Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.23.5 (
cathepsin D
)
4,130
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The human aspartic proteinases include pepsinogen A, pepsinogen C,
cathepsin D
, cathepsin E and renin. Comparative analysis of the proteinase genes reveals a high degree of similarity with regard to their respective coding sequences and the location of exon-intron junctions. Despite strong conservation of the regions containing the active site aspartyl groups, genetic polymorphisms have been identified for each of the proteinase genes with the exception of
cathepsin D
. These genetic polymorphisms are useful for localization of genes on linkage maps as well as determination of gene copy number. The chromosomal location of each aspartyl proteinase has been determined by a variety of gene mapping methods employing recombinant DNA probes including; analysis of somatic cell hybrid mapping panels, in situ hybridization to metaphase chromosome preparations and family linkage analysis with polymorphic markers.
Pepsinogen
A exhibits the most extensive polymorphism among aspartic proteinases which can be detected by either by protein electrophoresis or by DNA analysis. Southern blot hybridization with respective DNA probes and polymerase chain reaction (PCR) amplification have revealed nucleotide differences located within the coding and noncoding portions of the aspartic proteinase genes. These polymorphisms can be used to investigate potential roles of each proteinase in genetically influenced clinical conditions. The development of additional highly polymorphic markers detected by PCR amplification of divergent nucleotide sequence repeats will greatly assist with documentation of the effect of genetic variation of the aspartic proteinases may have in specific clinical diseases such as ulcer and hypertension.
...
PMID:Genetic variation of human aspartic proteinases. 145 73
The distribution and time of appearance in the developing human stomach of the 4 aspartic proteinases, pepsinogen, progastricsin, slow-moving protease and
cathepsin D
, all present in gastric carcinoma, has been determined by the peroxidase-antiperoxidase method on formalin fixed paraffin embedded sections of fetal stomach. Slow-moving protease appears to be the dominant enzyme from 12 weeks gestation onward, although progastricsin is also present at this time.
Pepsinogen
and
cathepsin D
do not appear until 17-18 weeks.
...
PMID:Immunolocalisation of aspartic proteinases in the developing human stomach. 269 25
We compared the processing and presentation of the model Ag, hen-egg white lysozyme (HEL) expressed in C3.F6 APC as a fusion protein to three different acid hydrolases:
cathepsin D
, to an unglycosylated form of
cathepsin D
, and to pepsinogen. As expected from the biology of mannose 6-phosphate (Man-6-P)-containing enzyme,
cathepsin D
-HEL was delivered to the endosomal/lysosomal system. In contrast, the unglycosylated
cathepsin D
-HEL was retained in ER/Golgi and some was found in lysosomes. Most of pepsinogen-HEL was rapidly secreted from the APC. All transfectants presented HEL epitopes to T cell hybridomas. Regardless of the main route of traffic of the proteins, the strong I-Ak binding epitope HEL 48-62 was well presented by all. The biochemical forms of this epitope were identical for all. Three other epitopes of HEL that bind I-Ak with less affinity were processed equally well by unglycosylated
cathepsin D
-HEL and HEL-Ld. The glycosylated
cathepsin D
-HEL was less efficient in generating the 114-129 epitope.
Pepsinogen
-HEL was the less efficient of all transfectants in presenting these subdominant epitopes. Soluble
cathepsin D
-HEL recovered from culture supernatant was strongly immunogenic when added to C3.F6. The uptake was inhibited by free Man-6-P, indicating that the surface Man-6-P receptor can effectively deliver proteins to the class II MHC system.
...
PMID:Presentation on class II MHC molecules of endogenous lysozyme targeted to the endocytic pathway. 905
Pregnancy-associated glycoproteins (PAGs) isolated from the placenta of various ruminant species are enzymatically inactive members of the aspartic proteinase family. The measurement of these proteins in the maternal blood can be a good indicator of the presence of a live embryo. As certain aspartic proteinases are present in biological fluids in physiological and pathological conditions at various concentrations, it was necessary to determine the specificity of three radioimmunoassay (RIA) systems currently used for the detection of PAG molecules. Commercially available members of the aspartic proteinase family like pepsinogen, pepsin, chymosin, rennet,
cathepsin D
and renin were tested in a wide concentration range (10 ng/ml - 1 mg/ml).
Pepsinogen
cross-reacted in RIA 1, RIA 2 and RIA 3 over 1 mg/ml, 50 microg/ml and 500 microg/ml concentrations, respectively. In the presence of pepsin, cross-reaction was observed in RIA 1, RIA 2 and RIA 3 over 1 mg/ml, 500 microg/ml and 1 mg/ml concentrations, respectively. Chymosin and rennet could cross-react in RIA 2 and RIA 3, while renin and
cathepsin D
did not decrease the binding of the tracer to antisera more, than that of the minimal detection limit. As the plasma/serum concentrations of the examined aspartic proteinases reported in the literature were outside the concentration range where cross-reaction was observed, it can be concluded that these RIA systems were specific for the detection of PAGs in biological fluids.
...
PMID:Aspartic proteinase members secreted by the ruminant placenta: specificity of three radioimmunoassay systems for the measurement of pregnancy-associated glycoproteins. 1246 69
