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Milk is a complex fluid composed of proteins, sugars, lipids and minerals, in addition to a wide variety of bioactive molecules including vitamins, trace elements and growth factors. The composition of these components reflects th...
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Milk is a complex fluid composed of proteins, sugars, lipids and minerals, in addition to a wide variety of bioactive molecules including vitamins, trace elements and growth factors. The composition of these components reflects the integrated activities of distinct synthetic, secretion and transport processes found in mammary epithelial cells, and mirrors the differing nutritional and developmental requirements of mammalian neonates. Five general pathways have been described for secretion of milk components. With the exception of lipids, which are secreted a unique pathway, milk components are thought to be secreted by adaptations of pathways found in other secretory organs. However little is known about the molecular and cellular mechanisms that constitute these pathways or the physiological mechanisms by which they are regulated. Comparisons of current secretion and transport models in the mammary gland, exocrine pancreas and salivary gland indicate that significant differences exist between the mammary gland and other exocrine organs in how proteins and lipids are packaged and secreted, and how fluid is transported.
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Novel protein kinase C isoforms (PKC delta and epsilon) mediate early events in acute pancreatitis. Protein kinase D (PKD/PKD1) is a convergent point of PKC delta and epsilon in the signaling pathways triggered through CCK or chol...
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Novel protein kinase C isoforms (PKC delta and epsilon) mediate early events in acute pancreatitis. Protein kinase D (PKD/PKD1) is a convergent point of PKC delta and epsilon in the signaling pathways triggered through CCK or cholinergic receptors and has been shown to activate the transcription factor NF-kappaB in acute pancreatitis. For the present study we hypothesized that a newly developed PKD/PKD1 inhibitor, CRT0066101, would prevent the initial events leading to pancreatitis. We pretreated isolated rat pancreatic acinar cells with CRT0066101 and a commercially available inhibitor Go6976 (10 muM). This was followed by stimulation for 60 min with high concentrations of cholecystokinin (CCK, 0.1 muM), carbachol (CCh, 1 mM), or bombesin (10 muM) to induce initial events of pancreatitis. PKD/PKD1 phosphorylation and activity were measured as well as zymogen activation, amylase secretion, cell injury and NF-kappaB activation. CRT0066101 dose dependently inhibited secretagogue-induced PKD/PKD1 activation and autophosphorylation at Ser-916 with an IC(50) approximately 3.75-5 muM but had no effect on PKC-dependent phosphorylation of the PKD/PKD1 activation loop (Ser-744/748). Furthermore, CRT0066101 reduced secretagogue-induced zymogen activation and amylase secretion. Go6976 reduced zymogen activation but not amylase secretion. Neither inhibitor affected basal zymogen activation or secretion. CRT0066101 did not affect secretagogue-induced cell injury or changes in cell morphology, but it reduced NF-kappaB activation by 75% of maximal for CCK- and CCh-stimulated acinar cells. In conclusion, CRT0066101 is a potent and specific PKD family inhibitor. Furthermore, PKD/PKD1 is a potential mediator of zymogen activation, amylase secretion, and NF-kappaB activation induced by a range of secretagogues in pancreatic acinar cells.
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BACKGROUND & AIMS: Protease activation within the pancreatic acinar cell is a key early event in acute pancreatitis and may require low pH intracellular compartments. Clinical studies suggest that acidosis may affect the risk for developing pancreatitis. We hypothesized that exposure to an acid load might sensitize the acinar cell to secretagogue-induced pancreatitis. METHODS: Secretagogues (cerulein, carbachol, and bombesin) can induce protease activation in acinar cells at high (100 nmol/L, 1 mmol/L, and 10 micromol/L, respectively) but not at physiologically relevant concentrations. The effects of decreasing extracellular pH (pHe) in early secretagogue-induced pancreatitis (zymogen activation and injury) were examined in rats (1) in vitro with isolated acini and (2) in vivo with an acid challenge. RESULTS: In acini, lowering pHe from 7.6 to 6.8 enhanced secretagogue-induced zymogen activation and injury, but did not affect secretion. For cerulein, this sensitization was seen over a range of concentrations (0.01-100.00 nmol/L). However, reduced pHe alone had no effect on zymogen activation, amylase secretion, or cell injury. We have reported that zymogen activation is mediated by the vacuolar ATPase (vATPase), a proton transporter. vATPase inhibition, using concanamycin (100 nmol/L), blocked the low pHe effects on zymogen activation. An acute acid load given in vivo enhanced cerulein-induced (50 microg/kg) trypsinogen activation and pancreatic edema. CONCLUSION: These studies suggest that acid challenge sensitizes the pancreatic acinar cell to secretagogue-induced zymogen activation and injury and may increase the risk for the development and severity of acute pancreatitis....
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BACKGROUND & AIMS: Protease activation within the pancreatic acinar cell is a key early event in acute pancreatitis and may require low pH intracellular compartments. Clinical studies suggest that acidosis may affect the risk for developing pancreatitis. We hypothesized that exposure to an acid load might sensitize the acinar cell to secretagogue-induced pancreatitis. METHODS: Secretagogues (cerulein, carbachol, and bombesin) can induce protease activation in acinar cells at high (100 nmol/L, 1 mmol/L, and 10 micromol/L, respectively) but not at physiologically relevant concentrations. The effects of decreasing extracellular pH (pHe) in early secretagogue-induced pancreatitis (zymogen activation and injury) were examined in rats (1) in vitro with isolated acini and (2) in vivo with an acid challenge. RESULTS: In acini, lowering pHe from 7.6 to 6.8 enhanced secretagogue-induced zymogen activation and injury, but did not affect secretion. For cerulein, this sensitization was seen over a range of concentrations (0.01-100.00 nmol/L). However, reduced pHe alone had no effect on zymogen activation, amylase secretion, or cell injury. We have reported that zymogen activation is mediated by the vacuolar ATPase (vATPase), a proton transporter. vATPase inhibition, using concanamycin (100 nmol/L), blocked the low pHe effects on zymogen activation. An acute acid load given in vivo enhanced cerulein-induced (50 microg/kg) trypsinogen activation and pancreatic edema. CONCLUSION: These studies suggest that acid challenge sensitizes the pancreatic acinar cell to secretagogue-induced zymogen activation and injury and may increase the risk for the development and severity of acute pancreatitis.
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Pathological activation of digestive zymogens within the pancreatic acinar cell initiates acute pancreatitis. Cytosolic events regulate this activation within intracellular compartments of unclear identity. In an in vivo model of ...
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Pathological activation of digestive zymogens within the pancreatic acinar cell initiates acute pancreatitis. Cytosolic events regulate this activation within intracellular compartments of unclear identity. In an in vivo model of acute pancreatitis, zymogen activation was detected in both zymogen granule-enriched and microsomal cellular fractions. To examine the mechanism of this activation in vitro, a reconstituted system was developed using pancreatic cytosol, a zymogen granule-enriched fraction, and a microsomal fraction. Addition of cytosol to either particulate fraction resulted in a prominent increase in both trypsin and chymotrypsin activities. The percentage of the pool of trypsinogen and chymotrypsinogen activated was about twofold and sixfold greater, respectively, in the microsomal than in the zymogen granule-enriched fraction. Activation of chymotrypsinogen but not trypsinogen was significantly enhanced by ATP (5 mM) but not by the inactive ATP analog AMP-PNP. The processing of procarboxypeptidase B to its mature form also demonstrated a requirement for ATP and cytosol. E64d, an inhibitor of cathepsin B, a thiol protease that can activate trypsin, completely inhibited trypsin activity but did not affect chymotrypsin activity or carboxypeptidase B generation. These studies demonstrate that both zymogen granule-enriched and microsomal fractions from the pancreas can support cytosol-dependent zymogen activation. A component of the activation of some zymogens, such as chymotrypsinogen and procarboxypeptidase, may depend on ATP but not on trypsin or cathepsin B.
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We report here the first three-dimensional structure of the type 1 inositol 1,4,5-trisphosphate receptor (IP(3)R). From cryo-electron microscopic images of purified receptors embedded in vitreous ice, a three-dimensional structure...
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We report here the first three-dimensional structure of the type 1 inositol 1,4,5-trisphosphate receptor (IP(3)R). From cryo-electron microscopic images of purified receptors embedded in vitreous ice, a three-dimensional structure was determined by use of standard single particle reconstruction techniques. The structure is strikingly different from that of the ryanodine receptor at similar resolution despite molecular similarities between these two calcium release channels. The 24 A resolution structure of the IP(3)R takes the shape of an uneven dumbbell, and is approximately 170 A tall. Its larger end is bulky, with four arms protruding laterally by approximately 50 A and, in comparison with the receptor topology, probably corresponds to the cytoplasmic domain of the receptor. The lateral dimension at the height of the protruding arms is approximately 155 A. The smaller end, whose lateral dimension is approximately 100 A, has structural features indicative of the membrane-spanning domain. A central opening in this domain, which is occluded on the cytoplasmic half, outlines a pathway for calcium flow in the open state of the channel.
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Three isoforms of the inositol (1,4,5)-trisphosphate [Ins(1,4,5)P3] receptor have been identified. Each receptor isoform has been functionally characterized using many different techniques. Although these receptor isoforms possess...
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Three isoforms of the inositol (1,4,5)-trisphosphate [Ins(1,4,5)P3] receptor have been identified. Each receptor isoform has been functionally characterized using many different techniques. Although these receptor isoforms possess high homology, interesting differences in their Ca2+ dependence, Ins(1,4,5)P3 sensitivity and subcellular distribution exist, implying distinct cellular roles. Indeed, interplay among the isoforms might be necessary for a cell to control spatial and temporal aspects of cytosolic Ca2+ signals, which are important for many cellular processes. In this review isoform-specific functions, primarily at the single-channel level, will be highlighted and these properties will be correlated with Ca2+ signals in intact cells.
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PURPOSE OF REVIEW: This review focuses on studies from the past year that highlight molecular and cellular mechanisms of pancreatic injury arising from acute and chronic pancreatitis. RECENT FINDINGS: Factors that induce or amelio...
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PURPOSE OF REVIEW: This review focuses on studies from the past year that highlight molecular and cellular mechanisms of pancreatic injury arising from acute and chronic pancreatitis. RECENT FINDINGS: Factors that induce or ameliorate injury as well as cellular pathways involved have been examined. Causative or sensitizing factors include refluxed bile acids, hypercalcemia, ethanol, hypertriglyceridemia, and acidosis. In addition, the diabetes drug exendin-4 has been associated with pancreatitis, whereas other drugs may reduce pancreatic injury. The intracellular events that influence disease severity are better understood. Cathepsin-L promotes injury through an antiapoptotic effect, rather than by trypsinogen activation. In addition, specific trypsinogen mutations lead to trypsinogen misfolding, endoplasmic reticulum stress, and injury. Endogenous trypsin inhibitors and upregulation of proteins including Bcl-2, fibroblast growth factor 21, and activated protein C can reduce injury. Immune cells, however, have been shown to increase injury via an antiapoptotic effect. SUMMARY: The current findings are critical to understanding how causative factors initiate downstream cellular events resulting in pancreatic injury. Such knowledge will aid in the development of targeted treatments for pancreatitis. This review will first discuss factors influencing pancreatic injury, and then conclude with studies detailing the cellular mechanisms involved.
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OBJECTIVES: To define the role of protein kinase C delta (PKC delta) in acinar cell responses to the hormone cholecystokinin-8 (CCK) using isoform-specific inhibitors and a previously unreported genetic deletion model. METHODS: Pa...
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OBJECTIVES: To define the role of protein kinase C delta (PKC delta) in acinar cell responses to the hormone cholecystokinin-8 (CCK) using isoform-specific inhibitors and a previously unreported genetic deletion model. METHODS: Pancreatic acinar cells were isolated from (1) rat, and pretreated with a PKC delta-specific inhibitor or (2) PKC delta-deficient and wild type mice. Isolated cells were stimulated with CCK (0.001-100 nmol/L) and cell responses were measured. RESULTS: The PKC delta inhibitor did not affect stimulated amylase secretion from rat pancreatic acinar cells. Cholecystokinin-8 stimulation induced a typical biphasic dose-response curve for amylase secretion in acinar cells isolated from both PKC delta(-/-) and wild type mice, with maximal stimulation at 10-pmol/L CCK. Cholecystokinin-8 (100 nmol/L) induced zymogen and nuclear factor kappaB activation in both PKC delta(-/-) and wild type mice, although it was up to 50% less in PKC delta(-/-). CONCLUSIONS: In contrast to previous studies, this study has used specific and complementary approaches to examine PKC delta-mediated acinar cell responses. We could not confirm that it mediates amylase release but corroborated its role in the early stages of acute pancreatitis.
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Cytosolic free Ca2+ has been shown to have both activating and inhibitory effects upon the inositol (1,4,5) trisphosphate receptor (InsP3R) during intracellular Ca2+ release. The effects of cytosolic free Ca2+ on the InsP3R have a...
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Cytosolic free Ca2+ has been shown to have both activating and inhibitory effects upon the inositol (1,4,5) trisphosphate receptor (InsP3R) during intracellular Ca2+ release. The effects of cytosolic free Ca2+ on the InsP3R have already been monitored using cerebellar microsomes (containing InsP3R) incorporated into planar lipid bilayers [Bezprozvanny, Watras and Ehrlich (1991) Nature (London) 351, 751-754]. In these experiments the open probability of the channel exhibited a 'bell-shaped Ca2+ dependence'. However, this has only been seen when the receptor is in the presence of its native membrane (e.g. microsomal vesicles). Using solubilized, purified InsP3R incorporated into planar lipid bilayers using the 'tip-dip' technique, investigations were carried out to see if the same effect was seen in the absence of the native membrane. Channel activity was observed in the presence of 4 microM InsP3 and 200 nM free Ca2+. Mean single channel current was 2.69 pA and more than one population of lifetimes was observed. Two populations had mean open times of approx. 9 and 97 ms. Upon increasing the free [Ca2+] to 2 microM, the mean single channel current decreased slightly to 2.39 pA, and the lifetimes increased to 30 and 230 ms. Elevation of free -Ca2+- to 4 microM resulted in a further decrease in mean single channel current to 1.97 pA as well as a decrease in lifetime to approx. 8 and 194 ms. At 10 microM free [Ca2+] no channel activity was observed. Thus, with purified receptor in artificial bilayers, free [Ca2+] on the cytosolic face of the receptor has major effects on channel behaviour, particularly on channel closure, although inhibition of channel activity is not seen until very high free [Ca2+] is reached.
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The solubilized partially purified Ins(1,4,5)P-3-sensitive Ca2+ channel from rat cerebellum has been reconstituted into planar lipid bilayer membranes by the 'tip-dip' method [Ehrlich (1992) Methods Enzymol. 207, 463-471] allowing...
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The solubilized partially purified Ins(1,4,5)P-3-sensitive Ca2+ channel from rat cerebellum has been reconstituted into planar lipid bilayer membranes by the 'tip-dip' method [Ehrlich (1992) Methods Enzymol. 207, 463-471] allowing low noise current records. Single-channel events have been recorded. In the presence of 10 mu M Ins(1,4,5)P-3, 50 mu M ATP, and 0.2 mu M Ca2+ the Ins(1,4,5)P-3 receptor channel opens to a conductance level of 53 pS. In the presence of 100 mu M thimerosal (TMS), a sulphydryl-oxidizing agent, three subconductance levels (60 pS, 80 pS and 120 pS) were observed. More than one population of mean open times was found, both in the absence and presence of TMS, although TMS affected the length of the open time by decreasing the short opening significantly from 4.05 ms to 2.78 ms and increasing the longer open time from 27.8 ms to 94.8 ms. The results indicate that TMS enhances Ins(1,4,5)P-3-induced Ca2+ release by both altering the open times of the channel significantly and causing a shift to higher subconductance levels.
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