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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To determine whether a recognition mechanism is involved in determination of sympathetic innervation patterns of various tissues, tissue-derived substances were applied to a restricted test surface region of dishes and the responses of cultured sympathetic neurites were examined. Sympathetic fibers exhibited a turning or ramifying response, resulting in a dense fiber growth on test regions coated with particulate (adheron) fractions of a conditioned-medium (CM) from expansor secundariorum, heart, peripheral blood vessel or abdominal aorta, whereas on test regions coated with those from lung, skeletal muscle or dorsal aorta the neurite growth was repelled and sparse fiber growth was observed. Particulate fractions of brain- or gizzard-CM had no effect. These patterns in vitro were in parallel with the dense sympathetic innervation in expansor secundariorum, heart, peripheral blood vessel and abdominal aorta, but little or no sympathetic innervation in lung, skeletal muscle and dorsal aorta in vivo. These results suggest that adheron particles may participate in determination of sympathetic innervation patterns. Activity which repels or promotes the sympathetic fiber growth was inactivated by pronase E or
trypsin
but not by DNase or neuraminidase. Repelling activity was lost after treatment with heparinase or heparitinase but not with chondroitinase ABC or hyaluronidase. Promoting activity was retained after treatment with these glycosidases. These results suggest that the factor(s) possessing a repellent effect is a
heparan sulfate proteoglycan
and one(s) possessing a promoting effect is a protein.
...
PMID:Characterization of substances which promote or repel sympathetic fiber growth in vitro. 133 24
Macrophages cocultured with rabbit aortic smooth muscle cells at a ratio of 1:3 degraded all the 35S-labeled
heparan sulfate proteoglycan
from the smooth muscle surface into free sulfate (Kav of 0.84 on Sepharose 6B). Concomitantly, the same macrophages induced a decrease in the volume fraction of myofilaments (Vvmyo) of the smooth muscle cells and a decrease in alpha-actin mRNA as a percentage of total actin mRNA. Both macrophage lysosomal lysate at neutral pH and heparinase degraded cell-free 35S-labeled matrix deposited by smooth muscle cells into fragments which eluted at a Kav of 0.63 and which were identified as heparan sulfate chains by their complete degradation in the presence of low pH nitrous acid. At acid pH the macrophage lysosomal lysate completely degraded the heparan sulfate to free sulfate (Kav 0.84). Both macrophage lysosomal lysate and commercial heparinase at neutral pH induced smooth muscle phenotypic change while other enzymes such as
trypsin
and chondroitin ABC lyase had no effect. It was therefore suggested that the active factor present in the macrophages is a lysosomal heparan sulfate-degrading endoglycosidase (heparinase). Only a small amount of heparan sulfate-degrading activity was released into the incubation medium by living macrophages, and there was no heparinase activity on their isolated plasma membranes, although proteolytic enzymes were evident in both instances. In pulse-chase studies, high Vvmyo smooth muscle cells were seen to constantly internalize and degrade 35S-labeled
heparan sulfate proteoglycan
from their own pericellular compartment, suggesting that this may be the mechanism by which smooth muscle phenotype is maintained under normal circumstances and that removal of heparan sulfate from the surface of smooth muscle cells and its degradation by macrophages temporarily interrupts this process, inducing smooth muscle phenotypic change.
...
PMID:Heparan sulfate-degrading enzymes induce modulation of smooth muscle phenotype. 156 84
We studied binding and degradation of labeled platelet thrombospondin (TSP) by normal and variant bovine aorta endothelial (BAE) cells. [125I]-labeled TSP bound to cells at 37 degrees C in a specific, saturable, and time-dependent fashion. Incubation of cell monolayers with fluoresceinated TSP resulted in punctate cellular staining, but no staining of the extracellular matrix. Heparin, fucoidan, chondroitin sulfate, platelet factor 4, beta-thromboglobulin, unlabeled TSP, and serum derived from whole blood all competed for binding of [125I]TSP. [125I]TSP was degraded to TCA-soluble radioactivity, which appeared in the medium after a 60-90-min lag. Degradation was inhibited to the same extent as binding by increasing concentrations of heparin, fucoidan, platelet factor 4, or whole blood serum. Normal BAE cells bound and degraded less [125I]TSP than variant BAE cells. The dissociation constants (Kds) for binding and the constants for degradation (Kms) for degradation by the two cell strains, however, were similar (30-50 nM). The inhibitory effects of heparin and platelet factor 4 were lost when the two inhibitors were present in a 1:1 (wt/wt) ratio. Treatment of suspended cells with
trypsin
or heparitinase caused less binding of TSP. These results indicate that there is a specific receptor for TSP on endothelial cells which mediates binding and degradation. This receptor may be a
heparan sulfate proteoglycan
.
...
PMID:Interactions of thrombospondin with endothelial cells: receptor-mediated binding and degradation. 244 99
Kleinschmidt spreading, negative staining, and rotary shadowing were used to examine the large form of (basement membrane)
heparan sulfate proteoglycan
in the electron microscope. Heparan sulfate proteoglycan was visualized as consisting of two parts: the core protein and, emerging from one end of the core protein, the glycosaminoglycan side chains. The core protein usually appeared as an S-shaped rod with about six globules along its length. Similar characteristics were observed in preparations of core protein in which the side chains had been removed by heparitinase treatment ("400-kDa core") as well as in a 200-kDa
trypsin
fragment ("P200") derived from one end of the core protein. The core protein was sensitive to lyophilization and apparently also to the method of examination, being condensed following Kleinschmidt spreading (length means = 52 nm) and extended following negative staining (length means = 83 nm) or rotary shadowing (length means = 87 nm; 400-kDa core length means = 80 nm; P200 length means = 44 nm). Two or three glycosaminoglycan side chains (length means = 146 +/- 53 nm) were attached to one end of the core protein. The side chains often appeared tangled or to merge together as one. Thus, the large
heparan sulfate proteoglycan
from basement membrane is an asymmetrical molecule with a core protein containing globular domains and terminally attached side chains. This structure is in keeping with that previously predicted by enzymatic digestions and with the proposed orientation in basement membranes, i.e., the core protein bound in the lamina densa and the heparan sulfate side chains in the lamina lucida arranged along the surface of the basement membranes.
...
PMID:Visualization of the large heparan sulfate proteoglycan from basement membrane. 245 65
Abnormalities in the incorporation of
heparan sulfate proteoglycan
into the glomerular basement membrane have been implicated in the pathogenesis of various proteinuric states, including diabetes mellitus. To understand further the interactions between proteoglycans and glomerular extracellular matrices, glomeruli were isolated from normal and streptozocin-induced diabetic rats after in vivo exposure to 35S-labeled sulfate and were treated with heparin in vitro. Heparin treatment released a unique
heparan sulfate proteoglycan
from glomerular cell surface or extracellular matrix proteoglycan receptors. Another, smaller
heparan sulfate proteoglycan
was the most abundant proteoglycan released into medium and was released constitutively in medium with or without added heparin. While the two heparin-extracted proteoglycans copurified on anion-exchange and gel-filtration chromatographic columns, they were resolved by composite 0.6% agarose--1.8% polyacrylamide gel electrophoresis. Glomeruli from diabetic rats contained decreased proportions of the heparin-releasable
heparan sulfate proteoglycan
and more constitutively released
heparan sulfate proteoglycan
. The apparent molecular weight and intrinsic charge of the heparin-released proteoglycan mixture and the apparent molecular weight and sulfation pattern of their 35S-labeled glycosaminoglycan chains after nitrous acid deaminative cleavage were similar in the two groups. A brief
trypsin
digestion of heparin-treated glomeruli released proportionately less integral membrane and extracellular matrix 35S-labeled proteoglycans and 35S-labeled glycopeptides from diabetic glomeruli than form control glomeruli. Elution of these 35S-labeled macromolecules from anion-exchange columns and migration in agarose-polyacrylamide gels were similar in the two groups. Abnormalities in proteoglycan-matrix interactions or proteoglycan processing may account for changes in the proportions of heparin- and
trypsin
-extracted proteoglycan compartments in diabetes.
...
PMID:Release of glomerular heparan-35SO4 proteoglycan by heparin from glomeruli of streptozocin-induced diabetic rats. 252 Dec 10
We have studied susceptibility of basement membranes in a variety of tissues to solubility in guanidine hydrochloride and to proteolytic degradation by
trypsin
and thermolysin. Unfixed sections from embryonic and adult mouse tissues and the EHS tumor were subjected to solvent buffers or digested with enzymes. The retention or disappearance of the basement-membrane components nidogen, laminin, collagen IV, and
heparan sulfate proteoglycan
was subsequently assayed by immunofluorescence. Our data showed that in all tissues nidogen was the most readily solubilized component and the most susceptible to proteolytic degradation. With few exceptions, nidogen in embryonic tissues was more susceptible to degradation than that in adult tissues, and this correlated well with the susceptibility of the other basement-membrane components to be degraded. We conclude that basement membranes differ quite markedly in their solubility and their susceptibility to proteolytic degradation and that these properties reflect differences in their molecular structure.
...
PMID:Differences in the solubility and susceptibility to proteolytic degradation of basement-membrane components in adult and embryonic mouse tissues. 252 98
Schwann cells cocultured with sensory neurons in a serum-free medium accumulate a single species of radiolabeled
heparan sulfate proteoglycan
(HS-PG) during incubation in medium containing 35SO4. This HS-PG was poorly extracted from cultures by solutions containing 1% Triton X-100 in low salt buffer or by solutions containing 1 M KCl, 4 M urea plus dithiothreitol, 1 mM Tris-HCl, 5 mM EDTA, or 100 micrograms/ml of heparin. The HS-PG was efficiently extracted, however, by 1% Triton X-100 in the presence of 1 M KCl or by 1% deoxycholate. These treatments solubilize both cell membranes and the Schwann cell cytoskeleton. In intact cells the HS-PG was digested by
trypsin
, indicating it was at least partially exposed on the cell surface. When solubilized HS-PG was applied to a column of octyl-sepharose CL-4B, more than 90% was retained by the column, but was quantitatively eluted by a solution containing 1% Triton X-100. In addition, the solubilized HS-PG could be incorporated into artificial phospholipid vesicles. These results indicate the HS-PG is an integral plasma membrane protein. The inability of low ionic strength solutions containing Triton X-100 to solubilize the HS-PG suggested it was bound to an additional structure. To determine whether the HS-PG was associated with the cytoskeleton we isolated cytoskeletons by detergent lysis of cells and centrifugation. The major protein components of isolated cytoskeletons were spectrin (Mr 225,000), vimentin (Mr 58,000), and actin (Mr 45,000). When 35SO4-labeled cells were used to prepare cytoskeletons approximately 80% of the total HS-PG was recovered in the cytoskeleton fraction. These results suggest the HS-PG is an externally exposed integral plasma membrane protein that is anchored to the Schwann cell cytoskeleton.
...
PMID:A cytoskeleton-associated plasma membrane heparan sulfate proteoglycan in Schwann cells. 294 Feb 43
Previous studies have reported an increase in heparan sulfate glycosaminoglycan (HSGAG) during skeletal muscle differentiation in culture. We have investigated this phenomenon further in relation to the heparan sulfate proteoglycans (HSPG) produced by myogenic cultures. Pulse-chase analysis indicated an approx. 3-fold increase in heparan sulfate synthesis in myotube cultures over that in proliferating or aligning myoblast cultures. Muscle fibroblast culture heparan sulfate synthesis was higher than that of myoblasts but was lower than myotubes. The turnover rates appeared to be the same for all stages of development, with a t1/2 of approx. 5 h. Enrichment for heparan sulfate by Sepharose CL-4B and DEAE-Sephacel chromatography indicated an increase in the hydrodynamic size of the proteoglycan produced by myotubes over that from myoblasts, with a shift in Kav from 0.14-0.19 to 0.07. Fibroblasts synthesized the smallest proteoglycan, with a Kav of 0.22. All of the proteoglycans contained similar sized glycosaminoglycan chains with an estimated molecular weight of 30,000-40,000. Localization of the
heparan sulfate proteoglycan
in myotube cultures by
trypsin
sensitivity indicated much of the intact proteoglycan to be closely associated with the cell surface, while internalized material appeared in a degraded form.
...
PMID:Biosynthesis of heparan sulfate proteoglycans of developing chick breast skeletal muscle in vitro. 294 1
Characteristics of the chondroitin sulfate/dermatan sulfate proteoglycans (CS/DSPGs) and heparan sulfate proteoglycans (HSPGs) from retinas of 14-day chicken embryos were examined following specific lyase digestion of the
HSPG
and CS/DSPG glycosaminoglycans, respectively. On the basis of gel exclusion chromatography the prevalent CS/DSPGs in the tissue were above Mr 400 X 10(3) with two or three glycosaminoglycan chains of Mr 60-70 X 10(3). The HSPGs existed in two distinct populations in the tissue. Those in the dominant population appeared to be in the range of Mr 250-300 X 10(3) with 9 to 12 glycosaminoglycan chains of Mr 15-25 X 10(3). The other population consisted of free heparan sulfate chains of Mr 15-25 X 10(3). The HSPGs in the medium tended to be intermediate in size. To examine the distribution of proteoglycans, tissues were sequentially homogenized and extracted in saline and reextracted with 4 M guanidine HCl (GdnHCl) and Triton X-100 (TX), or they were washed in heparin solution and dissociated to single cells with
trypsin
before sequential extraction in saline and GdnHCl with TX. Through comparison of the results of these two extraction methods, CS/DSPGs were found to be almost entirely within the medium or matrix or loosely associated with the cell surface, and most HSPGs were associated with either the basal lamina or the plasma membrane. The single heparan sulfate glycosaminoglycan chains appeared to be intracellular degradation products. These results support reports that CS/DSPGs may be present in the retina interphotoreceptor matrix and that HSPGs may be present in regions of synaptogenesis, associated with cell membranes.
...
PMID:Proteoglycans synthesized by embryonic chicken retina in culture: composition and compartmentalization. 311 39
We previously reported that proteins from serum-free conditioned medium (PCM) of rat embryo fibroblasts promote the adhesion of nonmalignant rat liver epithelial cells (RL34) seeded on a collagen substratum (Yamada, M. and Okigaki, T., Cell Biol. Int. Rep. 7, 1115(1983)). We now have compared the adhesion and growth of RL34 cells seeded on an extracellular matrix (RLECM), a product of RL34 cells, or on a collagen (type I) substratum with or without PCM in the medium. The adhesion rate for RL34 cells on RLECM was higher than on collagen, and once RL34 cells adhered to the collagen substratum they showed no growth, whether or not PCM was present. Cells that adhered to RLECM grew, and the growth rate was markedly higher in medium containing PCM than in medium without it. Immunological, enzymatic and chemical analyses revealed that the adhesion- and growth-promoting activities of RLECM involved
trypsin
-sensitive proteins other than collagens, fibronectin (FN) or laminin (LN), and that
heparan sulfate proteoglycan
may be a major component of RLECM.
...
PMID:Adhesion and growth of rat liver epithelial cells on an extracellular matrix with proteins from fibroblast conditioned medium. 355 63
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