Pancreatic Stone Protein (Lithostathine), a Physiologically Relevant Pancreatic Calcium Carbonate Crystal Inhibitor?
| Autor: | Rolf Graf, George A. Scheele, Daniel Bimmler, Thomas W. Frick |
|---|---|
| Rok vydání: | 1997 |
| Předmět: |
Proteolysis
Nerve Tissue Proteins Peptide Spodoptera Transfection Peptide Mapping Biochemistry Calcium Carbonate Phosphates law.invention Pancreatic Juice law Lithostathine medicine Animals Humans Amino Acid Sequence Molecular Biology chemistry.chemical_classification medicine.diagnostic_test Calcium-Binding Proteins Cell Biology Phosphoproteins Trypsin Peptide Fragments Recombinant Proteins In vitro Rats Kinetics Enzyme chemistry Pancreatic juice Recombinant DNA Crystallization Baculoviridae medicine.drug |
| Zdroj: | Journal of Biological Chemistry. 272:3073-3082 |
| ISSN: | 0021-9258 |
| Popis: | Apart from digestive enzymes, pancreatic juice contains several proteins that are not directly involved in digestion. One of these, lithostathine, has been reported to exhibit calcite crystal inhibitor activity in vitro. As pancreatic juice is supersaturated with respect to calcium carbonate, it was hypothesized that lithostathine stabilizes pancreatic juice. Lithostathine is cleaved by trace amounts of trypsin, resulting in a C-terminal polypeptide and an N-terminal undecapeptide, which has been identified as the active site of lithostathine regarding crystal inhibition. We produced rat lithostathine in a baculovirus expression system. In order to test its functional activity, the protein was purified using a nondenaturing multi-step procedure. In the low micromolar range, recombinant rat lithostathine in vitro exhibited calcite crystal inhibitor activity, confirming earlier reports. Limited tryptic proteolysis of recombinant lithostathine was performed, and the two cleavage products were separated; the C-terminal polypeptide was precipitated by centrifugation, and the N-terminal undecapeptide was purified by high performance liquid chromatography. Only the C-terminal peptide displayed measurable calcite crystal inhibitory activity. Furthermore, synthetic undecapeptides with identical sequence to the N-terminal undecapeptides of rat or human lithostathine were inactive. However, when tested in the same in vitro assays, other pancreatic or extra-pancreatic proteins show inhibitory activity in the same concentration range as lithostathine, and inorganic phosphate is active as well. Based on these findings it seems unlikely that lithostathine is a physiologically relevant calcite crystal inhibitor. The name "lithostathine" is therefore inappropriate, and the protein's key function remains to be elucidated. |
| Databáze: | OpenAIRE |
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