Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
 10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Distributions of parathyroid hormone (PTH), proparathyroid hormone (ProPTH), preproparathyroid hormone (PreProPTH), and parathyroid secretory protein (PSP) were analyzed in subcellular fractions prepared from homogenates of bovine parathyroid glands. Slices of bovine parathyroid glands were incubated with radiolabeled amino acids for 3--30 min to selectively label newly synthesized proteins. Subcellular fractions were prepared from homogenates of the gland slices by differential centrifugation. Newly synthesized labeled hormonal polypeptides in the fractions were analyzed by electrophoresis on polyacrylamide gels, and total amounts of PTH and ProPTH (previously formed and newly synthesized) were determined by immunoassay. Ninety percent of total immunoreactive, 70--80% of newly synthesized PTH, ProPTH, and PreProPTH, and 50% of PSP were found in sedimentable particulate fractions. The low speed (800 X g) pellet, which consisted predominantly of cell debris and nuclei with adherent remnants of cytoplasm, contained 30--50% of the ProPTH and PTH. The intermediate speed (10,000 X g) pellet, which contained granules, was relatively enriched in PTH. Most particulate-associated hormone could be solubilized by treatment with deoxycholate (DOC) 98% and 97% of radiolabeled and 93% and 83% of immunoreactive ProPTH and PTH, respectively, in particulates sedimenting at 10,000 and 105,000 X g were rendered DOC-soluble. Approximately 50% of the PTH and ProPTH in the particulates resisted digestion by combined trypsin and chymotrypsin, whereas PreProPTH was completely susceptible to proteolysis. Up to 50% of the radiolabeled PTH and ProPTH added exogenously to parathyroid gland slices before homogenization became associated with the particulate fractions, and 70--80% or radiolabeled PreProPTH added to the subcellular fractions readily associated with the sedimentable material. The results indicate that in homogenates of parathyroid glands, PTH, ProPTH, PreProPTH, and PSP are associated with particulate structures. Furthermore, up to 50% of the association of ProPTH, PTH, and PSP with particulate fractions seems to be nonsepcific and occurs during the disruption of the tissues. The remaining 50% or more of hormonal protein is presumably sequestered within membrane-limited structures, such as microsomal vesicles. The complete susceptibility in particulate fractions of newly synthesized PreProPTH, but not of ProPTH, to limited proteolysis indicates that the two precursors are located in different subcellular compartments and suggests that PreProPTH is converted to ProPTH before its entry into the intracisternal space of the endoplasmic reticulum. Alternatively, the PreProPTH identified in parathyroid gland slices may represent polypeptide chains synthesized in the cell sol on polyribosomes that are not attached to endoplasmic reticulum but are adsorbed nonspecifically to the particulate fraction of the cell during the process of tissue homogenization.
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PMID:Subcellular distributions of parathyroid hormone, hormonal precursors, and parathyroid secretory protein. 44 53

Early events in the cellular synthesis and subsequent transfer into membrane-limited compartments of pre-proparathyroid hormone (pre-proPTH) and proparathyroid hormone (proPTH) were investigated by electrophoretic analyses of newly synthesized proteins in subcellular fractions of parthyroid gland slices pulse-labeled for 0.5-5 min with [(35)S] methionine. During these short times of incubation, both pre-proPTH and proPTH were confined to the microsomal fraction. Labeled pre-proPTH and proPTH were detected in a 30-s interval between 0.5 and 1.0 min of incubation. The radioactivity in proPTH became relatively constant between 3 and 5 min, whereas the radioactivity in ProPTH increased markedly over this period. When corrected for the known content of methionine in the prohormone and the prohormone, we found four times as much radiolabeled prohormone as prehormone between 0.5 and 1.0 min of synthesis. Sequestration of labeled prohomrone into endoplasmic reticulum compartments was shown by treatment of the microsomal fraction with chymotrypsin and trypsin, which resulted in the degradation of the prehormone but not of the prohormones. Approximately 50 percent of pre-prohormone and 25 percent of prohormone were released from the microsomes by their extraction with 1.0 M KCl, whereas 80-90 percent of both was released by treatment with Triton X-100. These results in intact cells support the signal hypothesis proposed by Blobel and his co-workers in studies utilizing cell-free systems, inasmuch as the results indicate transfer of prohormone into the cisternal space of the rough endoplasmic reticulum concomitant with the growth of the nascent polypeptide chain. Appearance of membrane-sequestered proPTH takes place without entry of pre-proPTH into the cisternal space, suggesting that proteolytic removal of the leader peptide occurs during transfer of the polypeptide through the lipid bilayer. Further evidence in support of this process is that pre-proPTH is only partly extracted from the microsomes by treatment with 1.0 M KCl, suggesting that a substantial fraction of the nascent pre-proPTH is integrally inserted into the membranes before it is cleaved to form proPTH.
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PMID:Early events in the cellular formation of proparathyroid hormone. 737 10

To evaluate pancreatic exocrine function in uremia, 25 patients undergoing regular hemodialysis without clinical evidence of pancreatic disease and 25 healthy control subjects were studied by fecal elastase 1 and chymotrypsin. Abdominal ultrasonography and measurement of serum lipase, calcium, phosphate, and parathormone were also carried out. Fecal elastase was significantly lower (P < 0.001) in patients than in controls. Abnormally low values were found in 12/25 patients of whom six had values <100 microg/g. Fecal chymotrypsin was significantly lower (P < 0.05) in patients than in controls, with lower than normal values found in 10/25 patients. Fecal elastase was not related to the serum calcium, phosphate, or parathormone levels or to the period of dialysis. In patients serum lipase was normal or slightly elevated (<300 units/liter), and there was no evidence of pancreatic disease at ultrasound examination. The results lend further support to the existence of pancreatic function impairment in a significant number of patients with renal failure despite the absence of clinical and morphological evidence of pancreatic disease.
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PMID:Impaired fecal elastase excretion in uremic pancreopathy. 1121 50