with gastrointestinal diseases and for checking the effects of drug treatment. The level of PGA in the serum is always high in normal gastritis, while in atrophic gastritis it is always low. In both cases the PGC level in the serum is high. In most gastrointestinal pathologies the ratio between the PGA/PGC decreases. Various reports concerning hormone and/or enzyme modification as well as gastrointestinal distress in the case of long distance exercise have been reported. It has been suggested that the origin of the gastrointestinal distress experienced by long distance runners is a transient ischaemia of the gastric mucosa; it is also suggested that a hypobaric-hypoxic environment could contribute to induce gastric mucosa necrosis. Interrelation between gastrointestinal distress, hypobaric-hypoxic environment and modifications of PGA and PGC, gastrin and cortisol was evaluated in 13 athletes after a marathon performed at 4300 m. Gastrointestinal symptoms occurred in approximately 40% of the athletes. After the race the athletes showed a significant increase of gastrin and cortisol, while the ratio between PGA/PGC decreased. No relationship was observed between gastrointestinal symptoms and hormonal changes after the race. A control group of five subjects, who had been exposed to the same environmental conditions, showed no gastrointestinal or hormonal alteration. Conversely, control subjects presented a significant decrease of cortisol related to the circadian rhythm. The same incidence of gastrointestinal symptoms at high altitude and at sea level and the absence of pathological alteration of PGA and PGC in the serum of the athletes indicates that running a marathon and living for 6 days at 4300 m does not induce gastric mucosa necrosis. Cortisol and gastrin alteration observed in the athletes at this altitude would seem to be related to an activation of the mesopontine and forebrain structures involved in the behavioural and metabolic integration of the autonomic control and arousal and psychophysical-exercise stress. 2000 Academic Press@p$hr
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PMID:Pepsinogens: physiology, pharmacology pathophysiology and exercise. 1067 78


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