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Disease
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Drug
Enzyme
Compound
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Target Concepts:
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Query: EC:3.4.23.5 (
cathepsin D
)
4,130
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To investigate the role of post-translational events in intestinal cell differentiation we have studied the effects of heat shock on processing and cell surface delivery of sucrase-isomaltase (SI),
dipeptidylpeptidase IV
(
DPPIV
) and aminopeptidase N (APN) in Caco-2 cells. In cells cultured at 42.5 degrees C there was a rapid decline in sucrase activity, while
DPPIV
and APN were unaffected over a 3-day period. Immunofluorescence staining confirmed the selective disappearance of SI from the surface membrane after only 1 day of culture at 42.5 degrees C. Cell-surface biotinylation of cells metabolically labelled with [35S]methionine 4 h after a switch from 37 degrees C to 42.5 degrees C demonstrated that newly synthesized APN and
DPPIV
were associated with the surface membrane, while SI was almost completely retained intracellularly. Pulse-chase experiments confirmed that, in these cells,
DPPIV
and APN were normally processed and vectorially delivered to the cell surface; in contrast, conversion between the two conformationally distinct high-mannose precursor forms of SI (hmP1 and hmP2) was markedly inhibited, a significant fraction of newly synthesized enzyme was degraded, probably in the ER, and an immature form of complex-glycosylated SI precursor (cP) was produced and mostly retained intracellularly. Double labelling of Caco-2 cells for SI and
cathepsin D
excluded an accumulation of SI in the lysosomes, suggesting that this organelle was not involved in the degradation of SI. These results indicate that the ER may play an important role in intestinal cell differentiation by regulating the conformational maturation, degradation and eventual cellular localization of some digestive enzymes.
...
PMID:Intracellular degradation and reduced cell-surface expression of sucrase-isomaltase in heat-shocked Caco-2 cells. 810 Apr 14
The FACS-analysis of diseases as different as cancer, autoimmune disorders and chronic (retro)viral infections, including HIV-infection, shows -at least temporarily- a common feature of lymphocyte hyperactivation, characterized by cellular activation markers (HLA-DR,
CD26
, CD38, CD69, CD2R and/or CD30), as well as by solubilized membrane structures, such as beta-2m, sICAM-I, sIL-2R/sCD25, sCD8, and by some oversecreted immunocyte products (e.g. neopterin, lysozyme and/or
cathepsin D
). We tested two potential approaches to down-regulate the pathologically elevated CD8+ and HLA-DR+ T cells: (a) In animal model, we tested the sensibility of these, disease inducing and maintaining T cell subsets to in vitro pretreated (cell death preprogrammed) semi-syngeneic and allogeneic donor T cells in tumor-bearing mice. (b) In the first clinical study, we used a novel combination of FDA-approved drugs which inhibits Ca(2+)-influx and concomitantly down-regulates cytosolic cAMP in patient's overstimulated immunocompetent cells. We could achieve a 94.6-100% long-term survival in tumor-bearing mice. In patients, large primary tumors and large metastases shrinked by 80-85% and small metastases disappeared completely. Since in HIV-infected persons, the increased number of HLA-DR+ CD38+T (T8) cells is associated with a fall in CD4-level and with development of AIDS, we are looking for the elimination of these HLA-DR+ targets by our novel technique in two AIDS-simulating (FIV/FeLV and SIV) animal models.
...
PMID:Treatment of solid tumors should obligatorily be combined with the in vivo codepletion of tumor-protecting, CD8+/HLA-DR(+)-suppressor T cells by alloreactive donor T cells whose preprogrammed cell death allows a high GvL-effect before GvHD can be established. Results of animal experiments, including more than 6000 mice. 873 48
As a new approach, various synthetic fluorogenic substrates, the CellProbe reagents, were applied to examine the topography of their cleavage in vital human spermatozoa. These substrates are able to enter the cells without requiring previous cell permeabilization and can produce a fluorescent dye after cleavage, depending on enzyme activity. Vital spermatozoa from samples with normal spermiogram parameters showed fluorescence in different areas and intensity after incubation with a variety of substrates for aminopeptidase A, peroxides, subtilisin,
dipeptidylpeptidase IV
(DPP IV),
cathepsin D
, glucosidase and glucuronidase, but not with the substrate for galactosidase. Fluorescence was mainly located in the acrosomal cap (substrates for DPP IV, subtilisin,
cathepsin D
, glucosidase and glucuronidase) in the middle piece and head (substrates for peroxides, glucosidase), in the sperm head (substrates for aminopeptidase A) and occasionally in the tail (substrate for glucosidase). The substrate for subtilisin may play a role in andrology, because subtilisin is a serine protease like acrosin. This substrate may possibly be used to determine the acrosin activity in vital spermatozoa. The CellProbe reagents for fluorescence cytoenzymology may serve advanced methods in both clinical andrology and spermiological research, presuming that the characteristics and qualities of the synthetic substrates are correct. Therefore, more extended studies will be necessary to determine their clinical utility and significance under physiological and pathological conditions.
...
PMID:Localisation of enzymes in live spermatozoa by CellProbe reagents (preliminary results). 994 87
Dipeptidyl peptidase IV (
DPP4
) is a peptidase whose inhibition is beneficial in Type II diabetes treatment. Several evidences suggest potential implication of
DPP4
in skin disorders such as psoriasis, keloids and fibrotic skin diseases where its inhibition could also be beneficial.
DPP4
expression in human skin was described mainly in dermal fibroblasts and a subset of keratinocytes in the basal layer. Of importance in the perspective of preclinical experimentation,
DPP4
distribution in skin of non-human primate species has not been documented. This report evidences unexpected differences between a set of human and cynomolgus monkey skin samples revealing a major expression of
DPP4
in eccrine sweat glands of cynomolgus monkeys but not in humans. This represents a unique distinctive feature compared to the conserved expression of dipeptidyl peptidases 8 and 9 and potential relevant
DPP4
substrates such as neuropeptide Y (NPY) and receptors (NPY-receptor 1 and Neurokinin receptor). Finally the observation that
cathepsin D
, an unrelated protease, shows the opposite expression compared to
DPP4
(present in human but not in cynomolgus monkey eccrine sweat glands) could indicate that human eccrine sweat glands evolved a divergent protease repertoire compared to non-human primates. These unexpected differences in the eccrine sweat glands protease repertoire will need to be confirmed extending the analysis to a major number of donors but could imply possible biochemical divergences, reflecting the functional evolution of the glands and the control of their activity. Our findings also demonstrate that non-human primates studies aiming at understanding
DPP4
function in skin biology are not readily translatable to human.
...
PMID:Differential expression of dipeptidyl peptidase IV in human versus cynomolgus monkey skin eccrine sweat glands. 2388 Sep 84
