EC:3.4.21.4 - FACTA Search

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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)

The effect of conditioned medium (CM) from rat calvaria (RC) cel cultures on the growth and differentiation of osteogenic cells in rat bone marrow stromal cell (BMSC) cultures was investigated. Control cultures received either CM from periodontal ligament fibroblast cultures or fresh medium. RCCM stimulated the formation of nodules of bonelike tissue in bone marrow stromal cell cultures in a dose-dependent manner,and the maximal stimulation was associated with the osteoblast-enriched cell populations of the RC cultures. Ultrafiltration demonstrated that activity was confined to a CM fraction of 10- to 30-kilodalton molecular size. The activity was sensitive to boiling and trypsin treatments, but was not affected by neutralizing antibodies to transforming growth factor beta or insulin-like growth factor I or II. RCCM was found to initially increase the number and proportion of cells that expressed alkaline phosphatase activity, although the proportion of alkaline phosphatase-positive cells subsequently declined. These data were consistent with an initial stimulation of proliferation of a subpopulation of osteoprogenitor cells within the cultures, followed by their differentiation. The results suggest that mature osteoblasts may produce a paracrine growth factor that can stimulate the differentiation of osteoblasts from precursor cells.
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PMID:Stimulation of the differentiation of osteogenic rat bone marrow stromal cells by osteoblast cultures. 203 May 75

Transfection is a technique for inducing transformation of normal fibroblasts (NIH 3T3) with DNA (oncogenes) from human tumors. Our goal was to determine if these transformed cells expressed antigens associated with malignancy. NIH 3T3 cells were transfected with DNA fragments from a human acute lymphocytic leukemia (ALL 1-69), and transformed colonies were selected for growth in soft agar. Transfected cells containing human DNA sequences demonstrated by Southern blot analysis were used to immunize Balb/C mice. Monoclonal antibodies were produced and screened for binding to the parental leukemia (ALL 1-69), transfectant (17(2], and 3T3 cells in an enzyme-linked assay. A monoclonal antibody (IgM kappa) designated 17-9H3 bound to ALL 1-69 and secondary transfectant 17(2) but not to NIH 3T3 plasma membranes. Immunoperoxidase staining confirmed this binding pattern and demonstrated that the antigen was expressed on the cell surface. Expression of the antigen by transfectants directly correlated with the presence of a single 6.1 kilobase human DNA sequence. The antibody binding site of the antigen was inactivated by trypsin, glucosidase, and hyaluronidase. Binding of the 17-9H3 antibody was selective for acute lymphocytic leukemias (5/8) and osteogenic sarcomas (33/36), although other tumor types did demonstrate significant binding by immunoperoxidase staining. The majority of normal tissues did not bind 17-9H3 with the exception of some metabolically active cells (renal tubular epithelium, secretory epithelial cells, and cardiac smooth muscle), germ cells, Leydig cells of the testes, and some lymphoid cells. Monoclonal antibodies to oncogene-associated antigens may be potentially useful for cancer diagnosis and therapy and as probes for oncogene isolation.
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PMID:A novel approach to production of antitumor monoclonal antibodies: antibody to a cell surface glycoprotein associated with transformation by a human oncogene. 637 59

Monoclonal antibodies (mAbs) were raised by injection of a homogenate of cultured growth cartilage (GC) cells from young rabbit ribs. These mAbs were examined by immunohistochemical staining for their reactivity to paraffin sections of rabbit tissues. The results showed that an mAb reacted preferentially with late hypertrophic and calcified costal GC zones. The mAb also reacted with hypertrophic GC adjacent to bone that existed in sternum and femur, but not to other cartilages, including resting cartilage, articular cartilage, auricular cartilage, nasal cartilage, tracheal cartilage and meniscus cartilage, or with other tissues, including tendon, skin, muscles, lung, liver, heart, thymus, spleen, eye and gut. It reacted with a wider area of the GC zone when the sections were decalcified, although its reactivity with the extended area was much less intensive than that with late hypertrophic and calcified GC zones. On treatment of the sections with bacterial collagenase, neither the reactive area nor its intensity were changed, while when treated with trypsin the reactivity was lost. These results suggest the existence of a certain molecule which distinguishes GC (osteogenic cartilage) from other (non-osteogenic) cartilage. This mAb is a useful probe for distinguishing osteogenic cartilage from non-osteogenic cartilage, and for studying differentiation steps of cartilage cells in endochondral bone formation. The mAb can also be used as a probe for clinical and stored specimens because it reacts with decalcified and paraffin-embedded human specimens.
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PMID:A monoclonal antibody distinguishes growth cartilage from other types of cartilage: a new probe for osteogenic cartilage. 846 88

While cementoblasts express a number of mineral-related proteins, including bone sialoprotein (BSP), osteopontin (OPN) and osteocalcin (OC), these proteins do not appear to be expressed by cells of the intermediate dental follicle/periodontal ligament (PDL). This information was utilized in an experimental strategy to isolate presumptive cementoblasts from the root surface of day 24 murine mandibular first molars. Using microscopic dissection techniques, molars were carefully extracted from their alveolar crypts and subjected to trypsin-collagenase digestion to remove adherent cells. Primary cultures were established and assayed for expression of proteins known to be expressed by cementoblasts at this timepoint in vivo (i.e. BSP, OPN, OC) and also an odontoblast-specific protein (i.e. DSP) to rule out contamination by pulpal cells. A subgroup of cells were found to express Type I collagen (89% of cells), BSP (46%), OPN (23%) and OC (30%); DSP was not detected within these cultures. We propose that cells within this heterogeneous population, which express this profile of osteogenic proteins, represent cementoblasts. The availability of a cementoblast cell line will make possible rigorous and controlled in vitro analysis of these cells and allow for determination of the unique characteristics of these cells not shared with other cells, particularly osteoblasts.
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PMID:Isolation of murine cementoblasts: unique cells or uniquely-positioned osteoblasts? 954 Dec 47

Bone marrow cells obtained from rat femora were subjected to primary culture with 15% fetal bovine serum in the presence of 10(-8) M dexamethasone, and following trypsin treatment 5 days later were seeded on Petriperm dishes which have a flexible bottom. After a 2-day subculture, a cyclic stress consisting of a 1 s stretch (0.3% strain. 0.5 Hz) and a 1 s relaxation for 30 min every day was started. Culture tissue was removed on day 2 of the subculture (immediately prior to start of stimulation), and then on days 5 and 8 (3 and 6 days after the start of stimulation, respectively), at which times dry weight, DNA, alkaline phosphatase (ALP) activity, and bone Gla protein (BGP, osteocalcin) were measured. Both the dry weight and DNA showed a significant increase in the stimulated group by day 8, while the ALP activity showed a significant increase by day 5. The BGP began to increase in the stimulated group on day 5 in contrast to the control group in which it only increased on day 8. These results support the contention that mechanical stimulation promotes the differentiation of osteogenic cells and enhances bone formation. Since in this experimental model the acceleration of bone formation by mechanical stimulation can be reproduced in vitro, it is extremely useful for investigating the mechanisms underlying mechanical stimulation.
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PMID:Biochemical analysis of the response in rat bone marrow cell cultures to mechanical stimulation. 962 4

Immunolocalisation and histochemical techniques were used to examine mineralised bone deposits within late stage atherosclerotic plaques of human carotid arteries. These specimens showed characteristic features of osteogenesis. Large calcifications were often observed in close association with or integrated within mineralised bone. Smooth muscle cells (alpha-actin positive) were often located around osteoid-like matrix, together with focal accumulations of macrophages (CD68 and HAM56 positive). Local accumulations of mast cells (tryptase positive) were consistently observed in close association with the bone. Multinucleated giant cells in close apposition with mineralised bone demonstrated typical osteoclastic morphology, and were positively stained for acid phosphatase and the macrophage marker CD68. Thus, all the normal features of bone formation and resorption were observed in this microcosm of osteogenesis within atherosclerotic plaque; the term 'osteosome' seems appropriate for the structure. These osteosomes have numerous advantages for experimental studies of the various osteogenic factors responsible for bone metabolism, especially following short-term tissue culture. This ex vivo technique was used to demonstrate the distribution and the multiple cellular sources of bone morphogenetic protein 6.
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PMID:Observations on bone formation and remodelling in advanced atherosclerotic lesions of human carotid arteries. 987 Jun 90

After severe injury to the periodontal ligament (PL), the phenotypes of cells recolonizing root surfaces influence the extent and type of repair processes. In teeth that are replanted following avulsion injury, recolonization of the PL space by osteogenic cells instead of by PL fibroblasts may favor bone formation (i.e. ankylosis) instead of PL regeneration. We consider here that recolonization processes depend in part on the storage conditions of the teeth following avulsion. We used an in vitro cell culture model to assess the effect of storage conditions on immunohistochemical staining of several marker proteins that are expressed by osteogenic cells (osteopontin and alkaline phosphatase) and fibroblasts (alpha-smooth muscle actin, type III and XII collagens). Prior to cell culture, extracted human premolar teeth were stored in air ("dry") or in alpha-MEM ("wet") for either 30 or 120 min as surrogate conditions for the variations of extra-alveolar tooth storage that may occur following avulsion. Collagenase/trypsin-digested suspensions of PL cells were prepared from the tissue adherent to the extracted root surface. Passage #2 or #3 cultures were immunostained and examined by fluorescence microscopy. For type XII collagen, cells from wet samples displayed perinuclear staining while cells from 30-min dry samples showed only isolated foci. The staining for 120-min dry samples was weak and non-specific. alpha-Smooth muscle actin was not incorporated into stress fibers in wet samples, whereas dry samples demonstrated prominent stress fibers stained for alpha-smooth muscle actin. Detached cytoplasmic fragments resembling cell processes that stained for alpha-smooth muscle actin were abundant in dry samples, indicating the presence of highly contractile cells. The staining for osteopontin was mainly perinuclear but was more intense in dry samples. The focal adhesion pattern of osteopontin staining in 120-min dry samples resembled that of migrating osteogenic cells. The pattern of staining did not vary for type III collagen or alkaline phosphatase, although staining for alkaline phosphatase was more intense in samples stored under dry conditions. We conclude that prolonged extra-alveolar dry storage favors increased in vitro growth of contractile cells expressing osteogenic cell markers while storage in cell culture medium favors growth of cells with the classical phenotype of PL fibroblasts.
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PMID:Storage conditions of avulsed teeth affect the phenotype of cultured human periodontal ligament cells. 1079 8

It is shown that the content of precursor cells of stromal tissue (CFC-F) in the hemopoietic and lymphoid organs of SAMP (rapidly-ageing mice) and SAMR mice (mice with a normal ageing rate) decreases as the animals grow older. However the decrease in the content of CFC-F in SAMP mice begins substantially earlier - in the age group of 9-11 months, while in the SAMR mice - only in the age group of 16-19 months. It was found that the age reduction of the number to an equal degree relates to the whole population of CFC-F, in particular both the fraction of weakly-linked CFC-F, which is isolated by means of mechanical disaggregation of the tissue, and the fraction which may only be isolated using trypsin. It is shown that the concentration of inducible osteogenic precursor cells (IOPC) in the spleen of guinea pigs does not change with age, but their content in that organ in old animals (2-3 years old) drops by two times. It was found that in elderly animals the mass of the ectopic osseous tissue, formed by the implantation of an osteoinductor (autologous epithelium of the urinary bladder) in a system open for entrance of cells, decreases by two times. After curettage of the medullary cavity of guinea pig tibia (i.e. under conditions of an increased demand for osteogenic cells) the mass of induced ectopic osseous tissue decreases by 4 times, which indicates to the possible functional relationship between the pool of determined and inducible osteogenic precursor cells. On the whole, the obtained data show that during ageing there is a reduction in the number of stromal precursor cells (CFC-F and IOPC), which form a specific microenvironment for hemopoietic and lymphoid organs, which is important to understand the role of these cells in the development of age pathologies, in particular senile osteoporosis.
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PMID:Age-Related Changes in Population of Stromal Precursor Cells in Hematopoietic and Lymphoid Organs. 1268 70

Mesenchymal stem/progenitor cells (MSCs) are widely distributed in a variety of tissues in the adult human body (e.g., bone marrow [BM], kidney, lung, and liver). These cells are also present in the fetal environment (e.g., blood, liver, BM, and kidney). However, MSCs are a rare population in these tissues. Here we tried to identify cells with MSC-like potency in human placenta. We isolated adherent cells from trypsin-digested term placentas and established two clones by limiting dilution. We examined these cells for morphology, surface markers, gene expression patterns, and differentiation potential and found that they expressed several stem cell markers, hematopoietic/ endothelial cell-related genes, and organ-specific genes, as determined by reverse transcription-polymerase chain reaction and fluorescence-activated cell sorter analysis. They also showed osteogenic and adipogenic differentiation potentials under appropriate conditions. We suggest that placenta-derived cells have multilineage differentiation potential similar to MSCs in terms of morphology, cell-surface antigen expression, and gene expression patterns. The placenta may prove to be a useful source of MSCs.
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PMID:Human placenta-derived cells have mesenchymal stem/progenitor cell potential. 1534 29

Rat marrow cells were collected from the femurs of 7-week-old male rats (Fischer 344), cultured in 75-cm2 flasks for 10 days, released with trypsin, and then frozen and stored at -196 degrees C in liquid nitrogen. Three months later, the cryopreserved marrow cells were rapidly thawed and cultured in porous hydroxyapatite (HA) blocks in osteogenic medium containing 10 mM sodium beta-glycerophosphate, vitamin C phosphate (82 microg/mL), and 10 nM dexamethasone. After 2 weeks of subculture, cultured cells-HA constructs were subcutaneously implanted into syngeneic rats. The constructs were harvested 2 and 4 weeks postimplantation and examined by histological, biochemical, and genetic analyses. Histological examination showed extensive bone formation in the HA pores. High alkaline phosphatase (ALP) activity and high osteocalcin content were detected in the constructs. Expression of ALP and osteocalcin mRNA was observed at both 2 and 4 weeks. These results indicate that artificial bone prepared with cryopreserved cells had a marked osteogenic capacity.
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PMID:Osteogenesis with cryopreserved marrow mesenchymal cells. 1573 70

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