Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined the effect of chronic hyperglycemia on phosphoinositide hydrolysis and insulin secretion in isolated perifused rat islets. Rats were infused for 44 h with 40% dextrose in order to raise and maintain the plasma glucose concentration at 350 mg/dl. Control animals were infused with equiosmolar amounts of mannitol. In vivo insulin secretion and rats of glucose disposal were monitored throughout the study. At the end of the infusion, islets were collagenase isolated, and phosphoinositide (PI) hydrolysis (assessed by measuring the increment in [3H]inositol efflux as well as labeled inositol phosphates) and insulin output in response to a 20-mM glucose challenge were quantitated. Plasma insulin concentration and in vivo glucose disposal rates decreased significantly, by 47% and 35% respectively, after 6-8 h of hyperglycemia. In islets perifused immediately after isolation, prior in vivo hyperglycemia markedly altered the pattern of insulin output in response to 20-mM glucose challenge. Compared to mannitol infusion, 20 mM glucose stimulation resulted in an exaggerated first phase insulin secretory response (1121 +/- 88 vs. 467 +/- 75 pg/islets.min) and a blunted second phase insulin secretory response (392 +/- 90 vs. 1249 +/- 205 pg/islet.min). In islets prelabeled with myo-[2-3H]inositol for 2 h, PI hydrolysis, particularly [3H]inositol efflux in response to glucose stimulation was also reduced (0.28 +/- 0.03%/min) compared to that in mannitol-infused animals (0.53 +/- 0.08%/min). Two hours of preincubation in a low glucose medium (2.75 mM) were able to completely reverse the islet defect in both PI hydrolysis and insulin secretion. Our results demonstrate that chronic in vivo hyperglycemia impairs PI hydrolysis in perifused rat islets and suggest that this defect accounts in part for the abnormal pattern of glucose-induced insulin secretion.
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PMID:Chronic in vivo hyperglycemia impairs phosphoinositide hydrolysis and insulin release in isolated perifused rat islets. 215 64

Tumor proteinases are considered to be important in the process of cancer invasion and metastasis. We have proposed that the surface membrane localization of these proteinases places them in an optimal site to facilitate the invasion of surrounding extracellular matrix. In this study, we have used the organic solvent, n-butanol, and the detergent, n-octyl-glucoside, to sequentially extract metalloproteinases from crude plasma membranes of human RWP-I pancreatic cancer cells. Anion exchange chromatography and gel permeation chromatography were employed to further purify enzymes with the capacity to degrade gelatin, type-IV collagen, and carboxymethylated transferrin. Gelatin zymography was used to demonstrate proteinase bands of 92, 70 and 62-kDa. Immunoblotting of solubilized, partially purified pancreatic cancer plasma membrane proteins using polyclonal rabbit antibodies, which have specificity for type-IV collagenase/gelatinase, resulted in the recognition of a 70-kDa protein, but not the 92-kDa gelatinase. A type-IV collagenase/gelatinase of 68-kDa was similarly identified in A2058 human melanoma cancer cell plasma membranes.
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PMID:Extraction of type-IV collagenase/gelatinase from plasma membranes of human cancer cells. 216 1

We have recently presented biochemical evidence for collagen and gelatin degrading activities associated with plasma membranes of various human cancer cell lines. In this report we describe the localization of interstitial collagenase at the basal plasma membrane of the human pancreatic cancer cell line RWP-I, using immunofluorescence and ultrastructural immunogold labeling techniques. Collagenase was expressed on the extracellular face of the plasma membrane. Furthermore, the immunogold labeling was concentrated on the long, finger-like microvillous projections typically seen on the basal cell surface, while the short, brush-like projections characteristic of the apical cell surface were unlabeled. When the cytoplasmic face of the membrane was made accessible, the number of reactive sites increased markedly, indicating a high concentration of enzyme at the inner surface of the plasma membrane. When plasma membrane fractions of RWP-I cells were prepared by differential centrifugation, high salt washes virtually failed to extract collagenase activity from the membrane, while detergent extraction with n-octyl glucoside, a detergent used in the purification of integral membrane proteins, yielded soluble collagenase activity. When detergent extracted membrane fractions were passed over an anticollagenase immunoaffinity column, collagenase was specifically bound, as demonstrated by the TCA and TCB degradation of type I collagen by the bound material. Gelatinolytic activity did not bind to the column. Furthermore, immunoprecipitation of 125I-labeled detergent extracts of tumor membranes yielded a single Mr 55,000 band consistent with the zymogen form of the connective tissue collagenase. These morphological and biochemical findings suggest that collagenase is a tightly associated component of the basal plasma membrane, where it occupies a strategic location for directional proteolysis during cell migration and invasion.
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PMID:Localization of collagenase at the basal plasma membrane of a human pancreatic carcinoma cell line. 217 14

The present study confirms and extends previous observations that whole pancreatic islets form a monolayer culture in vitro. Our technique, using a medium containing 3-isobutyl-1-methylxanthine (IBMX), clearly demonstrated enzymatic disruption of the islets and cellular organization of isolated pancreatic islets. Insulin or glucagon secretion of monolayer culture was measured during incubation in a medium containing 5.5 mM D-glucose, then in 16.7 mM D-glucose, and finally in a combination of 16.7 mM D-glucose and IBMX, or of low glucose and 20 mM L-arginine. Clearly, such a technique might permit the recovery of collagenase-isolated pancreatic islets during the culture period and also an increase in glucose-induced insulin secretion and arginine stimulated glucagon secretion.
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PMID:A study of insulin and glucagon secretion from adult rat pancreatic monolayer islets. 241 96

Involvement of ATP in the regulation of slow (L-type) Ca2+ channels of vascular smooth muscle cells was investigated by recording single Ca2+ channel currents (single-channel conductance of 18 pS) using a patch clamp technique. In the cell-attached configuration, intracellular composition was modified by permeabilizing the cell membrane with mechanical disruption at one end of the cell. Single cells were freshly isolated from guinea-pig portal vein by collagenase treatment. For the channel recordings, the pipette solution contained 100 mM Ba2+ and the bath contained K+-rich solution (with 5 mM EGTA) to depolarize the membrane to near 0 mV. The channel activity decreased usually within 3 min after permeabilizing the cell end and exposure to ATP-free bath solution. If ATP (1-5 mM) was applied to the bath (access to cell interior) before complete disappearance of channel activity, channel activity was partially recovered. ATP did not change the current amplitude (i) or the mean open time of the channels, whereas the number of channels available for opening and/or the probability of their being open (NPo) were increased by ATP. A non-hydrolyzable analogue of ATP, AMP-PNP, did not exert an ATP-like effect; ATP-gamma-S had a weak effect. With 1 microM Bay-K-8644 (Ca2+ channel agonist) in the pipette, the activity of the Ca2+ channel was high; such activity persisted for more than 10 min after permeabilizing the cell and exposing to ATP-free solution containing KCN (1 mM) and 2-deoxy-D-glucose (10 mM).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of single slow (L-type) calcium channels by intracellular ATP in vascular smooth muscle cells. 247 13

Effects of intracellularly perfused ATP, and extracellularly applied cyanide and 2-deoxy-D-glucose, on fast and slow Ca2+ channel currents of isolated single vascular smooth muscle cells were investigated by a whole-cell voltage-clamp method combined with an intracellular perfusion technique. Single smooth muscle cells were prepared by collagenase treatment from guinea pig small mesenteric arteries (diameter of less than 300 micron). With Cs+-rich solution in the pipette and isotonic Ba2+ solution (100 mM) in the bath, depolarizing pulses evoked two types of the Ca2+ channel current. Depolarizing pulses from the holding potential of -80 mV to over -30 mV evoked a fast Ca2+ channel current. This fast component was inhibited by shifting the holding potential in a positive direction. With a holding potential of -40 mV, the fast component was almost inhibited. In contrast, the slow current was evoked by command potentials to above -10 mV, and its full amplitude was preserved at the holding potential of -40 mV. Without ATP in the pipette, the fast current was dominant. Increase in the ATP concentration in the pipette (0.3 to 5 mM) enhanced the slow current but did not affect the fast current. Maximum enhancement of the slow current was observed at 5 mM ATP. Increase in ATP concentration, however, did not modify the shape of the current trace and the steady state inactivation curve of the slow current. Maximum amplitudes of the fast current and slow current recorded with 5 mM ATP averaged 17.4 pA (SD of 10.4 pA, n = 30; observed at -10 mV to +10 mV) and 141.8 pA (SD of 27.1 pA, n = 30; observed at +30 mV to +40 mV), respectively. Presence of CN- and 2-deoxy-D-glucose (without glucose) in the bath, and absence of ATP in the pipette, abolished the slow current within 10 minutes; in contrast, it took more than 10 minutes to depress the fast current. The inhibitory effect of CN- and 2-deoxy-D-glucose on the slow current was reduced by intracellular application of ATP. In summary, the activation of the slow Ca2+ channel required physiological concentration of ATP, whereas the fast channel current was preserved, even under ATP-free conditions. These results indicate that only the slow current is a metabolically dependent Ca2+ channel current in these vascular smooth muscle cells.
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PMID:ATP regulation of the slow calcium channels in vascular smooth muscle cells of guinea pig mesenteric artery. 253 96

To clarify the characteristics of cellular ATP synthesis in individual nephron segments for assessing nephrotoxicity of chemicals, cellular ATP content was measured by the luciferin/luciferase system under various conditions using intact nephron segments isolated from male Sprague-Dawley rats. Increasing the duration of collagenase treatment of kidney slices significantly lowered the cellular levels of ATP newly synthesized from 2 mM glutamine in PST at 37 degrees C over 30 min (p less than 0.01). The tubular incubation time significantly affected the cellular ATP content in the early and middle portions (S2) of the proximal tubule (p less than 0.05 and p less than 0.01, respectively) over 20 min and in the late proximal tubule over 10 min. Among numerous substrates tested, such as D-glucose, glutamine, pyruvate, DL-lactate, and beta-hydroxybutyrate, the substrate utilization for maintaining cellular ATP content was entirely variable according to each nephron segment. Pyruvate and glutamine were the best substrates in the proximal tubule. On the other hand, ATP production from glutamine was less than that from the other substrates in the distally located nephron segments: medullary and cortical thick ascending limbs of Henle's loop (MAL and CAL, respectively), distal tubule, cortical and medullary collecting tubules (CCT and MCT, respectively). In general, glucose, pyruvate, and lactate appear to be equivalent in maintaining ATP content in the distal segments of renal tubules. A monovalent cation ionophore, monensin, at 10 micrograms/ml decreased the cellular ATP content in MAL, CAL, and MCT significantly. Mercuric chloride (HgCl2) was used as a model compound to study nephrotoxicity by investigating its effects on cellular ATP metabolism in microdissected nephron segments. HgCl2 at 1 x 10(-6) M significantly decreased ATP content only in S2 (p less than 0.05), clearly demonstrating S2 to be the most sensitive segment within the nephron. These results indicate that measurement of cellular ATP content would be a useful method forecasting the intrarenal toxic site and potency of possible nephrotoxic chemical compounds.
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PMID:Nephrotoxicity assessment by measuring cellular ATP content. I. Substrate specificities in the maintenance of ATP content in isolated rat nephron segments. 255 Oct 74

A quantitative evaluation of lectin binding to adult rat hepatocyte cell surfaces was done using cells isolated by two different collagenase perfusion methodologies and cultured as monolayers with two different tissue culture media formulations (protocol I vs. protocol II). The presence of alpha-D-mannosyl and alpha-D-glucosyl groups was detected by the binding of Concanavalin A (Con A), Lens culinaris agglutinin (LCA), and Pisum sativum agglutinin (PSA) to freshly isolated cells. Furthermore, beta-D-galactose [Ricinus communis agglutinin (RCA)] and sialic acid residues [wheat germ (WGA)] were also found. Protocols I and II served as models for evaluation of: a) the stripping effect of collagenase separation procedures, b) the restoration in culture of collagenase-stripped sugar residues, c) the effect of the culture environment on cell viability [as measured by lactic acid dehydrogenase (LDH) leakage] and the protein content of hepatocytes, and d) the presence of cell surface sugar residues as a function of culture duration. The ultrastructural morphology of freshly isolated and cultured hepatocytes was also evaluated. These studies indicated that a decline in lectin binding invariably occurred earlier than a massive leakage of LDH and a decrease in the protein content of the cells in culture. Ultrastructurally, autophagocytosis was an early phenomenon in cells isolated and cultured by protocol I, which was also inferior to protocol II regarding the preservation of hepatocyte glycocalyces. Sugar residues lost due to the collagenase-stripping effect were restored, as shown by lectin binding, within the first 24 h of culture. This stripping effect was confirmed by quantitative evaluations of lectin binding to hepatocytes in culture after an incubation with collagenase. This study shows that the binding of peroxidase-labeled lectins is a useful tool for quantitative evaluation of the sugar composition of hepatocyte cultures.
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PMID:A quantitative analysis of lectin binding to adult rat hepatocyte cell surfaces. 283 55

When calf aortic tissue, preincubated under organ culture conditions in the presence of [35S]sulfate, was submitted to a sequential collagenase and elastase digestion and guanidinium chloride extraction, the bulk of proteoheparan sulfate was obtained in the elastase fraction. Ion-exchange chromatography on DEAE-cellulose of the elastase digest under dissociative conditions yielded a proteoglycan fraction that contained heparan sulfate as the sole glycosaminoglycan. The proteoheparan sulfate fraction was resolved into a high-molecular-mass (P-HS 1) and a low-molecular-mass (P-HS 2) fraction by gel filtration on Sephacryl S-400. P-HS 1 has a Mr of 175,000 and possesses four heparan sulfate side-chains (Mr 32,000) covalently bound to the protein core via a galactose- and xylose-containing polysaccharide-protein binding region. The protein core (Mr 38,000), which was obtained after deglycosylation of PG-HS 1 with trifluormethane sulfonic acid, contained in addition a few N-glycosidically linked oligosaccharide units representing a complex type with terminal neuraminic acid residues. P-HS 2 is a single-chain peptidoheparan sulfate of Mr of 38,000 containing one heparan sulfate chain (Mr 32,000) linked to a polypeptide (Mr 6000). The ratio of specific radioactivities of P-HS 1 and P-HS 2 was 1:0.66.
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PMID:Isolation and characterization of two proteoheparan sulfate species of calf arterial tissue. 296 81

We recently described a preferential reduction of the secretory response to nutrient secretagogues (glucose; leucine plus glutamine) in islets maintained in culture after in vitro exposure to streptozotocin (SZ). The present study is an attempt to further clarify the biochemical mechanisms behind this defective insulin response. Mouse pancreatic islets were collagenase isolated and, after 4-5 days in culture, exposed during 30 min at 37 C to 1.8 mM SZ or vehicle alone (controls). The islets were subsequently cultured for 7 days in medium RPMI 1640 plus 10% calf serum, before the enzymatic and metabolic studies were performed. The activities of the glycolytic enzymes, hexokinase, glucokinase, and glyceraldehyde 3-phosphate dehydrogenase, were similar in the control and SZ-exposed islets. The relative amount of cytosolic and mitochondria-bound hexokinase was also unaffected by SZ. However, there was a 30-40% decrease in the activity of NAD+- and NADP+-dependent glutamate dehydrogenase and glutamate-aspartate transaminase in the SZ-treated islets. This coincided with a 40% decrease in L-[U-14C]glutamine oxidation in the SZ-treated islets. The D-glucose catabolism was further examined in the presence of D-[5-3H] and D-[6-14C] glucose. There was no difference between control and SZ islets in terms of glucose utilization at either 1.7 or 16.7 mM glucose. The oxidation of D-[6-14C]glucose was nevertheless decreased by more than 50% in SZ islets incubated at 16.7 mM (but not 1.7 mM) glucose. Altogether, these converging observations suggest a perturbation of distal regulatory processes, apparently at the mitochondrial level, in the D-glucose and L-glutamine catabolism of SZ-exposed islets. Whether this reflects a primary action of SZ on the islet mitochondria, or an inhibitory effect of SZ on the synthesis of mitochondrial enzymes, as a result of nuclear DNA damage, remains to be elucidated.
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PMID:Defective catabolism of D-glucose and L-glutamine in mouse pancreatic islets maintained in culture after streptozotocin exposure. 296 23


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