Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
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Compound
Target Concepts:
Gene/Protein
Disease
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Query: UMLS:C0149521 (
chronic pancreatitis
)
7,199
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Keratins 8 and 18 (KRT8 and KRT18 genes; K8 and
K18
proteins) variants are risk factors for developing end-stage liver disease and may be associated with inflammatory bowel disease and
chronic pancreatitis
. The frequency of K8/
K18
variants in American, British, German, and Italian populations differs. For example, one study showed no amino acid-altering K8/
K18
mutations in 256 German patients with liver disorders, while another found 58 out of 467 American liver disease patients with K8/
K18
mutations. Both studies used the WaveSystem, which utilizes DHPLC. We hypothesized that experimental conditions contribute to the discrepancy, and we tested this hypothesis using previously described K8/
K18
variants and a novel KRT18 c.1057C>G variant (
K18
p.R353G) to optimize the DHPLC conditions in 10 examined exons under a range of denaturing temperatures. Six of 16 tested variants in three of the 10 exons, including the frequent KRT8 c.184G>T (K8 p.G62C), KRT8 c.187A>G (K8 p.I63V), and KRT8 c.1022G>A (K8 p.R341H), could not be reliably detected when using temperatures suggested by the prediction software, but all these variants were readily detectable at 2 degrees C higher denaturing temperatures. Using optimized temperatures, we then tested available genomic DNA from 151 out of the 256 German liver disease patients for the presence of K8 variants in exons 1 and 6, where most of the American cohort K8 variants occur. We identified 12 exonic and two intronic K8 variants: one KRT8 c.184G>T (K8 p.G62C), two KRT8 c.187A>G (K8 p.I63V), seven KRT8 c.1022G>A (K8 p.R341H), one KRT8 c.1128G>A (K8 p.E376E), two intronic KRT8 c.1202+46 A>T, and one hitherto undescribed KRT8 c.1138G>A (K8 p.V380I). Therefore, although DHPLC offers a robust and high throughput means for mutation analysis, assessment of denaturing temperature ranges, and possible inclusion of control mutants should be considered.
...
PMID:Denaturing temperature selection may underestimate keratin mutation detection by DHPLC. 1657 32
Mutation of the adult hepatocyte keratins K8 and
K18
predisposes to liver disease. In contrast, exocrine pancreas K8 and
K18
are dispensable and are co-expressed with limited levels of membrane-proximal K19 and K20. Overexpression of mutant
K18
or genetic ablation of K8 in mouse pancreas is well tolerated whereas overexpression of K8 causes spontaneous
chronic pancreatitis
. To better understand the effect of exocrine pancreatic keratin overexpression, we compared transgenic mice that overexpress
K18
, K8, or K8/
K18
, associated with minimal, modest, or large increases in keratin expression, respectively, with nontransgenic wild-type (WT) mice. Overexpression of the type-II keratin K8 up-regulated type-I keratins
K18
, K19, and K20 and generated K19/K20-containing neocytoplasmic typical or short filaments; however, overexpression of
K18
had no effect on K8 levels. K8- and
K18
-overexpressing pancreata were histologically similar to WT, whereas K8/
K18
pancreata displayed age-enhanced vacuolization and atrophy of the exocrine pancreas and exhibited keratin hyperphosphorylation. Zymogen granules in K8/
K18
pancreata were 50% smaller and more dispersed than their normal apical concentration but were twice as numerous as in WT controls. Therefore, modest keratin overexpression has minor effects on the exocrine pancreas whereas significant keratin overexpression alters zymogen granule organization and causes aging-associated exocrine atrophy. Keratin absence or mutation is well tolerated after pancreatic but not liver injury, whereas excessive overexpression is toxic to the pancreas but not the liver when induced under basal conditions.
...
PMID:Keratin overexpression levels correlate with the extent of spontaneous pancreatic injury. 1834 19
