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2. Common genetic variants in the CLDN2 and PRSS1-PRSS2 loci alter risk for alcohol-related and sporadic pancreatitis

Author

Whitcomb, DC, LaRusch, J, Krasinskas, AM, Klei, L, Smith, JP, Brand, RE, Neoptolemos, JP, Lerch, MM, Tector, M, Sandhu, BS, Guda, NM, Orlichenko, L, Alkaade, S, Amann, ST, Anderson, MA, Baillie, J, Banks, PA, Conwell, D, Coté, GA, Cotton, PB, DiSario, J, Farrer, LA, Forsmark, CE, Johnstone, M, Gardner, TB, Gelrud, A, Greenhalf, W, Haines, JL, Hartman, DJ, Hawes, RA, Lawrence, C, Lewis, M, Mayerle, J, Mayeux, R, Melhem, NM, Money, ME, Muniraj, T, Papachristou, GI, Pericak-Vance, MA, Romagnuolo, J, Schellenberg, GD, Sherman, S, Simon, P, Singh, VP, Slivka, A, Stolz, D, Sutton, R, Weiss, FU, Wilcox, CM, Zarnescu, NO, Wisniewski, SR, O'Connell, MR, Kienholz, ML, Roeder, K, Barmada, MM, Yadav, D, Devlin, B, Albert, MS, Albin, RL, Apostolova, LG, Arnold, SE, Baldwin, CT, Barber, R, Barnes, LL, Beach, TG, Beecham, GW, Beekly, D, Bennett, DA, Bigio, EH, Bird, TD, Blacker, D, Boxer, A, Burke, JR, Buxbaum, JD, Cairns, NJ, Cantwell, LB, Cao, C, Carney, RM, Carroll, SL, Chui, HC, Clark, DG, Cribbs, DH, Crocco, EA, and Cruchaga, C

Abstract

Pancreatitis is a complex, progressively destructive inflammatory disorder. Alcohol was long thought to be the primary causative agent, but genetic contributions have been of interest since the discovery that rare PRSS1, CFTR and SPINK1 variants were associated with pancreatitis risk. We now report two associations at genome-wide significance identified and replicated at PRSS1-PRSS2 (P < 1 × 10-12) and X-linked CLDN2 (P < 1 × 10-21) through a two-stage genome-wide study (stage 1: 676 cases and 4,507 controls; stage 2: 910 cases and 4,170 controls). The PRSS1 variant likely affects disease susceptibility by altering expression of the primary trypsinogen gene. The CLDN2 risk allele is associated with atypical localization of claudin-2 in pancreatic acinar cells. The homozygous (or hemizygous in males) CLDN2 genotype confers the greatest risk, and its alleles interact with alcohol consumption to amplify risk. These results could partially explain the high frequency of alcohol-related pancreatitis in men (male hemizygote frequency is 0.26, whereas female homozygote frequency is 0.07). © 2012 Nature America, Inc. All rights reserved.

Published
2012

3. Src Dependent Pancreatic Acinar Injury Can Be Initiated Independent of an Increase in Cytosolic Calcium

Author

Mishra, V, Cline, R, Noel, P, Karlsson, J, Baty, CJ, Orlichenko, L, Patel, K, Trivedi, RN, Husain, SZ, Acharya, C, Durgampudi, C, Stolz, DB, Navina, S, Singh, VP, Mishra, V, Cline, R, Noel, P, Karlsson, J, Baty, CJ, Orlichenko, L, Patel, K, Trivedi, RN, Husain, SZ, Acharya, C, Durgampudi, C, Stolz, DB, Navina, S, and Singh, VP

Abstract

Several deleterious intra-acinar phenomena are simultaneously triggered on initiating acute pancreatitis. These culminate in acinar injury or inflammatory mediator generation in vitro and parenchymal damage in vivo. Supraphysiologic caerulein is one such initiator which simultaneously activates numerous signaling pathways including non-receptor tyrosine kinases such as of the Src family. It also causes a sustained increase in cytosolic calcium- a player thought to be crucial in regulating deleterious phenomena. We have shown Src to be involved in caerulein induced actin remodeling, and caerulein induced changes in the Golgi and post-Golgi trafficking to be involved in trypsinogen activation, which initiates acinar cell injury. However, it remains unclear whether an increase in cytosolic calcium is necessary to initiate acinar injury or if injury can be initiated at basal cytosolic calcium levels by an alternate pathway. To study the interplay between tyrosine kinase signaling and calcium, we treated mouse pancreatic acinar cells with the tyrosine phosphatase inhibitor pervanadate. We studied the effect of the clinically used Src inhibitor Dasatinib (BMS-354825) on pervanadate or caerulein induced changes in Src activation, trypsinogen activation, cell injury, upstream cytosolic calcium, actin and Golgi morphology. Pervanadate, like supraphysiologic caerulein, induced Src activation, redistribution of the F-actin from its normal location in the sub-apical area to the basolateral areas, and caused antegrade fragmentation of the Golgi. These changes, like those induced by supraphysiologic caerulein, were associated with trypsinogen activation and acinar injury, all of which were prevented by Dasatinib. Interestingly, however, pervanadate did not cause an increase in cytosolic calcium, and the caerulein induced increase in cytosolic calcium was not affected by Dasatinib. These findings suggest that intra-acinar deleterious phenomena may be initiated independent of an in

Published
2013

9. Src Dependent Pancreatic Acinar Injury Can Be Initiated Independent of an Increase in Cytosolic Calcium.

Author

Mishra V, Cline R, Noel P, Karlsson J, Baty CJ, Orlichenko L, Patel K, Trivedi RN, Husain SZ, Acharya C, Durgampudi C, Stolz DB, Navina S, and Singh VP

Subjects
Animals, Dasatinib pharmacology, Enzyme Activation, Fluorescent Antibody Technique, Mice, Mice, Inbred ICR, Vanadates pharmacology, src-Family Kinases antagonists & inhibitors, Acinar Cells pathology, Calcium metabolism, Cytosol metabolism, src-Family Kinases metabolism
Abstract

Several deleterious intra-acinar phenomena are simultaneously triggered on initiating acute pancreatitis. These culminate in acinar injury or inflammatory mediator generation in vitro and parenchymal damage in vivo. Supraphysiologic caerulein is one such initiator which simultaneously activates numerous signaling pathways including non-receptor tyrosine kinases such as of the Src family. It also causes a sustained increase in cytosolic calcium- a player thought to be crucial in regulating deleterious phenomena. We have shown Src to be involved in caerulein induced actin remodeling, and caerulein induced changes in the Golgi and post-Golgi trafficking to be involved in trypsinogen activation, which initiates acinar cell injury. However, it remains unclear whether an increase in cytosolic calcium is necessary to initiate acinar injury or if injury can be initiated at basal cytosolic calcium levels by an alternate pathway. To study the interplay between tyrosine kinase signaling and calcium, we treated mouse pancreatic acinar cells with the tyrosine phosphatase inhibitor pervanadate. We studied the effect of the clinically used Src inhibitor Dasatinib (BMS-354825) on pervanadate or caerulein induced changes in Src activation, trypsinogen activation, cell injury, upstream cytosolic calcium, actin and Golgi morphology. Pervanadate, like supraphysiologic caerulein, induced Src activation, redistribution of the F-actin from its normal location in the sub-apical area to the basolateral areas, and caused antegrade fragmentation of the Golgi. These changes, like those induced by supraphysiologic caerulein, were associated with trypsinogen activation and acinar injury, all of which were prevented by Dasatinib. Interestingly, however, pervanadate did not cause an increase in cytosolic calcium, and the caerulein induced increase in cytosolic calcium was not affected by Dasatinib. These findings suggest that intra-acinar deleterious phenomena may be initiated independent of an increase in cytosolic calcium. Other players resulting in acinar injury along with the Src family of tyrosine kinases remain to be explored.

Published
2013
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10. Common genetic variants in the CLDN2 and PRSS1-PRSS2 loci alter risk for alcohol-related and sporadic pancreatitis.

Author

Whitcomb DC, LaRusch J, Krasinskas AM, Klei L, Smith JP, Brand RE, Neoptolemos JP, Lerch MM, Tector M, Sandhu BS, Guda NM, Orlichenko L, Alkaade S, Amann ST, Anderson MA, Baillie J, Banks PA, Conwell D, Coté GA, Cotton PB, DiSario J, Farrer LA, Forsmark CE, Johnstone M, Gardner TB, Gelrud A, Greenhalf W, Haines JL, Hartman DJ, Hawes RA, Lawrence C, Lewis M, Mayerle J, Mayeux R, Melhem NM, Money ME, Muniraj T, Papachristou GI, Pericak-Vance MA, Romagnuolo J, Schellenberg GD, Sherman S, Simon P, Singh VP, Slivka A, Stolz D, Sutton R, Weiss FU, Wilcox CM, Zarnescu NO, Wisniewski SR, O'Connell MR, Kienholz ML, Roeder K, Barmada MM, Yadav D, and Devlin B

Subjects
Female, Gene Frequency, Genetic Predisposition to Disease, Genome-Wide Association Study, Homozygote, Humans, Male, Mutation, Pancreatitis, Alcoholic pathology, Sex Factors, Claudins genetics, Genetic Variation, Pancreatitis, Alcoholic genetics, Trypsin genetics, Trypsinogen genetics
Abstract

Pancreatitis is a complex, progressively destructive inflammatory disorder. Alcohol was long thought to be the primary causative agent, but genetic contributions have been of interest since the discovery that rare PRSS1, CFTR and SPINK1 variants were associated with pancreatitis risk. We now report two associations at genome-wide significance identified and replicated at PRSS1-PRSS2 (P < 1 × 10(-12)) and X-linked CLDN2 (P < 1 × 10(-21)) through a two-stage genome-wide study (stage 1: 676 cases and 4,507 controls; stage 2: 910 cases and 4,170 controls). The PRSS1 variant likely affects disease susceptibility by altering expression of the primary trypsinogen gene. The CLDN2 risk allele is associated with atypical localization of claudin-2 in pancreatic acinar cells. The homozygous (or hemizygous in males) CLDN2 genotype confers the greatest risk, and its alleles interact with alcohol consumption to amplify risk. These results could partially explain the high frequency of alcohol-related pancreatitis in men (male hemizygote frequency is 0.26, whereas female homozygote frequency is 0.07).

Published
2012
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11. ADP-ribosylation factor 1 protein regulates trypsinogen activation via organellar trafficking of procathepsin B protein and autophagic maturation in acute pancreatitis.

Author

Orlichenko L, Stolz DB, Noel P, Behari J, Liu S, and Singh VP

Subjects
ADP-Ribosylation Factor 1 antagonists & inhibitors, Animals, Blotting, Western, Brefeldin A pharmacology, Ceruletide pharmacology, Golgi Apparatus drug effects, Golgi Apparatus metabolism, Mice, Microscopy, Electron, Microscopy, Fluorescence, Rats, Real-Time Polymerase Chain Reaction, ADP-Ribosylation Factor 1 metabolism, Autophagy drug effects, Cathepsin B metabolism, Enzyme Precursors metabolism, Pancreatitis metabolism, Trypsinogen metabolism
Abstract

Several studies have suggested that autophagy might play a deleterious role in acute pancreatitis via intra-acinar activation of digestive enzymes. The prototype for this phenomenon is cathepsin B-mediated trypsin generation. To determine the organellar basis of this process, we investigated the subcellular distribution of the cathepsin B precursor, procathepsin B. We found that procathepsin B is enriched in Golgi-containing microsomes, suggesting a role for the ADP-ribosylation (ARF)-dependent trafficking of cathepsin B. Indeed, caerulein treatment increased processing of procathepsin B, whereas a known ARF inhibitor brefeldin A (BFA) prevented this. Similar treatment did not affect processing of procathepsin L. BFA-mediated ARF1 inhibition resulted in reduced cathepsin B activity and consequently reduced trypsinogen activation. However, formation of light chain 3 (LC3-II) was not affected, suggesting that BFA did not prevent autophagy induction. Instead, sucrose density gradient centrifugation and electron microscopy showed that BFA arrested caerulein-induced autophagosomal maturation. Therefore, ARF1-dependent trafficking of procathepsin B and the maturation of autophagosomes results in cathepsin B-mediated trypsinogen activation induced by caerulein.

Published
2012
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12. The 19-amino acid insertion in the tumor-associated splice isoform Rac1b confers specific binding to p120 catenin.

Author

Orlichenko L, Geyer R, Yanagisawa M, Khauv D, Radisky ES, Anastasiadis PZ, and Radisky DC

Subjects
Alternative Splicing, Amino Acid Sequence, Animals, Cell Adhesion, Cell Movement, Epithelial Cells cytology, Mice, Molecular Sequence Data, Phenotype, Protein Binding, Protein Isoforms, Transcription, Genetic, Delta Catenin, Amino Acids chemistry, Catenins chemistry, rac1 GTP-Binding Protein chemistry
Abstract

The Rac1b splice isoform contains a 19-amino acid insertion not found in Rac1; this insertion leads to decreased GTPase activity and reduced affinity for GDP, resulting in the intracellular predominance of GTP-bound Rac1b. Here, using co-precipitation and proteomic methods, we find that Rac1b does not bind to many common regulators of Rho family GTPases but that it does display enhanced binding to SmgGDS, RACK1, and p120 catenin (p120(ctn)), proteins involved in cell-cell adhesion, motility, and transcriptional regulation. We use molecular modeling and structure analysis approaches to determine that the interaction between Rac1b and p120(ctn) is dependent upon protein regions that are predicted to be unstructured in the absence of molecular complex formation, suggesting that the interaction between these two proteins involves coupled folding and binding. We also find that directed cell movement initiated by Rac1b is dependent upon p120. These results define a distinct binding functionality of Rac1b and provide insight into how the distinct phenotypic program activated by this protein may be implemented through molecular recognition of effectors distinct from those of Rac1.

Published
2010
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13. Caveolae mediate growth factor-induced disassembly of adherens junctions to support tumor cell dissociation.

Author

Orlichenko L, Weller SG, Cao H, Krueger EW, Awoniyi M, Beznoussenko G, Buccione R, and McNiven MA

Subjects
Adherens Junctions metabolism, Animals, Blotting, Western, Cadherins genetics, Caveolae ultrastructure, Caveolin 1 genetics, Cell Adhesion drug effects, Cell Communication drug effects, Cell Line, Cell Line, Tumor, Cell Movement drug effects, Endocytosis drug effects, Endosomes metabolism, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Humans, Microscopy, Confocal, Microscopy, Electron, Mutation, RNA Interference, Signal Transduction drug effects, Adherens Junctions drug effects, Cadherins metabolism, Caveolae metabolism, Caveolin 1 metabolism, Epidermal Growth Factor pharmacology
Abstract

Remodeling of cell-cell contacts through the internalization of adherens junction proteins is an important event during both normal development and the process of tumor cell metastasis. Here we show that the integrity of tumor cell-cell contacts is disrupted after epidermal growth factor (EGF) stimulation through caveolae-mediated endocytosis of the adherens junction protein E-cadherin. Caveolin-1 and E-cadherin closely associated at cell borders and in internalized structures upon stimulation with EGF. Furthermore, preventing caveolae assembly through reduction of caveolin-1 protein or expression of a caveolin-1 tyrosine phospho-mutant resulted in the accumulation of E-cadherin at cell borders and the formation of tightly adherent cells. Most striking was the fact that exogenous expression of caveolin-1 in tumor cells that contain tight, well-defined, borders resulted in a dramatic dispersal of these cells. Together, these findings provide new insights into how cells might disassemble cell-cell contacts to help mediate the remodeling of adherens junctions, and tumor cell metastasis and invasion.

Published
2009
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14. Epithelial growth factor-induced phosphorylation of caveolin 1 at tyrosine 14 stimulates caveolae formation in epithelial cells.

Author

Orlichenko L, Huang B, Krueger E, and McNiven MA

Subjects
Animals, Blotting, Western, Caveolin 1 genetics, Cell Line, Cell Line, Tumor, Cell Membrane metabolism, Centrifugation, Density Gradient, Cytoplasm metabolism, Dogs, Electrophoresis, Polyacrylamide Gel, Enzyme Inhibitors pharmacology, Humans, Immunoprecipitation, Microscopy, Electron, Transmission, Microscopy, Fluorescence, Microscopy, Immunoelectron, Mutation, Phosphorylation, Rats, Sucrose pharmacology, Time Factors, Transfection, Caveolin 1 metabolism, Epidermal Growth Factor metabolism, Epithelial Cells cytology, Tyrosine chemistry
Abstract

Caveolae are flask-shaped endocytic structures composed primarily of caveolin-1 (Cav1) and caveolin-2 (Cav2) proteins. Interestingly, a cytoplasmic accumulation of Cav1 protein does not always result in a large number of assembled caveolae organelles, suggesting a regulatory mechanism that controls caveolae assembly. In this study we report that stimulation of epithelial cells with epithelial growth factor (EGF) results in a profound increase in the number of caveolar structures at the plasma membrane. Human pancreatic tumor cells (PANC-1) and normal rat kidney cells (NRK), as a control, were treated with 30 ng/ml EGF for 0, 5, and 20 min before fixation and viewing by electron microscopy. Cells fixed without EGF treatment exhibited modest numbers of plasma membrane-associated caveolae. Cells treated with EGF for 5 or 20 min showed an 8-10-fold increase in caveolar structures, some forming long, pronounced caveolar "towers" at the cell-cell borders. It is known that Cav1 is Src-phosphorylated on tyrosine 14 in response to EGF treatment, although the significance of this modification is unknown. We postulated that phosphorylation could provide the stimulus for caveolae assembly. To this end, we transfected cells with mutant forms of Cav1 that could not be phosphorylated (Cav1Y14F) and tested if this altered protein reduced the number of EGF-induced caveolae. We observed that EGF-stimulated PANC-1 cells expressing the mutant Cav1Y14F protein exhibited a 90-95% reduction in caveolae number compared with cells expressing wild type Cav1. This study provides novel insights into how cells regulate caveolae formation and implicates EGF-based signaling cascades in the phosphorylation of Cav1 as a stimulus for caveolae assembly.

Published
2006
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15. [Characterization of the genetic apparatus of cell nuclei and mitochondria of mouse liver during aging].

Author

Mozzhukhina TG, Potapenko RI, Orlichenko LS, Kul'chitskiĭ OK, and Litoshenko AIa

Subjects
Animals, Chromatin genetics, DNA, Mitochondrial genetics, Male, Mice, Mice, Inbred CBA, Structure-Activity Relationship, Aging genetics, Cell Nucleus genetics, Lipid Peroxidation physiology, Mitochondria, Liver genetics
Abstract

A comparative biochemical study of the structural-functional peculiarities of genetic apparatus and the content of lipid peroxidation products in the liver nuclei and mitochondria of adult (4.5-5.5 months) and old (22-24 months) CBA mice was carried out. The age-related changes were found as follows: relative content of transcriptionally active and matrix-bound chromatin fractions was decreased, and that of transcriptionally low active fraction was increased; the value of protein/DNA was increased only in transcriptionally active fraction; the value of mitochondrial genome expression coefficient was diminished due to a decreased content of proteins encoded by mtDNA; the concentrations of Schiff bases were elevated both in the nuclei and mitochondria. Possible mechanisms of lipid peroxidation involvement in the above mentioned changes of the nuclear and mitochondrial genetic apparatus are discussed.

Published
1996

16. [The presence of mtDNA-like sequences in the DNA of liver chromatin fractions from rats of different ages].

Author

Mozzhukhina TG, Orlichenko LS, and Litoshenko AIa

Subjects
Aging genetics, Animals, Autoradiography, Cell Nucleus genetics, Cell Nucleus metabolism, Chromatin genetics, Chromatin isolation & purification, DNA genetics, DNA, Mitochondrial genetics, DNA, Mitochondrial isolation & purification, Female, Molecular Sequence Data, Nucleic Acid Hybridization, Rats, Aging metabolism, Chromatin metabolism, DNA metabolism, DNA, Mitochondrial metabolism, Liver metabolism, Sequence Homology, Nucleic Acid
Abstract

We have used young (2-3 months), adult (6-8 months) and old (26-28 months) rats. Nuclear DNA (nDNA) was isolated from the liver nuclei and chromatin fractions (RCh, repressed chromatin; ACh, transcriptionally active chromatin; MCh, membrane-bound chromatin) and thereafter loaded on nitrocellulose filters. Hybridization was carried out with radioactively labelled mitochondrial DNA (mtDNA) as a probe mtDNA was first isolated from the liver mitochondria of adult rats and then labelled in nick-translation reaction with 32P-dCTP. Radioautography densitometry data have shown that the content of mtDNA-homologous sequences in the liver nDNA was decreased in adult rats (56%) and increased in the old ones (240%), as compared with the young animals. mtDNA-homologous sequences were localized in the young rats mainly in the RCh, while the adult and old rats had similar sequences in the ACh. We suggest that the age-related dynamics of mtDNA-homologous sequences was due to various factors. At the early stages cell differentiation proceeds rapidly and is accompanied by structural and functional reorganization of both nuclear and mitochondrial genomes. These changes increase the probability of contacts and integration of mtDNA fragments and whole molecules in the nuclear genome. As a result, an elevated level of mtDNA-homologous sequences is observed in the liver nuclear genome of young rats. In adult rats, repair and elimination of cells with defective nDNA and decreased proliferation of hepatocytes account for decreased amounts of mtDNA-homologous sequences in nDNA. In old animals, the repair to destruction ratio shifts towards destruction and, hence, mtDNA-homologous sequences are accumulated in the liver nDNA. Age related dynamics of mtDNA-homologous sequences in the liver chromatin fractions is characterized by accumulation of these sequences in ACh and MCh chromatin fractions during maturation and ageing. This also confirms our suggestion that integration of mtDNA-homologous sequences in the nuclear genome is due to various mechanisms operational at the early and late stages of ontogenesis.

Published
1994

17. [Synthesis of mtDNA and proteins coded by mtDNA in liver mitochondrial fractions of rats of varying age].

Author

Orlichenko LS, Beregovskaia NN, and Litoshenko AIa

Subjects
Animals, DNA, Mitochondrial genetics, Female, Organelle Biogenesis, Rats, Rats, Wistar, Aging metabolism, DNA, Mitochondrial biosynthesis, Mitochondria, Liver metabolism, Proteins genetics
Abstract

The in vivo synthesis of mtDNA and mtDNA-coded proteins was studied in the whole population and in separate fractions (heavy, middle and light) of liver mitochondria from young (3-4 months), adult (6-8 months) and old (24-26 months) rats. The synthesis rate was estimated from the value of relative specific radioactivity which represented a ratio of specific radioactivity of acid insoluble fraction to that of acid soluble fraction in suspension aliquot of isolated mitochondria. It was found that the synthesis rate of mtDNA in the whole mitochondrial population was increased in the adult rats and decreased in the old animals. The same direction of changes was noticed in heavy and light mitochondrial fractions. Moreover, at any age the synthesis rate of mtDNA was higher in light fractions as compared to other fractions. In the whole mitochondrial population, the synthesis rate of proteins coded by mtDNA was also increased in adult rats and decreased in old animals. However, this decrease was less expressed than in mtDNA case. The increase in the synthesis rate of mitochondrial proteins was noted in all mitochondrial fractions too, whereas its decrease in the old age was marked in the light mitochondria only. Owing to the above peculiarities of age-related changes of the synthesis rate of mtDNA and proteins coded by mtDNA, there takes place the prevalence with age of protein synthesis over mtDNA synthesis in the whole population and in the fractions of rat liver mitochondria.

Published
1994

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