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Query: UMLS:C0030305 (
pancreatitis
)
16,014
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The morphologic characteristics of ductlike tubular complexes were studied in human acute pancreatitis. Pancreatic specimens were obtained from 10 patients who were operated on for acute pancreatitis. Immunocytochemistry for pancreatic enzymes,
keratin
, actin, and carcinoembryonic antigen were combined with lectin-binding studies and ultrastructural investigations. Irrespective of clinical onset and duration of
pancreatitis
, tubular complexes situated in the vicinity of fat necrosis were observed in all patients. Intermediate forms of ductlike structures were characterized by widening of acinar lumina, decreased height of acinar cells, and large autophagic vacuoles. These structures bound all of the lectins employed and retained their immunoreactivity to secretory proteins. Typical tubular complexes were composed of low cuboidal or flattened cells surrounding a large acinar lumen. They revealed a loss for pancreatic enzymes, a reduced lectin-binding for L-fucose and N-acetylgalactosamine, and an increase for cytoskeletal proteins (
keratin
, actin). It is concluded that tubular complexes in human acute pancreatitis represent degenerating acinar cells which lost their secretory and membrane characteristics.
...
PMID:Histochemical and ultrastructural characteristics of tubular complexes in human acute pancreatitis. 253 80
Disruption or absence of hepatocyte keratins 8 and 18 is associated with chronic hepatitis, marked hepatocyte fragility, and a significant predisposition to stress-induced liver injury. In contrast, pancreatic
keratin
disruption in transgenic mice that express keratin 18 Arg89 --> Cys (K18C) is not associated with an obvious pancreatic pathology. We compared the effects of
keratin
filament disruption on pancreatic acini or acinar cell viability, and on cholecystokinin (CCK)-stimulated secretion, in transgenic mice that overexpress wild-type keratin 18 and harbor normal extended
keratin
filaments (TG2) and K18C mice. We also compared the response of these mice to
pancreatitis
induced by a choline-deficient ethionine-supplemented diet or by caerulein. Despite extensive cytoplasmic
keratin
filament disruption, the apicolateral
keratin
filament bundles appear intact in the acinar pancreas of K18C mice, as determined ultrastructurally and by light microscopy. No significant
pancreatitis
-associated histologic, serologic, or F-actin/
keratin
apicolateral redistribution differences were noted between TG2 and K18C mice. Acinar cell viability and yield after collagenase digestion were lower in K18C than in TG2 mice, but the yields of intact acini and their (125)I-CCK uptake and responses to CCK-stimulated secretion were similar. Our results indicate that
keratin
filament reorganization is a normal physiologic response to pancreatic cell injury, but an intact
keratin
cytoplasmic filament network is not as essential in protection from cell injury as in the liver. These findings raise the possibility that the abundant apicolateral acinar
keratin
filaments, which are not as evident in hepatocytes, may play the cytoprotective role that is seen in liver and other tissues. Alternatively, identical keratins may function differently in different tissues.
...
PMID:Effects of keratin filament disruption on exocrine pancreas-stimulated secretion and susceptibility to injury. 1069 32
Pancreatic acinar cells express keratins 8 and 18 (K8/18), which form cytoplasmic filament (CF) and apicolateral filament (ALF) pools. Hepatocyte K8/18 CF provide important protection from environmental stresses, but disruption of acinar cell CF has no significant impact. We asked whether acinar cell ALF are important in providing cytoprotective roles by studying
keratin
filaments in pancreata of K8- and K18-null mice. K8-null pancreas lacks both
keratin
pools, but K18-null pancreas lacks only CF. Mouse but not human acinar cells also express apicolateral keratin 19 (K19), which explains the presence of apicolateral keratins in K18-null pancreas. K8- and K18-null pancreata are histologically normal, and their acini respond similarly to stimulated secretion, although K8-null acini viability is reduced. Absence of total filaments (K8-null) or CF (K18-null) does not increase susceptibility to
pancreatitis
induced by caerulein or a choline-deficient diet. In normal and K18-null acini, K19 is upregulated after caerulein injury and, unexpectedly, forms CF. As in hepatocytes, acinar injury is also associated with
keratin
hyperphosphorylation. Hence, K19 forms ALF in mouse acinar cells and helps define two distinct ALF and CF pools. On injury, K19 forms CF that revert to ALF after healing. Acinar keratins appear to be dispensable for cytoprotection, in contrast to hepatocyte keratins, despite similar hyperphosphorylation patterns after injury.
...
PMID:Simple epithelial keratins are dispensable for cytoprotection in two pancreatitis models. 1109 58
Among the three major cytofilament proteins,
keratin
(K8/K18/K19) expression increases nearly threefold upon pancreas or liver injury, while actin and tubulin expressions are considered relatively stable. K8/K18 serves essential hepatocyte cytoprotective functions yet appears dispensable in K8-null mouse pancreata, which led us to hypothesize that actin or tubulin expressions may increase after pancreatic injury. Balb/c and FVB/n mice manifested different susceptibility to injury in two
pancreatitis
models, with significant induction of actin protein (threefold) and RNA after moderate or severe but not mild injury. Alterations in tubulin expression were less prominent. Basally, K8-null and wild-type pancreata expressed similar actin and tubulin levels, while the injury-induced actin protein but not RNA was more pronounced in K8-null mice. K7/K18/K19/K20 were also induced in K8-null mice after injury. Ex vivo, caerulein-triggered
pancreatitis
caused protein degradation (actin approximately or = tubulin > keratins) and mRNA up-regulation that was blocked by actinomycin-D (act-D) (actin approximately or = tubulin approximately or =
keratin
) or by NF-kappaB inhibition (keratins > actin approximately or = tubulin). Hence, actin is not as static as previously held and is overexpressed after moderate to severe pancreatic injury while keratins are induced after minimal injury. Keratin and actin induction may serve protective roles in pancreatic injury.
...
PMID:Actin overexpression parallels severity of pancreatic injury. 1535 May 39
Whilst the importance of mutations in a wide range of keratins in skin fragility disorders is now well established, there is much less evidence for simple epithelial
keratin
involvement in disease. Some simple epithelial
keratin
mutations have been reported in liver cirrhosis and
pancreatitis
patients, and recently mutations in the simple epithelial
keratin
K8 were identified in a group of patients with inflammatory bowel disease (Crohn disease or ulcerative colitis). In comparison with the mutations seen in epidermal keratins, these simple epithelial mutations would be predicted to have mild consequences, although analysis shows that they do have a distinct effect. This review article discusses the evidence that these mutations are a predisposing factor for inflammatory bowel disease.
...
PMID:Keratin mutations and intestinal pathology. 1549 67
The major keratins in the pancreas and liver are keratins 8 and 18 (K8/K18), but their function seemingly differs in that liver K8/K18 are essential cytoprotective proteins, whereas pancreatic K8/K18 are dispensable. This functional dichotomy raises the hypothesis that K8-null pancreata may undergo compensatory cytoprotective gene expression. We tested this hypothesis by comparing the gene expression profile in pancreata of wild-type and K8-null mice. Most prominent among the up-regulated genes in K8-null pancreas was mRNA for regenerating islet-derived (Reg)-II, which was confirmed by quantitative reverse transcription-polymerase chain reaction and by an anti-Reg-II peptide antibody we generated. Both K8-null and wild-type mice express Reg-II predominantly in acinar cells as determined by in situ hybridization and immunostaining. Analysis of Reg-II expression in various
keratin
-related transgenic mouse models showed that its induction also occurs in response to
keratin
cytoplasmic filament collapse, absence, or ablation of K18 Ser52 but not Ser33 phosphorylation via Ser-to-Ala mutation, which represent situations associated with predisposition to liver but not pancreatic injury. In wild-type mice, Reg-II is markedly up-regulated in two established
pancreatitis
models in response to injury and during the recovery phase. Thus, Reg-II is a likely mouse exocrine pancreas cytoprotective candidate protein whose expression is regulated by
keratin
filament organization and phosphorylation.
...
PMID:Reg-II is an exocrine pancreas injury-response product that is up-regulated by keratin absence or mutation. 1789 82
Risk of pancreatic cancer, the fourth deadliest cancer in the United States, is increased by obesity. Calorie restriction (CR) prevents obesity, suppresses carcinogenesis in many models, and reduces serum levels of IGF-1. In the present study, we examined the impact of CR on a model of inflammation-associated
pancreatitis
and pancreatic dysplasia, with a focus on the mechanistic contribution of systemic IGF-1. Administration of a 30% CR diet for 14 weeks decreased serum IGF-1 levels and hindered pancreatic ductal lesion formation and dysplastic severity, relative to a higher calorie control diet, in transgenic mice overexpressing COX-2 [bovine
keratin
-5 promoter (BK5.COX-2)]. These findings in CR mice correlated with reductions in Ki-67-positive cells, vascular luminal size, VEGF expression, and phosphorylation and total expression of downstream mediators of the IGF-1 pathway. Cell lines derived from BK5.COX-2 ductal lesions (JC101 cells) formed pancreatic tumors in wild-type FVB mice that were significantly reduced in size by a 14-week CR regimen, relative to the control diet. To further understand the impact of circulating levels of IGF-1 on tumor growth in this model, we orthotopically injected JC101 cells into liver-specific IGF-1-deficient (LID) mice. The approximate 65% reduction of serum IGF-1 levels in LID mice resulted in significantly decreased burden of JC101 tumors, despite modestly elevated levels of circulating insulin and leptin. These data show that CR prevents development of dysplasia and growth of pancreatic cancer through alterations in IGF-1, suggesting that modulation of this pathway with dietary and/or pharmacologic interventions is a promising pancreatic cancer prevention strategy.
...
PMID:Genetic reduction of insulin-like growth factor-1 mimics the anticancer effects of calorie restriction on cyclooxygenase-2-driven pancreatic neoplasia. 2159 96
Epiplakin, a member of the plakin protein family, is exclusively expressed in epithelial tissues and was shown to bind to keratins. Epiplakin-deficient (EPPK-/-) mice showed no obvious spontaneous phenotype, however, EPPK-/- keratinocytes displayed faster
keratin
network breakdown in response to stress. The role of epiplakin in pancreas, a tissue with abundant
keratin
expression, was not yet known. We analyzed epiplakin's expression in healthy and inflamed pancreatic tissue and compared wild-type and EPPK-/- mice during caerulein-induced acute pancreatitis. We found that epiplakin was expressed primarily in ductal cells of the pancreas and colocalized with apicolateral
keratin
bundles in murine pancreatic acinar cells. Epiplakin's diffuse subcellular localization in
keratin
filament-free acini of K8-deficient mice indicated that its filament-associated localization in acinar cells completely depends on its binding partner
keratin
. During acute pancreatitis, epiplakin was upregulated in acinar cells and its redistribution closely paralleled
keratin
reorganization. EPPK-/- mice suffered from aggravated
pancreatitis
but showed no obvious regeneration phenotype. At the most severe stage of the disease, EPPK-/- acinar cells displayed more
keratin
aggregates than those of wild-type mice. Our data propose epiplakin to be a protective protein during acute pancreatitis, and that its loss causes impaired disease-associated
keratin
reorganization.
...
PMID:Epiplakin deficiency aggravates murine caerulein-induced acute pancreatitis and favors the formation of acinar keratin granules. 2523 67
Leukotriene B
4
(LTB
4
) is a leukocyte chemoattractant and plays a major role controlling inflammatory responses including
pancreatitis
. LTB
4
is known to be correlated with cancer progression. LTB
4
induces
keratin
phosphorylation and reorganization by activating extracellular regulated kinase (ERK) in PANC-1 pancreatic cancer cell lines. However, the role of LTB
4
in epithelial mesenchymal transition (EMT) and vimentin expression in pancreatic cancer cells is unknown. We examined whether LTB
4
induces EMT and vimentin expression by Western blot, si-RNA, and RT-PCR. LTB
4
induced morphological change, decreased E-cadherin expression and increased N-cadherin and vimentin expression. LTB4 increased migration and invasion of PANC-1 cancer cells. LTB
4
dose-dependently upregulated expression of vimentin in PANC-1 cancer cells. LTB
4
-induced vimentin expression was suppressed by LY255283 (BLT2 antagonist). Comp A, a BLT2 agonist, further increased vimentin expression. Gene silencing of BLT2 suppressed LTB
4
-or Comp A-induced vimentin expression in PANC-1 cells. The MEK inhibitor, PD98059 suppressed Comp A-induced vimentin expression. Comp A or transfection of plasmid containing BLT2 cDNA (pC
BLT2
) activated ERK, and BLT2 gene silencing suppressed Comp A-induced ERK activation. ERK2 siRNA abrogated Comp A-induced vimentin expression and ERK2 overexpression enhanced vimentin expression. One of well-known cause of ras mutation, cigarette smoke extracts increased BLT2 expression in PANC-1 cancer cells. Taken together, these results suggest that BLT2 is involved in LTB
4
-induced vimentin expression through ERK2 in PANC-1 cells.
...
PMID:Leukotriene B4 induces EMT and vimentin expression in PANC-1 pancreatic cancer cells: Involvement of BLT2 via ERK2 activation. 2791 16
